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Downloads:

1,665

Downloads of v 0.1:

1,665

Last Update:

22 Sep 2014

Package Maintainer(s):

Software Author(s):

  • Zohaib Rauf

Tags:

c# ipython icsharp

ICSharp

  • 1
  • 2
  • 3

0.1 | Updated: 22 Sep 2014

Downloads:

1,665

Downloads of v 0.1:

1,665

Maintainer(s):

Software Author(s):

  • Zohaib Rauf

ICSharp 0.1

Legal Disclaimer: Neither this package nor Chocolatey Software, Inc. are affiliated with or endorsed by Zohaib Rauf. The inclusion of Zohaib Rauf trademark(s), if any, upon this webpage is solely to identify Zohaib Rauf goods or services and not for commercial purposes.

  • 1
  • 2
  • 3

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Verification Testing Failed

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Learn More

Deployment Method: Individual Install, Upgrade, & Uninstall

To install ICSharp, run the following command from the command line or from PowerShell:

>

To upgrade ICSharp, run the following command from the command line or from PowerShell:

>

To uninstall ICSharp, run the following command from the command line or from PowerShell:

>

Deployment Method:

NOTE

This applies to both open source and commercial editions of Chocolatey.

1. Enter Your Internal Repository Url

(this should look similar to https://community.chocolatey.org/api/v2/)


2. Setup Your Environment

1. Ensure you are set for organizational deployment

Please see the organizational deployment guide

2. Get the package into your environment

  • Open Source or Commercial:
    • Proxy Repository - Create a proxy nuget repository on Nexus, Artifactory Pro, or a proxy Chocolatey repository on ProGet. Point your upstream to https://community.chocolatey.org/api/v2/. Packages cache on first access automatically. Make sure your choco clients are using your proxy repository as a source and NOT the default community repository. See source command for more information.
    • You can also just download the package and push it to a repository Download

3. Copy Your Script

choco upgrade icsharp -y --source="'INTERNAL REPO URL'" [other options]

See options you can pass to upgrade.

See best practices for scripting.

Add this to a PowerShell script or use a Batch script with tools and in places where you are calling directly to Chocolatey. If you are integrating, keep in mind enhanced exit codes.

If you do use a PowerShell script, use the following to ensure bad exit codes are shown as failures:


choco upgrade icsharp -y --source="'INTERNAL REPO URL'" 
$exitCode = $LASTEXITCODE

Write-Verbose "Exit code was $exitCode"
$validExitCodes = @(0, 1605, 1614, 1641, 3010)
if ($validExitCodes -contains $exitCode) {
  Exit 0
}

Exit $exitCode

- name: Install icsharp
  win_chocolatey:
    name: icsharp
    version: '0.1'
    source: INTERNAL REPO URL
    state: present

See docs at https://docs.ansible.com/ansible/latest/modules/win_chocolatey_module.html.


chocolatey_package 'icsharp' do
  action    :install
  source   'INTERNAL REPO URL'
  version  '0.1'
end

See docs at https://docs.chef.io/resource_chocolatey_package.html.


cChocoPackageInstaller icsharp
{
    Name     = "icsharp"
    Version  = "0.1"
    Source   = "INTERNAL REPO URL"
}

Requires cChoco DSC Resource. See docs at https://github.com/chocolatey/cChoco.


package { 'icsharp':
  ensure   => '0.1',
  provider => 'chocolatey',
  source   => 'INTERNAL REPO URL',
}

Requires Puppet Chocolatey Provider module. See docs at https://forge.puppet.com/puppetlabs/chocolatey.


4. If applicable - Chocolatey configuration/installation

See infrastructure management matrix for Chocolatey configuration elements and examples.

WARNING

This package was submitted prior to moderation and has not been approved. While it is likely safe for you, there is more risk involved.

Description

ICSharp is a C# kernel for IPython


tools\chocolateyinstall.ps1
$packageName = 'icsharp'
$validExitCodes = @(0)

try {
  $tools = "$(Split-Path -parent $MyInvocation.MyCommand.Definition)"
  #$nuget = "$env:ChocolateyInstall\ChocolateyInstall\nuget"
  $binPath = "$env:APPDATA\icsharp"
  #$nugetPath = "$tools\nugets"
  $profilePath = "$env:USERPROFILE"
  $ipythonUserProfile = "$profilePath\.ipython"
  $profileCsharp = "profile_icsharp"
  $profileCsharpPath = "$ipythonUserProfile\$profileCsharp"
  $icsharpKernel = "$binpath\iCSharp.Kernel.exe"
  
  New-Item $binPath -ItemType Directory -Force | Out-Null

  Copy-Item "$tools\icsharp\*" $binPath -Force

  &pip install ipython
  Write-Host "ipython installed"

  &ipython profile create icsharp
  Write-Host "ICSharp profile created"

  if(-not(Test-Path($profileCsharpPath)))
  {
    throw "IPython profile not created"
  }

  $profileOut = @()
  $profileOut += "c = get_config()"
  $profileOut += "c.KernelManager.kernel_cmd = [r""$icsharpKernel"", ""{connection_file}""]"
  $profileOut += "c.Session.key = ''"
  $profileOut += "c.Session.keyfile = ''"

  $profileOut | Out-File -FilePath "$profileCsharpPath\ipython_config.py" -Encoding utf8

  $profileOut | Out-File -FilePath "$profileCsharpPath\ipython_notebook_config.py" -Encoding utf8

  Write-Host "Change 2"
  Write-Host "icsharp has been installed to $binpath and has been added." -ForegroundColor DarkYellow
  Write-Host "You may need to open a new console for the new path to take effect. Happy scripting!" -ForegroundColor DarkYellow
  Write-ChocolateySuccess "$packageName"
} catch {
  Write-ChocolateyFailure "$packageName" "$($_.Exception.Message)"
  throw
}
tools\icsharp\Autofac.dll
 
tools\icsharp\Autofac.Integration.Mef.dll
 
tools\icsharp\Autofac.Integration.Mef.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>Autofac.Integration.Mef</name>
    </assembly>
    <members>
        <member name="T:Autofac.Integration.Mef.ContractBasedService">
            <summary>
            Identifies a service by the MEF contract name it supports.
            </summary>
        </member>
        <member name="M:Autofac.Integration.Mef.ContractBasedService.#ctor(System.String,System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Integration.Mef.ContractBasedService"/> class.
            </summary>
            <param name="contractName">The contract name.</param>
            <param name="exportTypeIdentity">Type identity of the objects exported under the contract.</param>
        </member>
        <member name="M:Autofac.Integration.Mef.ContractBasedService.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            true if the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>; otherwise, false.
            </returns>
            <exception cref="T:System.NullReferenceException">The <paramref name="obj"/> parameter is null.</exception>
        </member>
        <member name="M:Autofac.Integration.Mef.ContractBasedService.GetHashCode">
            <summary>
            Serves as a hash function for a particular ExportDefinition.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="P:Autofac.Integration.Mef.ContractBasedService.ExportTypeIdentity">
            <summary>
            Type identity of the objects exported under the contract.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.ContractBasedService.ContractName">
            <summary>
            Gets or sets the name of the contract.
            </summary>
            <value>The name of the contract.</value>
        </member>
        <member name="P:Autofac.Integration.Mef.ContractBasedService.Description">
            <summary>
            Gets a human-readable description of the service.
            </summary>
            <value>The description.</value>
        </member>
        <member name="T:Autofac.Integration.Mef.ContractBasedServiceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.ContractBasedServiceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.ContractBasedServiceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.ContractBasedServiceResources.DescriptionFormat">
            <summary>
              Looks up a localized string similar to ContractName={0}.
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.ExportConfigurationBuilder">
            <summary>
            Configures an Export on an Autofac component.
            </summary>
        </member>
        <member name="M:Autofac.Integration.Mef.ExportConfigurationBuilder.As``1">
            <summary>
            Export the component under typed contract <typeparamref name="TContract"/>.
            </summary>
            <typeparam name="TContract">Contract type.</typeparam>
            <returns>Builder for additional configuration.</returns>
        </member>
        <member name="M:Autofac.Integration.Mef.ExportConfigurationBuilder.AsNamed``1(System.String)">
            <summary>
            Export the component under named contract <paramref name="name"/>.
            </summary>
            <typeparam name="TExportedValue">Exported value type.</typeparam>
            <param name="name">Contract name.</param>
            <returns>Builder for additional configuration.</returns>
        </member>
        <member name="M:Autofac.Integration.Mef.ExportConfigurationBuilder.WithMetadata(System.String,System.Object)">
            <summary>
            Add metadata to the export.
            </summary>
            <param name="key">Metadata key.</param>
            <param name="value">Metadata value.</param>
            <returns>Builder for additional configuration.</returns>
        </member>
        <member name="M:Autofac.Integration.Mef.ExportConfigurationBuilder.WithMetadata(System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.Object}})">
            <summary>
            Add metadata to the export.
            </summary>
            <param name="metadata">Metadata.</param>
            <returns>Builder for additional configuration.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="metadata"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="T:Autofac.Integration.Mef.IMetadataConfiguration">
            <summary>
            Implementors are able to provide metadata for a component.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.IMetadataConfiguration.Properties">
            <summary>
            Gets the metadata properties and values.
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.LazyWithMetadataRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.LazyWithMetadataRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.LazyWithMetadataRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.LazyWithMetadataRegistrationSourceResources.LazyWithMetadataRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Lazy&lt;T, TMetadata&gt; Support.
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.LazyWithMetadataRegistrationSource">
            <summary>
            Support the <see cref="T:System.Lazy`2"/>
            types automatically whenever type T is registered with the container.
            Metadata values come from the component registration's metadata.
            When a dependency of a lazy type is used, the instantiation of the underlying
            component will be delayed until the Value property is first accessed.
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.StronglyTypedMetaRegistrationSource">
            <summary>
            Support the <see cref="T:Autofac.Features.Metadata.Meta`2"/>
            types automatically whenever type T is registered with the container.
            Metadata values come from the component registration's metadata.
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.Util.ReflectionExtensions">
            <summary>
            Extension methods for reflection-related types.
            </summary>
        </member>
        <member name="M:Autofac.Integration.Mef.Util.ReflectionExtensions.TryGetDeclaringProperty(System.Reflection.ParameterInfo,System.Reflection.PropertyInfo@)">
            <summary>
            Maps from a property-set-value parameter to the declaring property.
            </summary>
            <param name="pi">Parameter to the property setter.</param>
            <param name="prop">The property info on which the setter is specified.</param>
            <returns>True if the parameter is a property setter.</returns>
        </member>
        <member name="M:Autofac.Integration.Mef.Util.ReflectionExtensions.GetProperty``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
            <summary>
            Get a PropertyInfo object from an expression of the form
            x =&gt; x.P.
            </summary>
            <typeparam name="TDeclaring">Type declaring the property.</typeparam>
            <typeparam name="TProperty">The type of the property.</typeparam>
            <param name="propertyAccessor">Expression mapping an instance of the
            declaring type to the property value.</param>
            <returns>Property info.</returns>
        </member>
        <member name="T:Autofac.Integration.Mef.Util.ReflectionExtensionsResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.Util.ReflectionExtensionsResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.Util.ReflectionExtensionsResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.Util.ReflectionExtensionsResources.ExpressionNotPropertyAccessor">
            <summary>
              Looks up a localized string similar to The provided expression must be of the form x =&gt;x.P, but the provided expression was {0}..
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.StronglyTypedMetaRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.StronglyTypedMetaRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.StronglyTypedMetaRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.StronglyTypedMetaRegistrationSourceResources.StronglyTypedMetaRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Meta&lt;T, TMetadata&gt; Support.
            </summary>
        </member>
        <member name="T:Autofac.Integration.Mef.RegistrationExtensions">
            <summary>
            Extension methods that add MEF hosting capabilities to the container building classes.
            </summary>
        </member>
        <member name="F:Autofac.Integration.Mef.RegistrationExtensions._contractNameServices">
            <summary>
            Reference to the internal <see cref="T:System.Type"/> for <c>System.ComponentModel.Composition.ContractNameServices</c>,
            which is responsible for mapping types to MEF contract names.
            </summary>
        </member>
        <member name="F:Autofac.Integration.Mef.RegistrationExtensions._typeIdentityCache">
            <summary>
            Reference to the property <c>System.ComponentModel.Composition.ContractNameServices.TypeIdentityCache</c>,
            which holds the dictionary of <see cref="T:System.Type"/> to <see cref="T:System.String"/> contract name mappings.
            </summary>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterMetadataRegistrationSources(Autofac.ContainerBuilder)">
            <summary>
            Registers the <see cref="T:Autofac.Integration.Mef.LazyWithMetadataRegistrationSource"/> and 
            <see cref="T:Autofac.Integration.Mef.StronglyTypedMetaRegistrationSource"/> registration sources.
            </summary>
            <param name="builder">The container builder.</param>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.Exported``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Action{Autofac.Integration.Mef.ExportConfigurationBuilder})">
            <summary>
            Expose the registered service to MEF parts as an export.
            </summary>
            <param name="registration">The component being registered.</param>
            <param name="configurationAction">Action on an object that configures the export.</param>
            <returns>A registration allowing registration to continue.</returns>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterComposablePartType(Autofac.ContainerBuilder,System.Type)">
            <summary>
            Register a MEF-attributed type as a component.
            </summary>
            <param name="builder">The container builder.</param>
            <param name="partType">The attributed type to register.</param>
            <remarks>
            A simple heuristic/type scanning technique will be used to determine which MEF exports
            are exposed to other components in the Autofac container.
            </remarks>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterComposablePartType(Autofac.ContainerBuilder,System.Type,System.Func{System.ComponentModel.Composition.Primitives.ExportDefinition,System.Collections.Generic.IEnumerable{Autofac.Core.Service}})">
            <summary>
            Register a MEF-attributed type as a component.
            </summary>
            <param name="builder">The container builder.</param>
            <param name="partType">The attributed type to register.</param>
            <param name="exposedServicesMapper">A mapping function to transform ExportDefinitions into Services.</param>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterComposablePartCatalog(Autofac.ContainerBuilder,System.ComponentModel.Composition.Primitives.ComposablePartCatalog)">
            <summary>
            Register a MEF catalog.
            </summary>
            <param name="builder">The container builder.</param>
            <param name="catalog">The catalog to register.</param>
            <remarks>
            A simple heuristic/type scanning technique will be used to determine which MEF exports
            are exposed to other components in the Autofac container.
            </remarks>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterComposablePartCatalog(Autofac.ContainerBuilder,System.ComponentModel.Composition.Primitives.ComposablePartCatalog,Autofac.Core.Service[])">
            <summary>
            Register a MEF catalog.
            </summary>
            <param name="builder">The container builder.</param>
            <param name="catalog">The catalog to register.</param>
            <param name="interchangeServices">The services that will be exposed to other components in the container.</param>
            <remarks>
            Named and typed services only can be matched in the <paramref name="interchangeServices"/> collection.
            </remarks>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterComposablePartCatalog(Autofac.ContainerBuilder,System.ComponentModel.Composition.Primitives.ComposablePartCatalog,System.Func{System.ComponentModel.Composition.Primitives.ExportDefinition,System.Collections.Generic.IEnumerable{Autofac.Core.Service}})">
            <summary>
            Register a MEF catalog.
            </summary>
            <param name="builder">The container builder.</param>
            <param name="catalog">The catalog to register.</param>
            <param name="exposedServicesMapper">A mapping function to transform ExportDefinitions into Services.</param>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.RegisterComposablePartDefinition(Autofac.ContainerBuilder,System.ComponentModel.Composition.Primitives.ComposablePartDefinition,System.Func{System.ComponentModel.Composition.Primitives.ExportDefinition,System.Collections.Generic.IEnumerable{Autofac.Core.Service}})">
            <summary>
            Register a MEF part definition.
            </summary>
            <param name="builder">The container builder.</param>
            <param name="partDefinition">The part definition to register.</param>
            <param name="exposedServicesMapper">A mapping function to transform ExportDefinitions into Services.</param>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.ResolveExports``1(Autofac.IComponentContext)">
            <summary>
            Locate all of the MEF exports registered as supplying contract type T.
            </summary>
            <typeparam name="T">The contract type.</typeparam>
            <param name="context">The context to resolve exports from.</param>
            <returns>A list of exports.</returns>
        </member>
        <member name="M:Autofac.Integration.Mef.RegistrationExtensions.ResolveExports``1(Autofac.IComponentContext,System.String)">
            <summary>
            Locate all of the MEF exports registered as supplying contract type T.
            </summary>
            <param name="contractName">The contract name.</param>
            <param name="context">The context to resolve exports from.</param>
            <returns>A list of exports.</returns>
        </member>
        <member name="T:Autofac.Integration.Mef.RegistrationExtensionsResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.RegistrationExtensionsResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.RegistrationExtensionsResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Integration.Mef.RegistrationExtensionsResources.ContractBasedOnly">
            <summary>
              Looks up a localized string similar to Import &apos;{0}&apos; is not supported: only contract-based imports are supported..
            </summary>
        </member>
    </members>
</doc>
tools\icsharp\Autofac.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>Autofac</name>
    </assembly>
    <members>
        <member name="T:Autofac.Core.AutoActivateService">
            <summary>
            Service used as a "flag" to indicate a particular component should be
            automatically activated on container build.
            </summary>
        </member>
        <member name="T:Autofac.Core.Service">
            <summary>
            Services are the lookup keys used to locate component instances.
            </summary>
        </member>
        <member name="M:Autofac.Core.Service.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
            </summary>
            <returns>
            A <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="M:Autofac.Core.Service.op_Equality(Autofac.Core.Service,Autofac.Core.Service)">
            <summary>
            Implements the operator ==.
            </summary>
            <param name="left">The left operand.</param>
            <param name="right">The right operand.</param>
            <returns>The result of the operator.</returns>
        </member>
        <member name="M:Autofac.Core.Service.op_Inequality(Autofac.Core.Service,Autofac.Core.Service)">
            <summary>
            Implements the operator !=.
            </summary>
            <param name="left">The left operand.</param>
            <param name="right">The right operand.</param>
            <returns>The result of the operator.</returns>
        </member>
        <member name="M:Autofac.Core.Service.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            true if the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>; otherwise, false.
            </returns>
            <exception cref="T:System.NullReferenceException">The <paramref name="obj"/> parameter is null.</exception>
        </member>
        <member name="M:Autofac.Core.Service.GetHashCode">
            <summary>
            Serves as a hash function for a particular type.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="P:Autofac.Core.Service.Description">
            <summary>
            Gets a human-readable description of the service.
            </summary>
            <value>The description.</value>
        </member>
        <member name="M:Autofac.Core.AutoActivateService.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            <see langword="true"/> if the specified <see cref="T:System.Object"/> is not <see langword="null"/>
            and is an <see cref="T:Autofac.Core.AutoActivateService"/>; otherwise, <see langword="false"/>.
            </returns>
            <remarks>
            <para>
            All services of this type are considered "equal."
            </para>
            </remarks>
        </member>
        <member name="M:Autofac.Core.AutoActivateService.GetHashCode">
            <summary>
            Serves as a hash function for a particular type.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>. Always <c>0</c> for this type.
            </returns>
            <remarks>
            <para>
            All services of this type are considered "equal" and use the same hash code.
            </para>
            </remarks>
        </member>
        <member name="P:Autofac.Core.AutoActivateService.Description">
            <summary>
            Gets the service description.
            </summary>
            <value>
            Always returns <c>AutoActivate</c>.
            </value>
        </member>
        <member name="T:Autofac.Builder.MetadataConfiguration`1">
            <summary>
            Used with the WithMetadata configuration method to
            associate key-value pairs with an <see cref="T:Autofac.Core.IComponentRegistration"/>.
            </summary>
            <typeparam name="TMetadata">Interface with properties whose names correspond to
            the property keys.</typeparam>
            <remarks>This feature was suggested by OJ Reeves (@TheColonial).</remarks>
        </member>
        <member name="M:Autofac.Builder.MetadataConfiguration`1.For``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
            <summary>
            Set one of the property values.
            </summary>
            <typeparam name="TProperty">The type of the property.</typeparam>
            <param name="propertyAccessor">An expression that accesses the property to set.</param>
            <param name="value">The property value to set.</param>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.MostParametersConstructorSelectorResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MostParametersConstructorSelectorResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MostParametersConstructorSelectorResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MostParametersConstructorSelectorResources.UnableToChooseFromMultipleConstructors">
            <summary>
              Looks up a localized string similar to Cannot choose between multiple constructors with equal length {0} on type &apos;{1}&apos;. Select the constructor explicitly, with the UsingConstructor() configuration method, when the component is registered..
            </summary>
        </member>
        <member name="T:Autofac.Core.DependencyResolutionExceptionResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.DependencyResolutionExceptionResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.DependencyResolutionExceptionResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.DependencyResolutionExceptionResources.MessageNestingFormat">
            <summary>
              Looks up a localized string similar to {0} ---&gt; {1} (See inner exception for details.).
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.IModuleRegistrar">
            <summary>
            Interface providing fluent syntax for chaining module registrations.
            </summary>
        </member>
        <member name="M:Autofac.Core.Registration.IModuleRegistrar.RegisterModule(Autofac.Core.IModule)">
            <summary>
            Add a module to the container.
            </summary>
            <param name="module">The module to add.</param>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="T:Autofac.Core.Registration.ModuleRegistrar">
            <summary>
            Basic implementation of the <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/>
            interface allowing registration of modules into a <see cref="T:Autofac.ContainerBuilder"/>
            in a fluent format.
            </summary>
        </member>
        <member name="F:Autofac.Core.Registration.ModuleRegistrar._builder">
            <summary>
            The <see cref="T:Autofac.ContainerBuilder"/> into which registrations will be made.
            </summary>
        </member>
        <member name="M:Autofac.Core.Registration.ModuleRegistrar.#ctor(Autofac.ContainerBuilder)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.Registration.ModuleRegistrar"/> class.
            </summary>
            <param name="builder">
            The <see cref="T:Autofac.ContainerBuilder"/> into which registrations will be made.
            </param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Core.Registration.ModuleRegistrar.RegisterModule(Autofac.Core.IModule)">
            <summary>
            Add a module to the container.
            </summary>
            <param name="module">The module to add.</param>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="module"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="T:Autofac.Features.LazyDependencies.LazyWithMetadataRegistrationSource">
            <summary>
            Support the <c>System.Lazy&lt;T, TMetadata&gt;</c>
            types automatically whenever type T is registered with the container.
            Metadata values come from the component registration's metadata.
            When a dependency of a lazy type is used, the instantiation of the underlying
            component will be delayed until the Value property is first accessed.
            </summary>
        </member>
        <member name="T:Autofac.Core.IRegistrationSource">
            <summary>
            Allows registrations to be made on-the-fly when unregistered
            services are requested (lazy registrations.)
            </summary>
        </member>
        <member name="M:Autofac.Core.IRegistrationSource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
            <remarks>
            If the source is queried for service s, and it returns a component that implements both s and s', then it
            will not be queried again for either s or s'. This means that if the source can return other implementations
            of s', it should return these, plus the transitive closure of other components implementing their 
            additional services, along with the implementation of s. It is not an error to return components
            that do not implement <paramref name="service"/>.
            </remarks>
        </member>
        <member name="P:Autofac.Core.IRegistrationSource.IsAdapterForIndividualComponents">
            <summary>
            Gets whether the registrations provided by this source are 1:1 adapters on top
            of other components (I.e. like Meta, Func or Owned.)
            </summary>
        </member>
        <member name="T:Autofac.Features.LazyDependencies.LazyWithMetadataRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.LazyDependencies.LazyWithMetadataRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.LazyDependencies.LazyWithMetadataRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.LazyDependencies.LazyWithMetadataRegistrationSourceResources.LazyWithMetadataRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Lazy&lt;T, TMetadata&gt; Support.
            </summary>
        </member>
        <member name="T:Autofac.Features.Metadata.MetadataViewProviderResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetadataViewProviderResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetadataViewProviderResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetadataViewProviderResources.InvalidViewImplementation">
            <summary>
              Looks up a localized string similar to The type &apos;{0}&apos; cannot be used as a metadata view. A metadata view must be a concrete class with a parameterless or dictionary constructor..
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetadataViewProviderResources.MissingMetadata">
            <summary>
              Looks up a localized string similar to Export metadata for &apos;{0}&apos; is missing and no default value was supplied..
            </summary>
        </member>
        <member name="T:Autofac.Features.Metadata.Meta`2">
            <summary>
            Provides a value along with metadata describing the value.
            </summary>
            <typeparam name="T">The type of the value.</typeparam>
            <typeparam name="TMetadata">An interface to which metadata values can be bound.</typeparam>
        </member>
        <member name="M:Autofac.Features.Metadata.Meta`2.#ctor(`0,`1)">
            <summary>
            Create a new instance.
            </summary>
            <param name="value">The value described by the instance.</param>
            <param name="metadata">The metadata describing the value.</param>
        </member>
        <member name="P:Autofac.Features.Metadata.Meta`2.Value">
            <summary>
            The value described by <see cref="P:Autofac.Features.Metadata.Meta`2.Metadata"/>.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.Meta`2.Metadata">
            <summary>
            Metadata describing the value.
            </summary>
        </member>
        <member name="T:Autofac.Features.Metadata.StronglyTypedMetaRegistrationSource">
            <summary>
            Support the <see cref="T:Autofac.Features.Metadata.Meta`2"/>
            types automatically whenever type T is registered with the container.
            Metadata values come from the component registration's metadata.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.DefaultConstructorFinder">
            <summary>
            Finds constructors that match a finder function.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.IConstructorFinder">
            <summary>
            Find suitable constructors from which to select.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.IConstructorFinder.FindConstructors(System.Type)">
            <summary>
            Finds suitable constructors on the target type.
            </summary>
            <param name="targetType">Type to search for constructors.</param>
            <returns>Suitable constructors.</returns>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.DefaultConstructorFinder.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.Activators.Reflection.DefaultConstructorFinder"/> class.
            </summary>
            <remarks>
            Default to selecting all public constructors.
            </remarks>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.DefaultConstructorFinder.#ctor(System.Func{System.Type,System.Reflection.ConstructorInfo[]})">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.Activators.Reflection.DefaultConstructorFinder"/> class.
            </summary>
            <param name="finder">The finder function.</param>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.DefaultConstructorFinder.FindConstructors(System.Type)">
            <summary>
            Finds suitable constructors on the target type.
            </summary>
            <param name="targetType">Type to search for constructors.</param>
            <returns>Suitable constructors.</returns>
        </member>
        <member name="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSourceExtensions">
            <summary>
            Extension methods for configuring the <see cref="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource"/>.
            </summary>
        </member>
        <member name="M:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSourceExtensions.WithRegistrationsAs(Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource,System.Action{Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Builder.ConcreteReflectionActivatorData,Autofac.Builder.SingleRegistrationStyle}})">
            <summary>
            Fluent method for setting the registration configuration on <see cref="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource"/>.
            </summary>
            <param name="source">The registration source to configure.</param>
            <param name="configurationAction">A configuration action that will run on any registration provided by the source.</param>
            <returns>
            The <paramref name="source"/> with the registration configuration set.
            </returns>
        </member>
        <member name="T:Autofac.ModuleRegistrationExtensions">
            <summary>
            Extension methods for registering <see cref="T:Autofac.Core.IModule"/> instances with a container.
            </summary>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterAssemblyModules(Autofac.ContainerBuilder,System.Reflection.Assembly[])">
            <summary>
            Registers modules found in an assembly.
            </summary>
            <param name="builder">The builder to register the modules with.</param>
            <param name="assemblies">The assemblies from which to register modules.</param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterAssemblyModules(Autofac.Core.Registration.IModuleRegistrar,System.Reflection.Assembly[])">
            <summary>
            Registers modules found in an assembly.
            </summary>
            <param name="registrar">The module registrar that will make the registrations into the container.</param>
            <param name="assemblies">The assemblies from which to register modules.</param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registrar"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterAssemblyModules``1(Autofac.ContainerBuilder,System.Reflection.Assembly[])">
            <summary>
            Registers modules found in an assembly.
            </summary>
            <param name="builder">The builder to register the modules with.</param>
            <param name="assemblies">The assemblies from which to register modules.</param>
            <typeparam name="TModule">The type of the module to add.</typeparam>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterAssemblyModules``1(Autofac.Core.Registration.IModuleRegistrar,System.Reflection.Assembly[])">
            <summary>
            Registers modules found in an assembly.
            </summary>
            <param name="registrar">The module registrar that will make the registrations into the container.</param>
            <param name="assemblies">The assemblies from which to register modules.</param>
            <typeparam name="TModule">The type of the module to add.</typeparam>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registrar"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterAssemblyModules(Autofac.ContainerBuilder,System.Type,System.Reflection.Assembly[])">
            <summary>
            Registers modules found in an assembly.
            </summary>
            <param name="builder">The builder to register the modules with.</param>
            <param name="moduleType">The <see cref="T:System.Type"/> of the module to add.</param>
            <param name="assemblies">The assemblies from which to register modules.</param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> or <paramref name="moduleType"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterAssemblyModules(Autofac.Core.Registration.IModuleRegistrar,System.Type,System.Reflection.Assembly[])">
            <summary>
            Registers modules found in an assembly.
            </summary>
            <param name="registrar">The module registrar that will make the registrations into the container.</param>
            <param name="moduleType">The <see cref="T:System.Type"/> of the module to add.</param>
            <param name="assemblies">The assemblies from which to register modules.</param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registrar"/> or <paramref name="moduleType"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterModule``1(Autofac.ContainerBuilder)">
            <summary>
            Add a module to the container.
            </summary>
            <param name="builder">The builder to register the module with.</param>
            <typeparam name="TModule">The module to add.</typeparam>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterModule``1(Autofac.Core.Registration.IModuleRegistrar)">
            <summary>
            Add a module to the container.
            </summary>
            <param name="registrar">The module registrar that will make the registration into the container.</param>
            <typeparam name="TModule">The module to add.</typeparam>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registrar"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="M:Autofac.ModuleRegistrationExtensions.RegisterModule(Autofac.ContainerBuilder,Autofac.Core.IModule)">
            <summary>
            Add a module to the container.
            </summary>
            <param name="builder">The builder to register the module with.</param>
            <param name="module">The module to add.</param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> or <paramref name="module"/> is <see langword="null"/>.
            </exception>
            <returns>
            The <see cref="T:Autofac.Core.Registration.IModuleRegistrar"/> to allow
            additional chained module registrations.
            </returns>
        </member>
        <member name="T:Autofac.ModuleResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.ModuleResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.ModuleResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.ModuleResources.ThisAssemblyUnavailable">
            <summary>
              Looks up a localized string similar to Module.ThisAssembly is only available in modules that inherit directly from Module..
            </summary>
        </member>
        <member name="T:Autofac.Features.LazyDependencies.LazyRegistrationSource">
            <summary>
            Support the <see cref="T:System.Lazy`1"/> 
            type automatically whenever type T is registered with the container.
            When a dependency of a lazy type is used, the instantiation of the underlying
            component will be delayed until the Value property is first accessed.
            </summary>
        </member>
        <member name="T:Autofac.Features.GeneratedFactories.FactoryGenerator">
            <summary>
            Generates context-bound closures that represent factories from
            a set of heuristics based on delegate type signatures.
            </summary>
        </member>
        <member name="M:Autofac.Features.GeneratedFactories.FactoryGenerator.#ctor(System.Type,Autofac.Core.Service,Autofac.Features.GeneratedFactories.ParameterMapping)">
            <summary>
            Create a factory generator.
            </summary>
            <param name="service">The service that will be activated in
            order to create the products of the factory.</param>
            <param name="delegateType">The delegate to provide as a factory.</param>
            <param name="parameterMapping">The parameter mapping mode to use.</param>
        </member>
        <member name="M:Autofac.Features.GeneratedFactories.FactoryGenerator.#ctor(System.Type,Autofac.Core.IComponentRegistration,Autofac.Features.GeneratedFactories.ParameterMapping)">
            <summary>
            Create a factory generator.
            </summary>
            <param name="productRegistration">The component that will be activated in
            order to create the products of the factory.</param>
            <param name="delegateType">The delegate to provide as a factory.</param>
            <param name="parameterMapping">The parameter mapping mode to use.</param>
        </member>
        <member name="M:Autofac.Features.GeneratedFactories.FactoryGenerator.GenerateFactory(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Generates a factory delegate that closes over the provided context.
            </summary>
            <param name="context">The context in which the factory will be used.</param>
            <param name="parameters">Parameters provided to the resolve call for the factory itself.</param>
            <returns>A factory delegate that will work within the context.</returns>
        </member>
        <member name="M:Autofac.Features.GeneratedFactories.FactoryGenerator.GenerateFactory``1(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Generates a factory delegate that closes over the provided context.
            </summary>
            <param name="context">The context in which the factory will be used.</param>
            <param name="parameters">Parameters provided to the resolve call for the factory itself.</param>
            <returns>A factory delegate that will work within the context.</returns>
        </member>
        <member name="T:Autofac.Builder.ConcreteReflectionActivatorData">
            <summary>
            Reflection activator data for concrete types.
            </summary>
        </member>
        <member name="T:Autofac.Builder.ReflectionActivatorData">
            <summary>
            Builder for reflection-based activators.
            </summary>
        </member>
        <member name="M:Autofac.Builder.ReflectionActivatorData.#ctor(System.Type)">
            <summary>
            Specify a reflection activator for the given type.
            </summary>
            <param name="implementer">Type that will be activated.</param>
        </member>
        <member name="P:Autofac.Builder.ReflectionActivatorData.ImplementationType">
            <summary>
            Get the implementation type.
            </summary>
        </member>
        <member name="P:Autofac.Builder.ReflectionActivatorData.ConstructorFinder">
            <summary>
            The constructor finder for the registration.
            </summary>
        </member>
        <member name="P:Autofac.Builder.ReflectionActivatorData.ConstructorSelector">
            <summary>
            The constructor selector for the registration.
            </summary>
        </member>
        <member name="P:Autofac.Builder.ReflectionActivatorData.ConfiguredParameters">
            <summary>
            The explicitly bound constructor parameters.
            </summary>
        </member>
        <member name="P:Autofac.Builder.ReflectionActivatorData.ConfiguredProperties">
            <summary>
            The explicitly bound properties.
            </summary>
        </member>
        <member name="T:Autofac.Builder.IConcreteActivatorData">
            <summary>
            Activator data that can provide an IInstanceActivator instance.
            </summary>
        </member>
        <member name="P:Autofac.Builder.IConcreteActivatorData.Activator">
            <summary>
            The instance activator based on the provided data.
            </summary>
        </member>
        <member name="M:Autofac.Builder.ConcreteReflectionActivatorData.#ctor(System.Type)">
            <summary>
            Specify a reflection activator for the given type.
            </summary>
            <param name="implementer">Type that will be activated.</param>
        </member>
        <member name="P:Autofac.Builder.ConcreteReflectionActivatorData.Activator">
            <summary>
            The instance activator based on the provided data.
            </summary>
        </member>
        <member name="T:Autofac.Builder.ContainerBuildOptions">
            <summary>
            Parameterises the construction of a container by a <see cref="T:Autofac.ContainerBuilder"/>.
            </summary>
        </member>
        <member name="F:Autofac.Builder.ContainerBuildOptions.None">
            <summary>
            No options - the default behavior for container building.
            </summary>
        </member>
        <member name="F:Autofac.Builder.ContainerBuildOptions.ExcludeDefaultModules">
            <summary>
            Prevents inclusion of standard modules like support for
            relationship types including <see cref="T:System.Collections.Generic.IEnumerable`1"/> etc.
            </summary>
        </member>
        <member name="F:Autofac.Builder.ContainerBuildOptions.IgnoreStartableComponents">
            <summary>
            Does not call <see cref="M:Autofac.IStartable.Start"/> on components implementing
            this interface (useful for module testing.)
            </summary>
        </member>
        <member name="T:Autofac.Builder.IRegistrationBuilder`3">
            <summary>
            Data structure used to construct registrations.
            </summary>
            <typeparam name="TLimit">The most specific type to which instances of the registration
            can be cast.</typeparam>
            <typeparam name="TActivatorData">Activator builder type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style type.</typeparam>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.ExternallyOwned">
            <summary>
            Configure the component so that instances are never disposed by the container.
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.OwnedByLifetimeScope">
            <summary>
            Configure the component so that instances that support IDisposable are
            disposed by the container (default.)
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerDependency">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            gets a new, unique instance (default.)
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.SingleInstance">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            gets the same, shared instance.
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerLifetimeScope">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a single ILifetimeScope gets the same, shared instance. Dependent components in
            different lifetime scopes will get different instances.
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerMatchingLifetimeScope(System.Object[])">
            <summary>
            Configure the component so that every dependent component or call to Resolve() within
            a ILifetimeScope tagged with any of the provided tags value gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the tagged scope will
            share the parent's instance. If no appropriately tagged scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <param name="lifetimeScopeTag">Tag applied to matching lifetime scopes.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerOwned``1">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <typeparam name="TService">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerOwned(System.Type)">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <param name="serviceType">Service type.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerOwned``1(System.Object)">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <param name="serviceKey">Key to associate with the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerOwned(System.Object,System.Type)">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <param name="serviceKey">Key to associate with the component.</param>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.As``1">
            <summary>
            Configure the services that the component will provide. The generic parameter(s) to As()
            will be exposed as TypedService instances.
            </summary>
            <typeparam name="TService">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.As``2">
            <summary>
            Configure the services that the component will provide. The generic parameter(s) to As()
            will be exposed as TypedService instances.
            </summary>
            <typeparam name="TService1">Service type.</typeparam>
            <typeparam name="TService2">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.As``3">
            <summary>
            Configure the services that the component will provide. The generic parameter(s) to As()
            will be exposed as TypedService instances.
            </summary>
            <typeparam name="TService1">Service type.</typeparam>
            <typeparam name="TService2">Service type.</typeparam>
            <typeparam name="TService3">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.As(System.Type[])">
            <summary>
            Configure the services that the component will provide.
            </summary>
            <param name="services">Service types to expose.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.As(Autofac.Core.Service[])">
            <summary>
            Configure the services that the component will provide.
            </summary>
            <param name="services">Services to expose.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.Named(System.String,System.Type)">
            <summary>
            Provide a textual name that can be used to retrieve the component.
            </summary>
            <param name="serviceName">Named service to associate with the component.</param>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.Named``1(System.String)">
            <summary>
            Provide a textual name that can be used to retrieve the component.
            </summary>
            <param name="serviceName">Named service to associate with the component.</param>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.Keyed(System.Object,System.Type)">
            <summary>
            Provide a key that can be used to retrieve the component.
            </summary>
            <param name="serviceKey">Key to associate with the component.</param>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.Keyed``1(System.Object)">
            <summary>
            Provide a key that can be used to retrieve the component.
            </summary>
            <param name="serviceKey">Key to associate with the component.</param>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.OnPreparing(System.Action{Autofac.Core.PreparingEventArgs})">
            <summary>
            Add a handler for the Preparing event. This event allows manipulating of the parameters
            that will be provided to the component.
            </summary>
            <param name="handler">The event handler.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.OnActivating(System.Action{Autofac.Core.IActivatingEventArgs{`0}})">
            <summary>
            Add a handler for the Activating event.
            </summary>
            <param name="handler">The event handler.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.OnActivated(System.Action{Autofac.Core.IActivatedEventArgs{`0}})">
            <summary>
            Add a handler for the Activated event.
            </summary>
            <param name="handler">The event handler.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.PropertiesAutowired(Autofac.PropertyWiringOptions)">
            <summary>
            Configure the component so that any properties whose types are registered in the
            container will be wired to instances of the appropriate service.
            </summary>
            <param name="options">Set wiring options such as circular dependency wiring support.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.WithMetadata(System.String,System.Object)">
            <summary>
            Associates data with the component.
            </summary>
            <param name="key">Key by which the data can be located.</param>
            <param name="value">The data value.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.WithMetadata(System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.Object}})">
            <summary>
            Associates data with the component.
            </summary>
            <param name="properties">The extended properties to associate with the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.IRegistrationBuilder`3.WithMetadata``1(System.Action{Autofac.Builder.MetadataConfiguration{``0}})">
            <summary>
            Associates data with the component.
            </summary>
            <typeparam name="TMetadata">A type with properties whose names correspond to the
            property names to configure.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="P:Autofac.Builder.IRegistrationBuilder`3.ActivatorData">
            <summary>
            The activator data.
            </summary>
        </member>
        <member name="P:Autofac.Builder.IRegistrationBuilder`3.RegistrationStyle">
            <summary>
            The registration style.
            </summary>
        </member>
        <member name="P:Autofac.Builder.IRegistrationBuilder`3.RegistrationData">
            <summary>
            The registration data.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.CopyOnWriteRegistry">
            <summary>
            Delegates registration lookups to a specified registry. When write operations are applied,
            initialises a new 'writeable' registry.
            </summary>
            <remarks>
            Safe for concurrent access by multiple readers. Write operations are single-threaded.
            </remarks>
        </member>
        <member name="T:Autofac.Core.IComponentRegistry">
            <summary>
            Provides component registrations according to the services they provide.
            </summary>
        </member>
        <member name="M:Autofac.Core.IComponentRegistry.TryGetRegistration(Autofac.Core.Service,Autofac.Core.IComponentRegistration@)">
            <summary>
            Attempts to find a default registration for the specified service.
            </summary>
            <param name="service">The service to look up.</param>
            <param name="registration">The default registration for the service.</param>
            <returns>True if a registration exists.</returns>
        </member>
        <member name="M:Autofac.Core.IComponentRegistry.IsRegistered(Autofac.Core.Service)">
            <summary>
            Determines whether the specified service is registered.
            </summary>
            <param name="service">The service to test.</param>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.Core.IComponentRegistry.Register(Autofac.Core.IComponentRegistration)">
            <summary>
            Register a component.
            </summary>
            <param name="registration">The component registration.</param>
        </member>
        <member name="M:Autofac.Core.IComponentRegistry.Register(Autofac.Core.IComponentRegistration,System.Boolean)">
            <summary>
            Register a component.
            </summary>
            <param name="registration">The component registration.</param>
            <param name="preserveDefaults">If true, existing defaults for the services provided by the
            component will not be changed.</param>
        </member>
        <member name="M:Autofac.Core.IComponentRegistry.RegistrationsFor(Autofac.Core.Service)">
            <summary>
            Selects from the available registrations after ensuring that any
            dynamic registration sources that may provide <paramref name="service"/>
            have been invoked.
            </summary>
            <param name="service">The service for which registrations are sought.</param>
            <returns>Registrations supporting <paramref name="service"/>.</returns>
        </member>
        <member name="M:Autofac.Core.IComponentRegistry.AddRegistrationSource(Autofac.Core.IRegistrationSource)">
            <summary>
            Add a registration source that will provide registrations on-the-fly.
            </summary>
            <param name="source">The source to register.</param>
        </member>
        <member name="P:Autofac.Core.IComponentRegistry.Registrations">
            <summary>
            Enumerate the registered components.
            </summary>
        </member>
        <member name="E:Autofac.Core.IComponentRegistry.Registered">
            <summary>
            Fired whenever a component is registered - either explicitly or via a
            <see cref="T:Autofac.Core.IRegistrationSource"/>.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistry.Sources">
            <summary>
            Gets the registration sources that are used by the registry.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistry.HasLocalComponents">
            <summary>
            True if the registry contains its own components; false if it is forwarding
            registrations from another external registry.
            </summary>
            <remarks>This property is used when walking up the scope tree looking for
            registrations for a new customised scope. (See issue 336.)</remarks>
        </member>
        <member name="E:Autofac.Core.IComponentRegistry.RegistrationSourceAdded">
            <summary>
            Fired when an <see cref="T:Autofac.Core.IRegistrationSource"/> is added to the registry.
            </summary>
        </member>
        <member name="T:Autofac.Features.Variance.ContravariantRegistrationSource">
            <summary>
            Enables contravariant <code>Resolve()</code> for interfaces that have a single contravariant ('in') parameter.
            </summary>
            <example>
            interface IHandler&lt;in TCommand&gt;
            {
                void Handle(TCommand command);
            }
            
            class Command { }
            
            class DerivedCommand : Command { }
            
            class CommandHandler : IHandler&lt;Command&gt; { ... }
            
            var builder = new ContainerBuilder();
            builder.RegisterSource(new ContravariantRegistrationSource());
            builder.RegisterType&lt;CommandHandler&gt;();
            var container = builder.Build();
            // Source enables this line, even though IHandler&lt;Command&gt; is the
            // actual registered type.
            var handler = container.Resolve&lt;IHandler&lt;DerivedCommand&gt;&gt;();
            handler.Handle(new DerivedCommand());
            </example>
        </member>
        <member name="M:Autofac.Features.Variance.ContravariantRegistrationSource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
            <remarks>
            If the source is queried for service s, and it returns a component that implements both s and s', then it
            will not be queried again for either s or s'. This means that if the source can return other implementations
            of s', it should return these, plus the transitive closure of other components implementing their 
            additional services, along with the implementation of s. It is not an error to return components
            that do not implement <paramref name="service"/>.
            </remarks>
        </member>
        <member name="P:Autofac.Features.Variance.ContravariantRegistrationSource.IsAdapterForIndividualComponents">
            <summary>
            Gets whether the registrations provided by this source are 1:1 adapters on top
            of other components (I.e. like Meta, Func or Owned.)
            </summary>
        </member>
        <member name="T:Autofac.PropertyWiringOptions">
            <summary>
            Options that can be applied when autowiring properties on a component. (Multiple options can
            be specified using bitwise 'or' - e.g. AllowCircularDependencies | PreserveSetValues.
            </summary>
        </member>
        <member name="F:Autofac.PropertyWiringOptions.None">
            <summary>
            Default behavior. Circular dependencies are not allowed; existing non-default
            property values are overwritten.
            </summary>
        </member>
        <member name="F:Autofac.PropertyWiringOptions.AllowCircularDependencies">
            <summary>
            Allows property-property and property-constructor circular dependency wiring.
            This flag moves property wiring from the Activating to the Activated event.
            </summary>
        </member>
        <member name="F:Autofac.PropertyWiringOptions.PreserveSetValues">
            <summary>
            If specified, properties that already have a non-default value will be left
            unchanged in the wiring operation.
            </summary>
        </member>
        <member name="T:Autofac.Builder.RegistrationBuilder">
            <summary>
            Static factory methods to simplify the creation and handling of IRegistrationBuilder{L,A,R}.
            </summary>
            <example>
            To create an <see cref="T:Autofac.Core.IComponentRegistration"/> for a specific type, use:
            <code>
            var cr = RegistrationBuilder.ForType(t).CreateRegistration();
            </code>
            The full builder syntax is supported:
            <code>
            var cr = RegistrationBuilder.ForType(t).Named("foo").ExternallyOwned().CreateRegistration();
            </code>
            </example>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.ForDelegate``1(System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},``0})">
            <summary>
            Creates a registration builder for the provided delegate.
            </summary>
            <typeparam name="T">Instance type returned by delegate.</typeparam>
            <param name="delegate">Delegate to register.</param>
            <returns>A registration builder.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.ForDelegate(System.Type,System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object})">
            <summary>
            Creates a registration builder for the provided delegate.
            </summary>
            <param name="delegate">Delegate to register.</param>
            <param name="limitType">Most specific type return value of delegate can be cast to.</param>
            <returns>A registration builder.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.ForType``1">
            <summary>
            Creates a registration builder for the provided type.
            </summary>
            <typeparam name="TImplementer">Implementation type to register.</typeparam>
            <returns>A registration builder.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.ForType(System.Type)">
            <summary>
            Creates a registration builder for the provided type.
            </summary>
            <param name="implementationType">Implementation type to register.</param>
            <returns>A registration builder.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.CreateRegistration``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Create an <see cref="T:Autofac.Core.IComponentRegistration"/> from a <see cref="T:Autofac.Builder.RegistrationBuilder"/>.
            (There is no need to call
            this method when registering components through a <see cref="T:Autofac.ContainerBuilder"/>.)
            </summary>
            <remarks>
            When called on the result of one of the <see cref="T:Autofac.ContainerBuilder"/> methods,
            the returned registration will be different from the one the builder itself registers
            in the container.
            </remarks>
            <example>
            <code>
            var registration = RegistrationBuilder.ForType&lt;Foo&gt;().CreateRegistration();
            </code>
            </example>
            <typeparam name="TLimit"></typeparam>
            <typeparam name="TActivatorData"></typeparam>
            <typeparam name="TSingleRegistrationStyle"></typeparam>
            <param name="builder">The registration builder.</param>
            <returns>An IComponentRegistration.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="builder"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.CreateRegistration(System.Guid,Autofac.Builder.RegistrationData,Autofac.Core.IInstanceActivator,System.Collections.Generic.IEnumerable{Autofac.Core.Service})">
            <summary>
            Create an IComponentRegistration from data.
            </summary>
            <param name="id">Id of the registration.</param>
            <param name="data">Registration data.</param>
            <param name="activator">Activator.</param>
            <param name="services">Services provided by the registration.</param>
            <returns>An IComponentRegistration.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.CreateRegistration(System.Guid,Autofac.Builder.RegistrationData,Autofac.Core.IInstanceActivator,System.Collections.Generic.IEnumerable{Autofac.Core.Service},Autofac.Core.IComponentRegistration)">
            <summary>
            Create an IComponentRegistration from data.
            </summary>
            <param name="id">Id of the registration.</param>
            <param name="data">Registration data.</param>
            <param name="activator">Activator.</param>
            <param name="services">Services provided by the registration.</param>
            <param name="target">Optional; target registration.</param>
            <returns>An IComponentRegistration.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="activator"/> or <paramref name="data"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder.RegisterSingleComponent``3(Autofac.Core.IComponentRegistry,Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Register a component in the component registry. This helper method is necessary
            in order to execute OnRegistered hooks and respect PreserveDefaults. 
            </summary>
            <remarks>Hoping to refactor this out.</remarks>
            <typeparam name="TLimit"></typeparam>
            <typeparam name="TActivatorData"></typeparam>
            <typeparam name="TSingleRegistrationStyle"></typeparam>
            <param name="cr">Component registry to make registration in.</param>
            <param name="builder">Registration builder with data for new registration.</param>
        </member>
        <member name="T:Autofac.Builder.RegistrationBuilderResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationBuilderResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationBuilderResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationBuilderResources.ComponentDoesNotSupportService">
            <summary>
              Looks up a localized string similar to The type &apos;{0}&apos; is not assignable to service &apos;{1}&apos;..
            </summary>
        </member>
        <member name="T:Autofac.Builder.RegistrationExtensions">
            <summary>
            Adds registration syntax for less commonly-used features.
            </summary>
            <remarks>
            These features are in this namespace because they will remain accessible to
            applications originally written against Autofac 1.4. In Autofac 2, this functionality
            is implicitly provided and thus making explicit registrations is rarely necessary.
            </remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.RegisterGeneratedFactory(Autofac.ContainerBuilder,System.Type)">
            <summary>
            Registers a factory delegate.
            </summary>
            <param name="builder">Container builder.</param>
            <param name="delegateType">Factory type to generate.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Factory delegates are provided automatically in Autofac 2,
            and this method is generally not required.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.RegisterGeneratedFactory(Autofac.ContainerBuilder,System.Type,Autofac.Core.Service)">
            <summary>
            Registers a factory delegate.
            </summary>
            <param name="builder">Container builder.</param>
            <param name="delegateType">Factory type to generate.</param>
            <param name="service">The service that the delegate will return instances of.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Factory delegates are provided automatically in Autofac 2, and
            this method is generally not required.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.RegisterGeneratedFactory``1(Autofac.ContainerBuilder,Autofac.Core.Service)">
            <summary>
            Registers a factory delegate.
            </summary>
            <typeparam name="TDelegate">The type of the delegate.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="service">The service that the delegate will return instances of.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Factory delegates are provided automatically in Autofac 2,
            and this method is generally not required.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.RegisterGeneratedFactory``1(Autofac.ContainerBuilder)">
            <summary>
            Registers a factory delegate.
            </summary>
            <typeparam name="TDelegate">The type of the delegate.</typeparam>
            <param name="builder">Container builder.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Factory delegates are provided automatically in Autofac 2,
            and this method is generally not required.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.NamedParameterMapping``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Changes the parameter mapping mode of the supplied delegate type to match
            parameters by name.
            </summary>
            <typeparam name="TDelegate">Factory delegate type</typeparam>
            <typeparam name="TGeneratedFactoryActivatorData">Activator data type</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style</typeparam>
            <param name="registration">Registration to change parameter mapping mode of.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registration"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.PositionalParameterMapping``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Changes the parameter mapping mode of the supplied delegate type to match
            parameters by position.
            </summary>
            <typeparam name="TDelegate">Factory delegate type</typeparam>
            <typeparam name="TGeneratedFactoryActivatorData">Activator data type</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style</typeparam>
            <param name="registration">Registration to change parameter mapping mode of.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registration"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.TypedParameterMapping``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Changes the parameter mapping mode of the supplied delegate type to match
            parameters by type.
            </summary>
            <typeparam name="TDelegate">Factory delegate type</typeparam>
            <typeparam name="TGeneratedFactoryActivatorData">Activator data type</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style</typeparam>
            <param name="registration">Registration to change parameter mapping mode of.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registration"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.RegisterCollection(Autofac.ContainerBuilder,System.String,System.Type)">
            <summary>
            Registers the type as a collection. If no services or names are specified, the
            default services will be IList&lt;T&gt;, ICollection&lt;T&gt;, and IEnumerable&lt;T&gt;        
            </summary>
            <param name="elementType">The type of the collection elements.</param>
            <param name="builder">Container builder.</param>
            <param name="collectionName">A unique name for the collection that can be passed to MemberOf().</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Collections are provided automatically in Autofac 2,
            and this method is generally not required.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.RegisterCollection``1(Autofac.ContainerBuilder,System.String)">
            <summary>
            Registers the type as a collection. If no services or names are specified, the
            default services will be IList&lt;T&gt;, ICollection&lt;T&gt;, and IEnumerable&lt;T&gt;        
            </summary>
            <typeparam name="T">The type of the collection elements.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="collectionName">A unique name for the collection that can be passed to MemberOf().</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Collections are provided automatically in Autofac 2,
            and this method is generally not required.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationExtensions.MemberOf``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.String)">
            <summary>
            Include the element explicitly in a collection configured using RegisterCollection.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to export.</param>
            <param name="collectionName">The collection name, as passed to RegisterCollection.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="T:Autofac.ContainerBuilderResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.ContainerBuilderResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.ContainerBuilderResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.ContainerBuilderResources.BuildCanOnlyBeCalledOnce">
            <summary>
              Looks up a localized string similar to Build() or Update() can only be called once on a ContainerBuilder..
            </summary>
        </member>
        <member name="P:Autofac.ContainerBuilderResources.ErrorAutoActivating">
            <summary>
              Looks up a localized string similar to An error occurred while attempting to automatically activate registration &apos;{0}&apos;. See the inner exception for information on the source of the failure..
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Delegate.DelegateActivatorResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Delegate.DelegateActivatorResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Delegate.DelegateActivatorResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Delegate.DelegateActivatorResources.NullFromActivationDelegateFor">
            <summary>
              Looks up a localized string similar to A delegate registered to create instances of &apos;{0}&apos; returned null..
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources.BoundConstructor">
            <summary>
              Looks up a localized string similar to Bound constructor &apos;{0}&apos;..
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources.CannotInstantitate">
            <summary>
              Looks up a localized string similar to The binding cannot be instantiated..
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources.ExceptionDuringInstantiation">
            <summary>
              Looks up a localized string similar to An exception was thrown while invoking the constructor &apos;{0}&apos; on type &apos;{1}&apos;..
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBindingResources.NonBindableConstructor">
            <summary>
              Looks up a localized string similar to Cannot resolve parameter &apos;{1}&apos; of constructor &apos;{0}&apos;..
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.DefaultValueParameter">
            <summary>
            Provides parameters that have a default value, set with an optional parameter
            declaration in C# or VB.
            </summary>
        </member>
        <member name="T:Autofac.Core.Parameter">
            <summary>
            Used in order to provide a value to a constructor parameter or property on an instance
            being created by the container.
            </summary>
            <remarks>
            Not all parameters can be applied to all sites.
            </remarks>
        </member>
        <member name="M:Autofac.Core.Parameter.CanSupplyValue(System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Func{System.Object}@)">
            <summary>
            Returns true if the parameter is able to provide a value to a particular site.
            </summary>
            <param name="pi">Constructor, method, or property-mutator parameter.</param>
            <param name="context">The component context in which the value is being provided.</param>
            <param name="valueProvider">If the result is true, the valueProvider parameter will
            be set to a function that will lazily retrieve the parameter value. If the result is false,
            will be set to null.</param>
            <returns>True if a value can be supplied; otherwise, false.</returns>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.DefaultValueParameter.CanSupplyValue(System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Func{System.Object}@)">
            <summary>
            Returns true if the parameter is able to provide a value to a particular site.
            </summary>
            <param name="pi">Constructor, method, or property-mutator parameter.</param>
            <param name="context">The component context in which the value is being provided.</param>
            <param name="valueProvider">If the result is true, the valueProvider parameter will
            be set to a function that will lazily retrieve the parameter value. If the result is false,
            will be set to null.</param>
            <returns>True if a value can be supplied; otherwise, false.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="pi"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="T:Autofac.Core.ContainerResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.ContainerResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.ContainerResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.ContainerResources.SelfRegistrationCannotBeActivated">
            <summary>
              Looks up a localized string similar to The container&apos;s self-registration of context interfaces should never be activated as it is hard-wired into the LifetimeScope class..
            </summary>
        </member>
        <member name="T:Autofac.Core.Diagnostics.IContainerAwareComponent">
            <summary>
            Marks a module as container-aware (for the purposes of attaching to diagnostic events.)
            </summary>
        </member>
        <member name="M:Autofac.Core.Diagnostics.IContainerAwareComponent.SetContainer(Autofac.IContainer)">
            <summary>
            Initialise the module with the container into which it is being registered.
            </summary>
            <param name="container">The container.</param>
        </member>
        <member name="T:Autofac.Core.IActivatedEventArgs`1">
            <summary>
            Fired when the activation process for a new instance is complete.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatedEventArgs`1.Context">
            <summary>
            The context in which the activation occurred.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatedEventArgs`1.Component">
            <summary>
            The component providing the instance.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatedEventArgs`1.Parameters">
            <summary>
            The paramters provided when resolved.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatedEventArgs`1.Instance">
            <summary>
            The instance that will be used to satisfy the request.
            </summary>
        </member>
        <member name="T:Autofac.Core.IActivatingEventArgs`1">
            <summary>
            Fired after the construction of an instance but before that instance
            is shared with any other or any members are invoked on it.
            </summary>
        </member>
        <member name="M:Autofac.Core.IActivatingEventArgs`1.ReplaceInstance(System.Object)">
            <summary>
            The instance can be replaced if needed, e.g. by an interface proxy.
            </summary>
            <param name="instance">The object to use instead of the activated instance.</param>
        </member>
        <member name="P:Autofac.Core.IActivatingEventArgs`1.Context">
            <summary>
            The context in which the activation occurred.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatingEventArgs`1.Component">
            <summary>
            The component providing the instance.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatingEventArgs`1.Instance">
            <summary>
            The instance that will be used to satisfy the request.
            </summary>
        </member>
        <member name="P:Autofac.Core.IActivatingEventArgs`1.Parameters">
            <summary>
            The parameters supplied to the activator.
            </summary>
        </member>
        <member name="T:Autofac.Core.IServiceWithType">
            <summary>
            Interface supported by services that carry type information.
            </summary>
        </member>
        <member name="M:Autofac.Core.IServiceWithType.ChangeType(System.Type)">
            <summary>
            Return a new service of the same kind, but carrying
            <paramref name="newType"/> as the <see cref="P:Autofac.Core.IServiceWithType.ServiceType"/>.
            </summary>
            <param name="newType">The new service type.</param>
            <returns>A new service with the service type.</returns>
        </member>
        <member name="P:Autofac.Core.IServiceWithType.ServiceType">
            <summary>
            Gets the type of the service.
            </summary>
            <value>The type of the service.</value>
        </member>
        <member name="T:Autofac.Core.KeyedService">
            <summary>
            Identifies a service using a key in addition to its type.
            </summary>
        </member>
        <member name="M:Autofac.Core.KeyedService.#ctor(System.Object,System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.KeyedService"/> class.
            </summary>
            <param name="serviceKey">Key of the service.</param>
            <param name="serviceType">Type of the service.</param>
        </member>
        <member name="M:Autofac.Core.KeyedService.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            true if the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>; otherwise, false.
            </returns>
            <exception cref="T:System.NullReferenceException">The <paramref name="obj"/> parameter is null.</exception>
        </member>
        <member name="M:Autofac.Core.KeyedService.GetHashCode">
            <summary>
            Serves as a hash function for a particular type.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="M:Autofac.Core.KeyedService.ChangeType(System.Type)">
            <summary>
            Return a new service of the same kind, but carrying
            <paramref name="newType"/> as the <see cref="P:Autofac.Core.KeyedService.ServiceType"/>.
            </summary>
            <param name="newType">The new service type.</param>
            <returns>A new service with the service type.</returns>
        </member>
        <member name="P:Autofac.Core.KeyedService.ServiceKey">
            <summary>
            Gets or sets the key of the service.
            </summary>
            <value>The key of the service.</value>
        </member>
        <member name="P:Autofac.Core.KeyedService.ServiceType">
            <summary>
            Gets the type of the service.
            </summary>
            <value>The type of the service.</value>
        </member>
        <member name="P:Autofac.Core.KeyedService.Description">
            <summary>
            Gets a human-readable description of the service.
            </summary>
            <value>The description.</value>
        </member>
        <member name="T:Autofac.Core.Lifetime.LifetimeScopeBeginningEventArgs">
            <summary>
            Describes when a lifetime scope is beginning.
            </summary>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScopeBeginningEventArgs.#ctor(Autofac.ILifetimeScope)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Lifetime.LifetimeScopeBeginningEventArgs"/> class.
            </summary>
            <param name="lifetimeScope">The lifetime scope that is beginning.</param>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScopeBeginningEventArgs.LifetimeScope">
            <summary>
            The lifetime scope that is beginning.
            </summary>
        </member>
        <member name="T:Autofac.Core.Lifetime.LifetimeScopeEndingEventArgs">
            <summary>
            Describes when a lifetime scope is ending.
            </summary>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScopeEndingEventArgs.#ctor(Autofac.ILifetimeScope)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Lifetime.LifetimeScopeEndingEventArgs"/> class.
            </summary>
            <param name="lifetimeScope">The lifetime scope that is ending.</param>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScopeEndingEventArgs.LifetimeScope">
            <summary>
            The lifetime scope that is ending.
            </summary>
        </member>
        <member name="T:Autofac.Core.Lifetime.LifetimeScopeResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScopeResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScopeResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScopeResources.ScopeIsDisposed">
            <summary>
              Looks up a localized string similar to Instances cannot be resolved and nested lifetimes cannot be created from this LifetimeScope as it has already been disposed..
            </summary>
        </member>
        <member name="T:Autofac.Core.RegistrationSourceAddedEventArgs">
            <summary>
            Fired when an <see cref="T:Autofac.Core.IRegistrationSource"/> is added to the registry.
            </summary>
        </member>
        <member name="M:Autofac.Core.RegistrationSourceAddedEventArgs.#ctor(Autofac.Core.IComponentRegistry,Autofac.Core.IRegistrationSource)">
            <summary>
            Construct an instance of the <see cref="T:Autofac.Core.RegistrationSourceAddedEventArgs"/> class.
            </summary>
            <param name="componentRegistry">The registry to which the source was added.</param>
            <param name="registrationSource">The source that was added.</param>
            <exception cref="T:System.ArgumentNullException"></exception>
        </member>
        <member name="P:Autofac.Core.RegistrationSourceAddedEventArgs.RegistrationSource">
            <summary>
            The registry to which the source was added.
            </summary>
        </member>
        <member name="P:Autofac.Core.RegistrationSourceAddedEventArgs.ComponentRegistry">
            <summary>
            The source that was added.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.IInstanceLookup">
            <summary>
            Represents the process of finding a component during a resolve operation.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.IInstanceLookup.ComponentRegistration">
            <summary>
            The component for which an instance is to be looked up.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.IInstanceLookup.ActivationScope">
            <summary>
            The scope in which the instance will be looked up.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.IInstanceLookup.Parameters">
            <summary>
            The parameters provided for new instance creation.
            </summary>
        </member>
        <member name="E:Autofac.Core.Resolving.IInstanceLookup.InstanceLookupEnding">
            <summary>
            Raised when the lookup phase of the operation is ending.
            </summary>
        </member>
        <member name="E:Autofac.Core.Resolving.IInstanceLookup.CompletionBeginning">
            <summary>
            Raised when the completion phase of an instance lookup operation begins.
            </summary>
        </member>
        <member name="E:Autofac.Core.Resolving.IInstanceLookup.CompletionEnding">
            <summary>
            Raised when the completion phase of an instance lookup operation ends.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.InstanceLookupCompletionBeginningEventArgs">
            <summary>
            Raised when the completion phase of an instance lookup operation begins.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.InstanceLookupCompletionBeginningEventArgs.#ctor(Autofac.Core.Resolving.IInstanceLookup)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Resolving.InstanceLookupCompletionBeginningEventArgs"/> class.
            </summary>
            <param name="instanceLookup">The instance lookup that is beginning the completion phase.</param>
        </member>
        <member name="P:Autofac.Core.Resolving.InstanceLookupCompletionBeginningEventArgs.InstanceLookup">
            <summary>
            The instance lookup operation that is beginning the completion phase.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.InstanceLookupCompletionEndingEventArgs">
            <summary>
            Raised when the completion phase of an instance lookup operation ends.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.InstanceLookupCompletionEndingEventArgs.#ctor(Autofac.Core.Resolving.IInstanceLookup)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Resolving.InstanceLookupCompletionEndingEventArgs"/> class.
            </summary>
            <param name="instanceLookup">The instance lookup that is ending the completion phase.</param>
        </member>
        <member name="P:Autofac.Core.Resolving.InstanceLookupCompletionEndingEventArgs.InstanceLookup">
            <summary>
            The instance lookup operation that is ending the completion phase.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.InstanceLookupEndingEventArgs">
            <summary>
            Fired when an instance is looked up.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.InstanceLookupEndingEventArgs.#ctor(Autofac.Core.Resolving.IInstanceLookup,System.Boolean)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Resolving.InstanceLookupBeginningEventArgs"/> class.
            </summary>
            <param name="instanceLookup">The instance lookup that is ending.</param>
            <param name="newInstanceActivated">True if a new instance was created as part of the operation.</param>
        </member>
        <member name="P:Autofac.Core.Resolving.InstanceLookupEndingEventArgs.NewInstanceActivated">
            <summary>
            True if a new instance was created as part of the operation.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.InstanceLookupEndingEventArgs.InstanceLookup">
            <summary>
            The instance lookup operation that is ending.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.InstanceLookupBeginningEventArgs">
            <summary>
            Fired when instance lookup is complete.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.InstanceLookupBeginningEventArgs.#ctor(Autofac.Core.Resolving.IInstanceLookup)">
            <param name="instanceLookup">The instance lookup that is ending.</param>
        </member>
        <member name="P:Autofac.Core.Resolving.InstanceLookupBeginningEventArgs.InstanceLookup">
            <summary>
            The instance lookup operation that is beginning.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.ResolveOperationBeginningEventArgs">
            <summary>
            Describes the commencement of a new resolve operation.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.ResolveOperationBeginningEventArgs.#ctor(Autofac.Core.Resolving.IResolveOperation)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Resolving.ResolveOperationBeginningEventArgs"/> class.
            </summary>
            <param name="resolveOperation">The resolve operation that is beginning.</param>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationBeginningEventArgs.ResolveOperation">
            <summary>
            The resolve operation that is beginning.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ComponentRegistrationLifetimeDecorator">
            <summary>
            Wraps a component registration, switching its lifetime.
            </summary>
        </member>
        <member name="T:Autofac.Util.Disposable">
            <summary>
            Base class for disposable objects.
            </summary>
        </member>
        <member name="M:Autofac.Util.Disposable.Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="M:Autofac.Util.Disposable.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="P:Autofac.Util.Disposable.IsDisposed">
            <summary>
            Returns true if the current instance has been disposed; otherwise false;
            </summary>
        </member>
        <member name="T:Autofac.Core.IComponentRegistration">
            <summary>
            Describes a logical component within the container.
            </summary>
        </member>
        <member name="M:Autofac.Core.IComponentRegistration.RaisePreparing(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter}@)">
            <summary>
            Called by the container when an instance is required.
            </summary>
            <param name="context">The context in which the instance will be activated.</param>
            <param name="parameters">Parameters for activation. These may be modified by the event handler.</param>
        </member>
        <member name="M:Autofac.Core.IComponentRegistration.RaiseActivating(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object@)">
            <summary>
            Called by the container once an instance has been constructed.
            </summary>
            <param name="context">The context in which the instance was activated.</param>
            <param name="parameters">The parameters supplied to the activator.</param>
            <param name="instance">The instance.</param>
        </member>
        <member name="M:Autofac.Core.IComponentRegistration.RaiseActivated(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object)">
            <summary>
            Called by the container once an instance has been fully constructed, including
            any requested objects that depend on the instance.
            </summary>
            <param name="context">The context in which the instance was activated.</param>
            <param name="parameters">The parameters supplied to the activator.</param>
            <param name="instance">The instance.</param>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Id">
            <summary>
            A unique identifier for this component (shared in all sub-contexts.)
            This value also appears in Services.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Activator">
            <summary>
            The activator used to create instances.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Lifetime">
            <summary>
            The lifetime associated with the component.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Sharing">
            <summary>
            Whether the component instances are shared or not.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Ownership">
            <summary>
            Whether the instances of the component should be disposed by the container.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Services">
            <summary>
            The services provided by the component.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Metadata">
            <summary>
            Additional data associated with the component.
            </summary>
        </member>
        <member name="P:Autofac.Core.IComponentRegistration.Target">
            <summary>
            The component registration upon which this registration is based.
            </summary>
        </member>
        <member name="E:Autofac.Core.IComponentRegistration.Preparing">
            <summary>
            Fired when a new instance is required. The instance can be
            provided in order to skip the regular activator, by setting the Instance property in
            the provided event arguments.
            </summary>
        </member>
        <member name="E:Autofac.Core.IComponentRegistration.Activating">
            <summary>
            Fired when a new instance is being activated. The instance can be
            wrapped or switched at this time by setting the Instance property in
            the provided event arguments.
            </summary>
        </member>
        <member name="E:Autofac.Core.IComponentRegistration.Activated">
            <summary>
            Fired when the activation process for a new instance is complete.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ComponentRegistrationResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistrationResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistrationResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistrationResources.ToStringFormat">
            <summary>
              Looks up a localized string similar to Activator = {0}, Services = [{1}], Lifetime = {2}, Sharing = {3}, Ownership = {4}.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ExternalRegistrySource">
            <summary>
            Pulls registrations from another component registry.
            Excludes most auto-generated registrations - currently has issues with
            collection registrations.
            </summary>
        </member>
        <member name="M:Autofac.Core.Registration.ExternalRegistrySource.#ctor(Autofac.Core.IComponentRegistry)">
            <summary>
            Create an external registry source that draws components from
            <paramref name="registry"/>.
            </summary>
            <param name="registry">Component registry to pull registrations from.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ExternalRegistrySource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
        </member>
        <member name="P:Autofac.Core.Registration.ExternalRegistrySource.IsAdapterForIndividualComponents">
            <summary>
            In this case because the components that are adapted do not come from the same
            logical scope, we must return false to avoid duplicating them.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ScopeRestrictedRegistry">
            <summary>
            Switches components with a RootScopeLifetime (singletons) with
            decorators exposing MatchingScopeLifetime targeting the specified scope.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ComponentRegistry">
            <summary>
            Maps services onto the components that provide them.
            </summary>
            <remarks>
            The component registry provides services directly from components,
            and also uses <see cref="T:Autofac.Core.IRegistrationSource"/> to generate components
            on-the-fly or as adapters for other components. A component registry
            is normally used through a <see cref="T:Autofac.ContainerBuilder"/>, and not
            directly by application code.
            </remarks>
        </member>
        <member name="F:Autofac.Core.Registration.ComponentRegistry._synchRoot">
            <summary>
            Protects instance variables from concurrent access.
            </summary>
        </member>
        <member name="F:Autofac.Core.Registration.ComponentRegistry._dynamicRegistrationSources">
            <summary>
            External registration sources.
            </summary>
        </member>
        <member name="F:Autofac.Core.Registration.ComponentRegistry._registrations">
            <summary>
            All registrations.
            </summary>
        </member>
        <member name="F:Autofac.Core.Registration.ComponentRegistry._serviceInfo">
            <summary>
            Keeps track of the status of registered services.
            </summary>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.TryGetRegistration(Autofac.Core.Service,Autofac.Core.IComponentRegistration@)">
            <summary>
            Attempts to find a default registration for the specified service.
            </summary>
            <param name="service">The service to look up.</param>
            <param name="registration">The default registration for the service.</param>
            <returns>True if a registration exists.</returns>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.IsRegistered(Autofac.Core.Service)">
            <summary>
            Determines whether the specified service is registered.
            </summary>
            <param name="service">The service to test.</param>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.Register(Autofac.Core.IComponentRegistration)">
            <summary>
            Register a component.
            </summary>
            <param name="registration">The component registration.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.Register(Autofac.Core.IComponentRegistration,System.Boolean)">
            <summary>
            Register a component.
            </summary>
            <param name="registration">The component registration.</param>
            <param name="preserveDefaults">If true, existing defaults for the services provided by the
            component will not be changed.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.RegistrationsFor(Autofac.Core.Service)">
            <summary>
            Selects from the available registrations after ensuring that any
            dynamic registration sources that may provide <paramref name="service"/>
            have been invoked.
            </summary>
            <param name="service">The service for which registrations are sought.</param>
            <returns>Registrations supporting <paramref name="service"/>.</returns>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistry.AddRegistrationSource(Autofac.Core.IRegistrationSource)">
            <summary>
            Add a registration source that will provide registrations on-the-fly.
            </summary>
            <param name="source">The source to register.</param>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistry.Registrations">
            <summary>
            Enumerate the registered components.
            </summary>
        </member>
        <member name="E:Autofac.Core.Registration.ComponentRegistry.Registered">
            <summary>
            Fired whenever a component is registered - either explicitly or via a
            <see cref="T:Autofac.Core.IRegistrationSource"/>.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistry.Sources">
            <summary>
            Gets the registration sources that are used by the registry.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistry.HasLocalComponents">
            <summary>
            True if the registry contains its own components; false if it is forwarding
            registrations from another external registry.
            </summary>
            <remarks>This property is used when walking up the scope tree looking for
            registrations for a new customised scope. (See issue 336.)</remarks>
        </member>
        <member name="E:Autofac.Core.Registration.ComponentRegistry.RegistrationSourceAdded">
            <summary>
            Fired when an <see cref="T:Autofac.Core.IRegistrationSource"/> is added to the registry.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ServiceRegistrationInfo">
            <summary>
            Tracks the services known to the registry.
            </summary>
        </member>
        <member name="F:Autofac.Core.Registration.ServiceRegistrationInfo._sourcesToQuery">
            <summary>
            Used for bookkeeping so that the same source is not queried twice (may be null.)
            </summary>
        </member>
        <member name="M:Autofac.Core.Registration.ServiceRegistrationInfo.#ctor(Autofac.Core.Service)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.Registration.ServiceRegistrationInfo"/> class.
            </summary>
            <param name="service">The tracked service.</param>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfo.IsInitialized">
            <summary>
            The first time a service is requested, initialization (e.g. reading from sources)
            happens. This value will then be set to true. Calling many methods on this type before
            initialisation is an error.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfo.Implementations">
            <summary>
            The known implementations.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfo.IsRegistered">
            <summary>
            True if any implementations are known.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ServiceRegistrationInfoResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfoResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfoResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfoResources.NotDuringInitialization">
            <summary>
              Looks up a localized string similar to The operation is only valid during initialization..
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ServiceRegistrationInfoResources.NotInitialized">
            <summary>
              Looks up a localized string similar to The operation is not valid until the object is initialized..
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.ComponentActivationResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ComponentActivationResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ComponentActivationResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ComponentActivationResources.ActivationAlreadyExecuted">
            <summary>
              Looks up a localized string similar to The activation has already been executed..
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.ResolveOperationEndingEventArgs">
            <summary>
            Describes the commencement of a new resolve operation.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.ResolveOperationEndingEventArgs.#ctor(Autofac.Core.Resolving.IResolveOperation,System.Exception)">
            <summary>
            Create an instance of the <see cref="T:Autofac.Core.Resolving.ResolveOperationBeginningEventArgs"/> class.
            </summary>
            <param name="resolveOperation">The resolve operation that is ending.</param>
            <param name="exception">If included, the exception causing the operation to end; otherwise, null.</param>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationEndingEventArgs.Exception">
            <summary>
            The exception causing the operation to end, or null.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationEndingEventArgs.ResolveOperation">
            <summary>
            The resolve operation that is ending.
            </summary>
        </member>
        <member name="T:Autofac.Core.ServiceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.ServiceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.ServiceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.ServiceResources.MustOverrideEquals">
            <summary>
              Looks up a localized string similar to Subclasses of Autofac.Service must override Object.Equals().
            </summary>
        </member>
        <member name="P:Autofac.Core.ServiceResources.MustOverrideGetHashCode">
            <summary>
              Looks up a localized string similar to Subclasses of Autofac.Service must override Object.GetHashCode().
            </summary>
        </member>
        <member name="T:Autofac.Features.Collections.CollectionRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.Collections.CollectionRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.Collections.CollectionRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.Collections.CollectionRegistrationSourceResources.CollectionRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Collection Support (Arrays and Generic Collection Interfaces).
            </summary>
        </member>
        <member name="T:Autofac.Features.LazyDependencies.LazyRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.LazyDependencies.LazyRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.LazyDependencies.LazyRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.LazyDependencies.LazyRegistrationSourceResources.LazyRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Lazy&lt;T&gt; Support.
            </summary>
        </member>
        <member name="T:Autofac.Features.LightweightAdapters.LightweightAdapterActivatorData">
            <summary>
            Describes the basic requirements for generating a lightweight adapter.
            </summary>
        </member>
        <member name="M:Autofac.Features.LightweightAdapters.LightweightAdapterActivatorData.#ctor(Autofac.Core.Service,System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object,System.Object})">
            <summary>
            Create an instance of <see cref="T:Autofac.Features.LightweightAdapters.LightweightAdapterActivatorData"/>.
            </summary>
            <param name="fromService">The service that will be adapted from.</param>
            <param name="adapter">The adapter function.</param>
        </member>
        <member name="P:Autofac.Features.LightweightAdapters.LightweightAdapterActivatorData.Adapter">
            <summary>
            The adapter function.
            </summary>
        </member>
        <member name="P:Autofac.Features.LightweightAdapters.LightweightAdapterActivatorData.FromService">
            <summary>
            The service to be adapted from.
            </summary>
        </member>
        <member name="T:Autofac.Features.LightweightAdapters.LightweightAdapterRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.LightweightAdapters.LightweightAdapterRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.LightweightAdapters.LightweightAdapterRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.LightweightAdapters.LightweightAdapterRegistrationSourceResources.AdapterFromToDescription">
            <summary>
              Looks up a localized string similar to Lightweight Adapter from {0} to {1}.
            </summary>
        </member>
        <member name="P:Autofac.Features.LightweightAdapters.LightweightAdapterRegistrationSourceResources.FromAndToMustDiffer">
            <summary>
              Looks up a localized string similar to The service {0} cannot be both the adapter&apos;s from and to parameters - these must differ..
            </summary>
        </member>
        <member name="T:Autofac.Features.Collections.CollectionRegistrationExtensions">
            <summary>
            Internal implementation of the RegisterCollection/MemberOf-style collection feature.
            </summary>
        </member>
        <member name="T:Autofac.Builder.DynamicRegistrationStyle">
            <summary>
            Registration style for dynamic registrations.
            </summary>
        </member>
        <member name="T:Autofac.Features.GeneratedFactories.GeneratedFactoryActivatorData">
            <summary>
            Data used to create factory activators.
            </summary>
        </member>
        <member name="M:Autofac.Features.GeneratedFactories.GeneratedFactoryActivatorData.#ctor(System.Type,Autofac.Core.Service)">
            <summary>
            Create a new GeneratedFactoryActivatorData
            </summary>
            <param name="delegateType">The type of the factory.</param>
            <param name="productService">The service used to provide the products of the factory.</param>
        </member>
        <member name="P:Autofac.Features.GeneratedFactories.GeneratedFactoryActivatorData.ParameterMapping">
            <summary>
            Determines how the parameters of the delegate type are passed on
            to the generated Resolve() call as Parameter objects.
            For Func-based delegates, this defaults to ByType. Otherwise, the
            parameters will be mapped by name.
            </summary>
        </member>
        <member name="P:Autofac.Features.GeneratedFactories.GeneratedFactoryActivatorData.Activator">
            <summary>
            Activator data that can provide an IInstanceActivator instance.
            </summary>
        </member>
        <member name="T:Autofac.Builder.IHideObjectMembers">
            <summary>
            Hides standard Object members to make fluent interfaces
            easier to read.
            Based on blog post by @kzu here:
            http://www.clariusconsulting.net/blogs/kzu/archive/2008/03/10/58301.aspx
            </summary>
        </member>
        <member name="M:Autofac.Builder.IHideObjectMembers.GetType">
            <summary>
            Standard System.Object member.
            </summary>
            <returns>Standard result.</returns>
        </member>
        <member name="M:Autofac.Builder.IHideObjectMembers.GetHashCode">
            <summary>
            Standard System.Object member.
            </summary>
            <returns>Standard result.</returns>
        </member>
        <member name="M:Autofac.Builder.IHideObjectMembers.ToString">
            <summary>
            Standard System.Object member.
            </summary>
            <returns>Standard result.</returns>
        </member>
        <member name="M:Autofac.Builder.IHideObjectMembers.Equals(System.Object)">
            <summary>
            Standard System.Object member.
            </summary>
            <param name="other">The other.</param>
            <returns>Standard result.</returns>
        </member>
        <member name="T:Autofac.Features.GeneratedFactories.ParameterMapping">
            <summary>
            Determines how the parameters of the delegate type are passed on
            to the generated Resolve() call as Parameter objects.
            </summary>
        </member>
        <member name="F:Autofac.Features.GeneratedFactories.ParameterMapping.Adaptive">
            <summary>
            Chooses parameter mapping based on the factory type.
            For Func-based factories this is equivalent to ByType, for all
            others ByName will be used.
            </summary>
        </member>
        <member name="F:Autofac.Features.GeneratedFactories.ParameterMapping.ByName">
            <summary>
            Pass the parameters supplied to the delegate through to the
            underlying registration as NamedParameters based on the parameter
            names in the delegate type's formal argument list.
            </summary>
        </member>
        <member name="F:Autofac.Features.GeneratedFactories.ParameterMapping.ByType">
            <summary>
            Pass the parameters supplied to the delegate through to the
            underlying registration as TypedParameters based on the parameter
            types in the delegate type's formal argument list.
            </summary>
        </member>
        <member name="F:Autofac.Features.GeneratedFactories.ParameterMapping.ByPosition">
            <summary>
            Pass the parameters supplied to the delegate through to the
            underlying registration as PositionalParameters based on the parameter
            indices in the delegate type's formal argument list.
            </summary>
        </member>
        <member name="T:Autofac.Features.Indexed.IIndex`2">
            <summary>
            Provides components by lookup operations via an index (key) type.
            </summary>
            <typeparam name="TKey">The type of the index.</typeparam>
            <typeparam name="TValue">The service provided by the indexed components.</typeparam>
            <example>
            Retrieving a value given a key:
            <code>
            IIndex&lt;AccountType, IRenderer&gt; accountRenderers = // ...
            var renderer = accountRenderers[AccountType.User];
            </code>
            </example>
        </member>
        <member name="M:Autofac.Features.Indexed.IIndex`2.TryGetValue(`0,`1@)">
            <summary>
            Get the value associated with <paramref name="key"/> if any is available.
            </summary>
            <param name="key">The key to look up.</param>
            <param name="value">The retrieved value.</param>
            <returns>True if a value associated with the key exists.</returns>
        </member>
        <member name="P:Autofac.Features.Indexed.IIndex`2.Item(`0)">
            <summary>
            Get the value associated with <paramref name="key"/>.
            </summary>
            <param name="key">The value to retrieve.</param>
            <returns>The associated value.</returns>
        </member>
        <member name="M:Autofac.Features.Indexed.KeyedServiceIndex`2.#ctor(Autofac.IComponentContext)">
            <summary></summary>
        </member>
        <member name="M:Autofac.Features.Indexed.KeyedServiceIndex`2.TryGetValue(`0,`1@)">
            <summary></summary>
        </member>
        <member name="P:Autofac.Features.Indexed.KeyedServiceIndex`2.Item(`0)">
            <summary></summary>
        </member>
        <member name="T:Autofac.Features.Metadata.MetaRegistrationSource">
            <summary>
            Support the <see cref="T:Autofac.Features.Metadata.Meta`1"/>
            types automatically whenever type T is registered with the container.
            Metadata values come from the component registration's metadata.
            </summary>
        </member>
        <member name="T:Autofac.Features.Metadata.Meta`1">
            <summary>
            Provides a value along with a dictionary of metadata describing the value.
            </summary>
            <typeparam name="T">The type of the value.</typeparam>
        </member>
        <member name="M:Autofac.Features.Metadata.Meta`1.#ctor(`0,System.Collections.Generic.IDictionary{System.String,System.Object})">
            <summary>
            Create a new instance.
            </summary>
            <param name="value">The value described by the instance.</param>
            <param name="metadata">The metadata describing the value.</param>
        </member>
        <member name="P:Autofac.Features.Metadata.Meta`1.Value">
            <summary>
            The value described by <see cref="P:Autofac.Features.Metadata.Meta`1.Metadata"/>.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.Meta`1.Metadata">
            <summary>
            Metadata describing the value.
            </summary>
        </member>
        <member name="T:Autofac.Features.Metadata.MetaRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetaRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetaRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetaRegistrationSourceResources.MetaRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Meta&lt;T&gt; Support.
            </summary>
        </member>
        <member name="P:Autofac.Features.Metadata.MetaRegistrationSourceResources.StronglyTypedMetaRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Meta&lt;T, TMetadata&gt; Support.
            </summary>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorDataResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorDataResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorDataResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorDataResources.DecoratedServiceIsNotOpenGeneric">
            <summary>
              Looks up a localized string similar to The service &apos;{0}&apos; is not an open generic type..
            </summary>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericRegistrationSourceResources.OpenGenericRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to {0} providing {1}.
            </summary>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorData">
            <summary>
            Describes the activator for an open generic decorator.
            </summary>
        </member>
        <member name="M:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorData.#ctor(System.Type,Autofac.Core.IServiceWithType)">
            <summary>
            Construct an <see cref="T:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorData"/>.
            </summary>
            <param name="implementer">The decorator type.</param>
            <param name="fromService">The open generic service type to decorate.</param>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorActivatorData.FromService">
            <summary>
            The open generic service type to decorate.
            </summary>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericDecoratorRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorRegistrationSourceResources.FromAndToMustDiffer">
            <summary>
              Looks up a localized string similar to The service {0} cannot be both the adapter&apos;s from and to parameters - these must differ..
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericDecoratorRegistrationSourceResources.OpenGenericDecoratorRegistrationSourceImplFromTo">
            <summary>
              Looks up a localized string similar to Open Generic Decorator {0} from {1} to {2}.
            </summary>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericRegistrationExtensionsResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericRegistrationExtensionsResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericRegistrationExtensionsResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericRegistrationExtensionsResources.ImplementorMustBeOpenGenericType">
            <summary>
              Looks up a localized string similar to The type {0} is not an open generic type definition..
            </summary>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.ImplementorDoesntImplementService">
            <summary>
              Looks up a localized string similar to The type &apos;{0}&apos; does not implement the interface &apos;{1}&apos;..
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.ImplementorMustBeOpenGenericTypeDefinition">
            <summary>
              Looks up a localized string similar to The implementation type &apos;{0}&apos; is not an open generic type definition..
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.InterfaceIsNotImplemented">
            <summary>
              Looks up a localized string similar to The implementation type &apos;{0}&apos; does not support the interface &apos;{1}&apos;..
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.ServiceTypeMustBeOpenGenericTypeDefinition">
            <summary>
              Looks up a localized string similar to The service &apos;{0}&apos; is not an open generic type definition..
            </summary>
        </member>
        <member name="P:Autofac.Features.OpenGenerics.OpenGenericServiceBinderResources.TypesAreNotConvertible">
            <summary>
              Looks up a localized string similar to The service &apos;{1}&apos; is not assignable from implementation type &apos;{0}&apos;..
            </summary>
        </member>
        <member name="T:Autofac.Features.OwnedInstances.OwnedInstanceRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.OwnedInstances.OwnedInstanceRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OwnedInstances.OwnedInstanceRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.OwnedInstances.OwnedInstanceRegistrationSourceResources.OwnedInstanceRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Owned&lt;T&gt; Support.
            </summary>
        </member>
        <member name="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource">
            <summary>
            Provides registrations on-the-fly for any concrete type not already registered with
            the container.
            </summary>
        </member>
        <member name="M:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource"/> class.
            </summary>
        </member>
        <member name="M:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource.#ctor(System.Func{System.Type,System.Boolean})">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource"/> class.
            </summary>
            <param name="predicate">A predicate that selects types the source will register.</param>
        </member>
        <member name="M:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
        </member>
        <member name="M:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
            </summary>
            <returns>
            A <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
            </returns>
            <filterpriority>2</filterpriority>
        </member>
        <member name="P:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource.IsAdapterForIndividualComponents">
            <summary>
            Gets whether the registrations provided by this source are 1:1 adapters on top
            of other components (I.e. like Meta, Func or Owned.)
            </summary>
        </member>
        <member name="P:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSource.RegistrationConfiguration">
            <summary>
            Gets or sets an expression used to configure generated registrations.
            </summary>
            <value>
            A <see cref="T:System.Action`1"/> that can be used to modify the behavior
            of registrations that are generated by this source.
            </value>
        </member>
        <member name="T:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.ResolveAnything.AnyConcreteTypeNotAlreadyRegisteredSourceResources.AnyConcreteTypeNotAlreadyRegisteredSourceDescription">
            <summary>
              Looks up a localized string similar to &quot;Resolve Anything&quot; Support.
            </summary>
        </member>
        <member name="T:Autofac.Features.Scanning.ScanningActivatorData">
            <summary>
            Activation data for types located by scanning assemblies.
            </summary>
        </member>
        <member name="M:Autofac.Features.Scanning.ScanningActivatorData.#ctor">
            <summary>
            Create an instance of <see cref="T:Autofac.Features.Scanning.ScanningActivatorData"/>.
            </summary>
        </member>
        <member name="P:Autofac.Features.Scanning.ScanningActivatorData.Filters">
            <summary>
            The filters applied to the types from the scanned assembly.
            </summary>
        </member>
        <member name="P:Autofac.Features.Scanning.ScanningActivatorData.ConfigurationActions">
            <summary>
            Additional actions to be performed on the concrete type registrations.
            </summary>
        </member>
        <member name="P:Autofac.Features.Scanning.ScanningActivatorData.PostScanningCallbacks">
            <summary>
            Actions to be called once the scanning operation is complete.
            </summary>
        </member>
        <member name="T:Autofac.Core.ActivatedEventArgs`1">
            <summary>
            Fired when the activation process for a new instance is complete.
            </summary>
        </member>
        <member name="M:Autofac.Core.ActivatedEventArgs`1.#ctor(Autofac.IComponentContext,Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},`0)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.ActivatedEventArgs`1"/> class.
            </summary>
            <param name="context">The context.</param>
            <param name="component">The component.</param>
            <param name="parameters">The parameters.</param>
            <param name="instance">The instance.</param>
        </member>
        <member name="P:Autofac.Core.ActivatedEventArgs`1.Context">
            <summary>
            The context in which the activation occurred.
            </summary>
        </member>
        <member name="P:Autofac.Core.ActivatedEventArgs`1.Component">
            <summary>
            The component providing the instance.
            </summary>
        </member>
        <member name="P:Autofac.Core.ActivatedEventArgs`1.Parameters">
            <summary>
            The paramters provided when resolved.
            </summary>
        </member>
        <member name="P:Autofac.Core.ActivatedEventArgs`1.Instance">
            <summary>
            The instance that will be used to satisfy the request.
            </summary>
        </member>
        <member name="T:Autofac.Core.ActivatingEventArgs`1">
            <summary>
            Fired after the construction of an instance but before that instance
            is shared with any other or any members are invoked on it.
            </summary>
        </member>
        <member name="M:Autofac.Core.ActivatingEventArgs`1.#ctor(Autofac.IComponentContext,Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},`0)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.ActivatedEventArgs`1"/> class.
            </summary>
            <param name="context">The context.</param>
            <param name="component">The component.</param>
            <param name="parameters">The parameters.</param>
            <param name="instance">The instance.</param>        
        </member>
        <member name="M:Autofac.Core.ActivatingEventArgs`1.ReplaceInstance(System.Object)">
            <summary>
            The instance can be replaced if needed, e.g. by an interface proxy.
            </summary>
            <param name="instance">The object to use instead of the activated instance.</param>
        </member>
        <member name="P:Autofac.Core.ActivatingEventArgs`1.Context">
            <summary>
            The context in which the activation occurred.
            </summary>
        </member>
        <member name="P:Autofac.Core.ActivatingEventArgs`1.Component">
            <summary>
            The component providing the instance.
            </summary>
        </member>
        <member name="P:Autofac.Core.ActivatingEventArgs`1.Instance">
            <summary>
            The instance that will be used to satisfy the request.
            </summary>
            <remarks>
            The instance can be replaced if needed, e.g. by an interface proxy.
            </remarks>
        </member>
        <member name="P:Autofac.Core.ActivatingEventArgs`1.Parameters">
            <summary>
            The parameters supplied to the activator.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Delegate.DelegateActivator">
            <summary>
            Activate instances using a delegate.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.InstanceActivator">
            <summary>
            Base class for instance activators.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.InstanceActivator.#ctor(System.Type)">
            <summary>
            Create an instance activator that will return instances compatible
            with <paramref name="limitType"/>.
            </summary>
            <param name="limitType">Most derived type to which instances can be cast.</param>
        </member>
        <member name="M:Autofac.Core.Activators.InstanceActivator.ToString">
            <summary>
            Gets a string representation of the activator.
            </summary>
            <returns>A string describing the activator.</returns>
        </member>
        <member name="P:Autofac.Core.Activators.InstanceActivator.LimitType">
            <summary>
            The most specific type that the component instances are known to be castable to.
            </summary>
        </member>
        <member name="T:Autofac.Core.IInstanceActivator">
            <summary>
            Activates component instances.
            </summary>
        </member>
        <member name="M:Autofac.Core.IInstanceActivator.ActivateInstance(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Activate an instance in the provided context.
            </summary>
            <param name="context">Context in which to activate instances.</param>
            <param name="parameters">Parameters to the instance.</param>
            <returns>The activated instance.</returns>
            <remarks>
            The context parameter here should probably be ILifetimeScope in order to reveal Disposer,
            but will wait until implementing a concrete use case to make the decision
            </remarks>
        </member>
        <member name="P:Autofac.Core.IInstanceActivator.LimitType">
            <summary>
            The most specific type that the component instances are known to be castable to.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Delegate.DelegateActivator.#ctor(System.Type,System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object})">
            <summary>
            Create a delegate activator.
            </summary>
            <param name="limitType">The most specific type to which activated instances can be cast.</param>
            <param name="activationFunction">Activation delegate.</param>
        </member>
        <member name="M:Autofac.Core.Activators.Delegate.DelegateActivator.ActivateInstance(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Activate an instance in the provided context.
            </summary>
            <param name="context">Context in which to activate instances.</param>
            <param name="parameters">Parameters to the instance.</param>
            <returns>The activated instance.</returns>
            <remarks>
            The context parameter here should probably be ILifetimeScope in order to reveal Disposer,
            but will wait until implementing a concrete use case to make the decision
            </remarks>
        </member>
        <member name="T:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivator">
            <summary>
            Provides a pre-constructed instance.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivator.#ctor(System.Object)">
            <summary>
            Provide the specified instance.
            </summary>
            <param name="instance">The instance to provide.</param>
        </member>
        <member name="M:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivator.ActivateInstance(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Activate an instance in the provided context.
            </summary>
            <param name="context">Context in which to activate instances.</param>
            <param name="parameters">Parameters to the instance.</param>
            <returns>The activated instance.</returns>
            <remarks>
            The context parameter here should probably be ILifetimeScope in order to reveal Disposer,
            but will wait until implementing a concrete use case to make the decision
            </remarks>
        </member>
        <member name="M:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivator.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="P:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivator.DisposeInstance">
            <summary>
            Determines whether the activator disposes the instance that it holds.
            Necessary because otherwise instances that are never resolved will never be
            disposed.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivatorResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivatorResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivatorResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.ProvidedInstance.ProvidedInstanceActivatorResources.InstanceAlreadyActivated">
            <summary>
              Looks up a localized string similar to The provided instance has already been used in an activation request. Did you combine a provided instance with non-root/single-instance lifetime/sharing?.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.AutowiringParameter">
            <summary>
            Supplies values based on the target parameter type.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.AutowiringParameter.CanSupplyValue(System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Func{System.Object}@)">
            <summary>
            Returns true if the parameter is able to provide a value to a particular site.
            </summary>
            <param name="pi">Constructor, method, or property-mutator parameter.</param>
            <param name="context">The component context in which the value is being provided.</param>
            <param name="valueProvider">If the result is true, the valueProvider parameter will
            be set to a function that will lazily retrieve the parameter value. If the result is false,
            will be set to null.</param>
            <returns>True if a value can be supplied; otherwise, false.</returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="pi"/> or <paramref name="context"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.ConstructorParameterBinding">
            <summary>
            Binds a constructor to the parameters that will be used when it is invoked.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.ConstructorParameterBinding.#ctor(System.Reflection.ConstructorInfo,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},Autofac.IComponentContext)">
            <summary>
            Construct a new ConstructorParameterBinding.
            </summary>
            <param name="ci">ConstructorInfo to bind.</param>
            <param name="availableParameters">Available parameters.</param>
            <param name="context">Context in which to construct instance.</param>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.ConstructorParameterBinding.Instantiate">
            <summary>
            Invoke the constructor with the parameter bindings.
            </summary>
            <returns>The constructed instance.</returns>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.ConstructorParameterBinding.ToString">
            <summary>Returns a System.String that represents the current System.Object.</summary>
            <returns>A System.String that represents the current System.Object.</returns>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBinding.TargetConstructor">
            <summary>
            The constructor on the target type. The actual constructor used
            might differ, e.g. if using a dynamic proxy.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBinding.CanInstantiate">
            <summary>
            True if the binding is valid.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ConstructorParameterBinding.Description">
            <summary>
            Describes the constructor parameter binding.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.IConstructorSelector">
            <summary>
            Selects the best constructor from a set of available constructors.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.IConstructorSelector.SelectConstructorBinding(Autofac.Core.Activators.Reflection.ConstructorParameterBinding[])">
            <summary>
            Selects the best constructor from the available constructors.
            </summary>
            <param name="constructorBindings">Available constructors.</param>
            <returns>The best constructor.</returns>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelector">
            <summary>
            Selects a constructor based on its signature.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelector.#ctor(System.Type[])">
            <summary>
            Match constructors with the provided signature.
            </summary>
            <param name="signature">Signature to match.</param>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelector.SelectConstructorBinding(Autofac.Core.Activators.Reflection.ConstructorParameterBinding[])">
            <summary>
            Selects the best constructor from the available constructors.
            </summary>
            <param name="constructorBindings">Available constructors.</param>
            <returns>The best constructor.</returns>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelectorResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelectorResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelectorResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelectorResources.AtLeastOneBindingRequired">
            <summary>
              Looks up a localized string similar to At least one binding must be provided in order to select a constructor..
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelectorResources.RequiredConstructorNotAvailable">
            <summary>
              Looks up a localized string similar to The required constructor on type &apos;{0}&apos;  with signature &apos;{1}&apos; is unavailable..
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.MatchingSignatureConstructorSelectorResources.TooManyConstructorsMatch">
            <summary>
              Looks up a localized string similar to More than one constructor matches the signature &apos;{0}&apos;..
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.MostParametersConstructorSelector">
            <summary>
            Selects the constructor with the most parameters.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.MostParametersConstructorSelector.SelectConstructorBinding(Autofac.Core.Activators.Reflection.ConstructorParameterBinding[])">
            <summary>
            Selects the best constructor from the available constructors.
            </summary>
            <param name="constructorBindings">Available constructors.</param>
            <returns>The best constructor.</returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException">A single unambiguous match could not be chosen.</exception>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.ReflectionActivator">
            <summary>
            Uses reflection to activate instances of a type.
            </summary>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.ReflectionActivator.#ctor(System.Type,Autofac.Core.Activators.Reflection.IConstructorFinder,Autofac.Core.Activators.Reflection.IConstructorSelector,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Create an activator for the provided type.
            </summary>
            <param name="implementationType">Type to activate.</param>
            <param name="constructorFinder">Constructor finder.</param>
            <param name="constructorSelector">Constructor selector.</param>
            <param name="configuredParameters">Parameters configured explicitly for this instance.</param>
            <param name="configuredProperties">Properties configured explicitly for this instance.</param>
        </member>
        <member name="M:Autofac.Core.Activators.Reflection.ReflectionActivator.ActivateInstance(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Activate an instance in the provided context.
            </summary>
            <param name="context">Context in which to activate instances.</param>
            <param name="parameters">Parameters to the instance.</param>
            <returns>The activated instance.</returns>
            <remarks>
            The context parameter here should probably be ILifetimeScope in order to reveal Disposer,
            but will wait until implementing a concrete use case to make the decision
            </remarks>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ReflectionActivator.ConstructorFinder">
            <summary>
            The constructor finder.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ReflectionActivator.ConstructorSelector">
            <summary>
            The constructor selector.
            </summary>
        </member>
        <member name="T:Autofac.Core.Activators.Reflection.ReflectionActivatorResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ReflectionActivatorResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ReflectionActivatorResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ReflectionActivatorResources.NoConstructorsAvailable">
            <summary>
              Looks up a localized string similar to No constructors on type &apos;{0}&apos; can be found with the constructor finder &apos;{1}&apos;..
            </summary>
        </member>
        <member name="P:Autofac.Core.Activators.Reflection.ReflectionActivatorResources.NoConstructorsBindable">
            <summary>
              Looks up a localized string similar to None of the constructors found with &apos;{0}&apos; on type &apos;{1}&apos; can be invoked with the available services and parameters:{2}.
            </summary>
        </member>
        <member name="T:Autofac.Core.ConstantParameter">
            <summary>
            Base class for parameters that provide a constant value.
            </summary>
        </member>
        <member name="M:Autofac.Core.ConstantParameter.#ctor(System.Object,System.Predicate{System.Reflection.ParameterInfo})">
            <summary>
            Create a constant parameter that will apply to parameters matching
            the supplied predicate.
            </summary>
            <param name="value"></param>
            <param name="predicate"></param>
        </member>
        <member name="M:Autofac.Core.ConstantParameter.CanSupplyValue(System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Func{System.Object}@)">
            <summary>
            Returns true if the parameter is able to provide a value to a particular site.
            </summary>
            <param name="pi">Constructor, method, or property-mutator parameter.</param>
            <param name="context">The component context in which the value is being provided.</param>
            <param name="valueProvider">If the result is true, the valueProvider parameter will
            be set to a function that will lazily retrieve the parameter value. If the result is false,
            will be set to null.</param>
            <returns>True if a value can be supplied; otherwise, false.</returns>
        </member>
        <member name="P:Autofac.Core.ConstantParameter.Value">
            <summary>
            The value of the parameter.
            </summary>
        </member>
        <member name="T:Autofac.Core.Container">
            <summary>
            Standard container implementation.
            </summary>
        </member>
        <member name="T:Autofac.IContainer">
            <summary>
            Creates, wires dependencies and manages lifetime for a set of components.
            Most instances of <see cref="T:Autofac.IContainer"/> are created 
            by a <see cref="T:Autofac.ContainerBuilder"/>.
            </summary>
            <example>
            <code>
            // See ContainerBuilder for the definition of the builder variable
            using (var container = builder.Build())
            {
                var program = container.Resolve&lt;Program&gt;();
                program.Run();
            }
            </code>
            </example>
            <remarks>
            Most <see cref="T:Autofac.IContainer"/> functionality is provided by extension methods
            on the inherited <see cref="T:Autofac.IComponentContext"/> interface.
            </remarks>
            <seealso cref="T:Autofac.ILifetimeScope"/>
            <seealso cref="T:Autofac.IComponentContext"/>
            <seealso cref="T:Autofac.ResolutionExtensions"/>
            <seealso cref="T:Autofac.ContainerBuilder"/>
        </member>
        <member name="T:Autofac.ILifetimeScope">
            <summary>
            An <see cref="T:Autofac.ILifetimeScope"/> tracks the instantiation of component instances.
            It defines a boundary in which instances are shared and configured.
            Disposing an <see cref="T:Autofac.ILifetimeScope"/> will dispose the components that were
            resolved through it.
            </summary>
            <example>
            <code>
            // See IContainer for definition of the container variable
            using (var requestScope = container.BeginLifetimeScope())
            {
                // Note that handler is resolved from requestScope, not
                // from the container:
                
                var handler = requestScope.Resolve&lt;IRequestHandler&gt;();
                handler.Handle(request);
                
                // When requestScope is disposed, all resources used in processing
                // the request will be released.
            }
            </code>
            </example>
            <remarks>
            All long-running applications should resolve components via an
            <see cref="T:Autofac.ILifetimeScope"/>. Choosing the duration of the lifetime is application-
            specific. The standard Autofac WCF and ASP.NET/MVC integrations are already configured
            to create and release <see cref="T:Autofac.ILifetimeScope"/>s as appropriate. For example, the
            ASP.NET integration will create and release an <see cref="T:Autofac.ILifetimeScope"/> per HTTP
            request.
            Most <see cref="T:Autofac.ILifetimeScope"/> functionality is provided by extension methods
            on the inherited <see cref="T:Autofac.IComponentContext"/> interface.
            </remarks>
            <seealso cref="T:Autofac.IContainer"/>
            <seealso cref="T:Autofac.IComponentContext"/>
            <seealso cref="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerMatchingLifetimeScope(System.Object[])"/>
            <seealso cref="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerLifetimeScope"/>
            <seealso cref="T:Autofac.Core.InstanceSharing"/>
            <seealso cref="T:Autofac.Core.IComponentLifetime"/>
        </member>
        <member name="T:Autofac.IComponentContext">
            <summary>
            The context in which a service can be accessed or a component's
            dependencies resolved. Disposal of a context will dispose any owned
            components.
            </summary>
        </member>
        <member name="M:Autofac.IComponentContext.ResolveComponent(Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Resolve an instance of the provided registration within the context.
            </summary>
            <param name="registration">The registration.</param>
            <param name="parameters">Parameters for the instance.</param>
            <returns>
            The component instance.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="P:Autofac.IComponentContext.ComponentRegistry">
            <summary>
            Associates services with the components that provide them.
            </summary>
        </member>
        <member name="M:Autofac.ILifetimeScope.BeginLifetimeScope">
            <summary>
            Begin a new nested scope. Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.ILifetimeScope.BeginLifetimeScope(System.Object)">
            <summary>
            Begin a new nested scope. Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.ILifetimeScope.BeginLifetimeScope(System.Action{Autofac.ContainerBuilder})">
            <summary>
            Begin a new nested scope, with additional components available to it.
            Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <remarks>
            The components registered in the sub-scope will be treated as though they were
            registered in the root scope, i.e., SingleInstance() components will live as long
            as the root scope.
            </remarks>
            <param name="configurationAction">Action on a <see cref="T:Autofac.ContainerBuilder"/>
            that adds component registations visible only in the new scope.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.ILifetimeScope.BeginLifetimeScope(System.Object,System.Action{Autofac.ContainerBuilder})">
            <summary>
            Begin a new nested scope, with additional components available to it.
            Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <remarks>
            The components registered in the sub-scope will be treated as though they were
            registered in the root scope, i.e., SingleInstance() components will live as long
            as the root scope.
            </remarks>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <param name="configurationAction">Action on a <see cref="T:Autofac.ContainerBuilder"/>
            that adds component registations visible only in the new scope.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="P:Autofac.ILifetimeScope.Disposer">
            <summary>
            The disposer associated with this <see cref="T:Autofac.ILifetimeScope"/>.
            Component instances can be associated with it manually if required.
            </summary>
            <remarks>Typical usage does not require interaction with this member- it
            is used when extending the container.</remarks>
        </member>
        <member name="P:Autofac.ILifetimeScope.Tag">
            <summary>
            The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.
            </summary>
            <remarks>Tags allow a level in the lifetime hierarchy to be identified.
            In most applications, tags are not necessary.</remarks>
            <seealso cref="M:Autofac.Builder.IRegistrationBuilder`3.InstancePerMatchingLifetimeScope(System.Object[])"/>
        </member>
        <member name="E:Autofac.ILifetimeScope.ChildLifetimeScopeBeginning">
            <summary>
            Fired when a new scope based on the current scope is beginning.
            </summary>
        </member>
        <member name="E:Autofac.ILifetimeScope.CurrentScopeEnding">
            <summary>
            Fired when this scope is ending.
            </summary>
        </member>
        <member name="E:Autofac.ILifetimeScope.ResolveOperationBeginning">
            <summary>
            Fired when a resolve operation is beginning in this scope.
            </summary>
        </member>
        <member name="M:Autofac.Core.Container.#ctor">
            <summary>
            Create a new container.
            </summary>
        </member>
        <member name="M:Autofac.Core.Container.BeginLifetimeScope">
            <summary>
            Begin a new sub-scope. Instances created via the sub-scope
            will be disposed along with it.
            </summary>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.Core.Container.BeginLifetimeScope(System.Object)">
            <summary>
            Begin a new sub-scope. Instances created via the sub-scope
            will be disposed along with it.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.Core.Container.BeginLifetimeScope(System.Action{Autofac.ContainerBuilder})">
            <summary>
            Begin a new nested scope, with additional components available to it.
            Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <param name="configurationAction">Action on a <see cref="T:Autofac.ContainerBuilder"/>
            that adds component registations visible only in the new scope.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.Core.Container.BeginLifetimeScope(System.Object,System.Action{Autofac.ContainerBuilder})">
            <summary>
            Begin a new nested scope, with additional components available to it.
            Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <param name="configurationAction">Action on a <see cref="T:Autofac.ContainerBuilder"/>
            that adds component registations visible only in the new scope.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.Core.Container.ResolveComponent(Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Resolve an instance of the provided registration within the context.
            </summary>
            <param name="registration">The registration.</param>
            <param name="parameters">Parameters for the instance.</param>
            <returns>
            The component instance.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.Core.Container.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="M:Autofac.Core.Container.GetService(System.Type)">
            <summary>
            Gets the service object of the specified type.
            </summary>
            <param name="serviceType">An object that specifies the type of service object 
            to get.</param>
            <returns>
            A service object of type <paramref name="serviceType"/>.-or- null if there is 
            no service object of type <paramref name="serviceType"/>.
            </returns>
        </member>
        <member name="P:Autofac.Core.Container.Disposer">
            <summary>
            The disposer associated with this container. Instances can be associated
            with it manually if required.
            </summary>
        </member>
        <member name="P:Autofac.Core.Container.Tag">
            <summary>
            Tag applied to the lifetime scope.
            </summary>
            <remarks>The tag applied to this scope and the contexts generated when
            it resolves component dependencies.</remarks>
        </member>
        <member name="E:Autofac.Core.Container.ChildLifetimeScopeBeginning">
            <summary>
            Fired when a new scope based on the current scope is beginning.
            </summary>
        </member>
        <member name="E:Autofac.Core.Container.CurrentScopeEnding">
            <summary>
            Fired when this scope is ending.
            </summary>
        </member>
        <member name="E:Autofac.Core.Container.ResolveOperationBeginning">
            <summary>
            Fired when a resolve operation is beginning in this scope.
            </summary>
        </member>
        <member name="P:Autofac.Core.Container.ComponentRegistry">
            <summary>
            Associates services with the components that provide them.
            </summary>
        </member>
        <member name="T:Autofac.Core.DependencyResolutionException">
            <summary>
            Base exception type thrown whenever the dependency resolution process fails. This is a fatal
            exception, as Autofac is unable to 'roll back' changes to components that may have already
            been made during the operation. For example, 'on activated' handlers may have already been
            fired, or 'single instance' components partially constructed.
            </summary>
        </member>
        <member name="M:Autofac.Core.DependencyResolutionException.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.DependencyResolutionException"/> class.
            </summary>
            <param name="message">The message.</param>
        </member>
        <member name="M:Autofac.Core.DependencyResolutionException.#ctor(System.String,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.DependencyResolutionException"/> class.
            </summary>
            <param name="message">The message.</param>
            <param name="innerException">The inner exception.</param>
        </member>
        <member name="P:Autofac.Core.DependencyResolutionException.Message">
            <summary>
            Gets a message that describes the current exception.
            </summary>
            <value>
            The error message that explains the reason for the exception, or an empty string("").
            </value>
        </member>
        <member name="T:Autofac.Core.Disposer">
            <summary>
            Maintains a set of objects to dispose, and disposes them in the reverse order
            from which they were added when the Disposer is itself disposed.
            </summary>
        </member>
        <member name="T:Autofac.Core.IDisposer">
            <summary>
            Provided on an object that will dispose of other objects when it is
            itself disposed.
            </summary>
        </member>
        <member name="M:Autofac.Core.IDisposer.AddInstanceForDisposal(System.IDisposable)">
            <summary>
            Adds an object to the disposer. When the disposer is
            disposed, so will the object be.
            </summary>
            <param name="instance">The instance.</param>
        </member>
        <member name="F:Autofac.Core.Disposer._items">
            <summary>
            Contents all implement IDisposable.
            </summary>
        </member>
        <member name="M:Autofac.Core.Disposer.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="M:Autofac.Core.Disposer.AddInstanceForDisposal(System.IDisposable)">
            <summary>
            Adds an object to the disposer. When the disposer is
            disposed, so will the object be.
            </summary>
            <param name="instance">The instance.</param>
        </member>
        <member name="T:Autofac.Core.IComponentLifetime">
            <summary>
            Locates the lifetime to which instances of a component should be attached.
            </summary>
        </member>
        <member name="M:Autofac.Core.IComponentLifetime.FindScope(Autofac.Core.ISharingLifetimeScope)">
            <summary>
            Given the most nested scope visible within the resolve operation, find
            the scope for the component.
            </summary>
            <param name="mostNestedVisibleScope">The most nested visible scope.</param>
            <returns>The scope for the component.</returns>
        </member>
        <member name="T:Autofac.Core.IModule">
            <summary>
            Represents a set of components and related functionality
            packaged together.
            </summary>
        </member>
        <member name="M:Autofac.Core.IModule.Configure(Autofac.Core.IComponentRegistry)">
            <summary>
            Apply the module to the component registry.
            </summary>
            <param name="componentRegistry">Component registry to apply configuration to.</param>
        </member>
        <member name="T:Autofac.Core.InstanceOwnership">
            <summary>
            Determines when instances supporting IDisposable are disposed.
            </summary>
        </member>
        <member name="F:Autofac.Core.InstanceOwnership.ExternallyOwned">
            <summary>
            The lifetime scope does not dispose the instances.
            </summary>
        </member>
        <member name="F:Autofac.Core.InstanceOwnership.OwnedByLifetimeScope">
            <summary>
            The instances are disposed when the lifetime scope is disposed.
            </summary>
        </member>
        <member name="T:Autofac.Core.InstanceSharing">
            <summary>
            Determines whether instances are shared within a lifetime scope.
            </summary>
        </member>
        <member name="F:Autofac.Core.InstanceSharing.None">
            <summary>
            Each request for an instance will return a new object.
            </summary>
        </member>
        <member name="F:Autofac.Core.InstanceSharing.Shared">
            <summary>
            Each request for an instance will return the same object.
            </summary>
        </member>
        <member name="T:Autofac.Core.ISharingLifetimeScope">
            <summary>
            Defines a nested structure of lifetimes.
            </summary>
        </member>
        <member name="M:Autofac.Core.ISharingLifetimeScope.GetOrCreateAndShare(System.Guid,System.Func{System.Object})">
            <summary>
            Try to retrieve an instance based on a GUID key. If the instance
            does not exist, invoke <paramref name="creator"/> to create it.
            </summary>
            <param name="id">Key to look up.</param>
            <param name="creator">Creation function.</param>
            <returns>An instance.</returns>
        </member>
        <member name="P:Autofac.Core.ISharingLifetimeScope.RootLifetimeScope">
            <summary>
            The root of the sharing hierarchy.
            </summary>
        </member>
        <member name="P:Autofac.Core.ISharingLifetimeScope.ParentLifetimeScope">
            <summary>
            The parent of this node of the hierarchy, or null.
            </summary>
        </member>
        <member name="T:Autofac.Core.Lifetime.CurrentScopeLifetime">
            <summary>
            Attaches the instance's lifetime to the current lifetime scope.
            </summary>
        </member>
        <member name="M:Autofac.Core.Lifetime.CurrentScopeLifetime.FindScope(Autofac.Core.ISharingLifetimeScope)">
            <summary>
            Given the most nested scope visible within the resolve operation, find
            the scope for the component.
            </summary>
            <param name="mostNestedVisibleScope">The most nested visible scope.</param>
            <returns>The scope for the component.</returns>
        </member>
        <member name="T:Autofac.Core.Lifetime.LifetimeScope">
            <summary>
            Lifetime scope implementation.
            </summary>
        </member>
        <member name="F:Autofac.Core.Lifetime.LifetimeScope._synchRoot">
            <summary>
            Protects shared instances from concurrent access. Other members and the base class are threadsafe.
            </summary>
        </member>
        <member name="F:Autofac.Core.Lifetime.LifetimeScope.RootTag">
            <summary>
            The tag applied to root scopes when no other tag is specified.
            </summary>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.#ctor(Autofac.Core.IComponentRegistry,Autofac.Core.Lifetime.LifetimeScope,System.Object)">
            <summary>
            Create a lifetime scope for the provided components and nested beneath a parent.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <param name="componentRegistry">Components used in the scope.</param>
            <param name="parent">Parent scope.</param>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.#ctor(Autofac.Core.IComponentRegistry,System.Object)">
            <summary>
            Create a root lifetime scope for the provided components.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <param name="componentRegistry">Components used in the scope.</param>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.#ctor(Autofac.Core.IComponentRegistry)">
            <summary>
            Create a root lifetime scope for the provided components.
            </summary>
            <param name="componentRegistry">Components used in the scope.</param>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.BeginLifetimeScope">
            <summary>
            Begin a new anonymous sub-scope. Instances created via the sub-scope
            will be disposed along with it.
            </summary>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.BeginLifetimeScope(System.Object)">
            <summary>
            Begin a new tagged sub-scope. Instances created via the sub-scope
            will be disposed along with it.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <returns>A new lifetime scope.</returns>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.BeginLifetimeScope(System.Action{Autofac.ContainerBuilder})">
            <summary>
            Begin a new anonymous sub-scope, with additional components available to it.
            Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <param name="configurationAction">Action on a <see cref="T:Autofac.ContainerBuilder"/>
            that adds component registations visible only in the new scope.</param>
            <returns>A new lifetime scope.</returns>
            <example>
            IContainer cr = // ...
            using (var lifetime = cr.BeginLifetimeScope(builder =&gt; {
                    builder.RegisterType&lt;Foo&gt;();
                    builder.RegisterType&lt;Bar&gt;().As&lt;IBar&gt;(); })
            {
                var foo = lifetime.Resolve&lt;Foo&gt;();
            }
            </example>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.BeginLifetimeScope(System.Object,System.Action{Autofac.ContainerBuilder})">
            <summary>
            Begin a new tagged sub-scope, with additional components available to it.
            Component instances created via the new scope
            will be disposed along with it.
            </summary>
            <param name="tag">The tag applied to the <see cref="T:Autofac.ILifetimeScope"/>.</param>
            <param name="configurationAction">Action on a <see cref="T:Autofac.ContainerBuilder"/>
            that adds component registations visible only in the new scope.</param>
            <returns>A new lifetime scope.</returns>
            <example>
            IContainer cr = // ...
            using (var lifetime = cr.BeginLifetimeScope("unitOfWork", builder =&gt; {
                    builder.RegisterType&lt;Foo&gt;();
                    builder.RegisterType&lt;Bar&gt;().As&lt;IBar&gt;(); })
            {
                var foo = lifetime.Resolve&lt;Foo&gt;();
            }
            </example>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.ResolveComponent(Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Resolve an instance of the provided registration within the context.
            </summary>
            <param name="registration">The registration.</param>
            <param name="parameters">Parameters for the instance.</param>
            <returns>
            The component instance.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.GetOrCreateAndShare(System.Guid,System.Func{System.Object})">
            <summary>
            Try to retrieve an instance based on a GUID key. If the instance
            does not exist, invoke <paramref name="creator"/> to create it.
            </summary>
            <param name="id">Key to look up.</param>
            <param name="creator">Creation function.</param>
            <returns>An instance.</returns>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="M:Autofac.Core.Lifetime.LifetimeScope.GetService(System.Type)">
            <summary>
            Gets the service object of the specified type.
            </summary>
            <param name="serviceType">An object that specifies the type of service object 
            to get.</param>
            <returns>
            A service object of type <paramref name="serviceType"/>.-or- null if there is 
            no service object of type <paramref name="serviceType"/>.
            </returns>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScope.ParentLifetimeScope">
            <summary>
            The parent of this node of the hierarchy, or null.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScope.RootLifetimeScope">
            <summary>
            The root of the sharing hierarchy.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScope.Disposer">
            <summary>
            The disposer associated with this container. Instances can be associated
            with it manually if required.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScope.Tag">
            <summary>
            Tag applied to the lifetime scope.
            </summary>
            <remarks>The tag applied to this scope and the contexts generated when
            it resolves component dependencies.</remarks>
        </member>
        <member name="P:Autofac.Core.Lifetime.LifetimeScope.ComponentRegistry">
            <summary>
            Associates services with the components that provide them.
            </summary>
        </member>
        <member name="E:Autofac.Core.Lifetime.LifetimeScope.ChildLifetimeScopeBeginning">
            <summary>
            Fired when a new scope based on the current scope is beginning.
            </summary>
        </member>
        <member name="E:Autofac.Core.Lifetime.LifetimeScope.CurrentScopeEnding">
            <summary>
            Fired when this scope is ending.
            </summary>
        </member>
        <member name="E:Autofac.Core.Lifetime.LifetimeScope.ResolveOperationBeginning">
            <summary>
            Fired when a resolve operation is beginning in this scope.
            </summary>
        </member>
        <member name="T:Autofac.Core.Lifetime.MatchingScopeLifetime">
            <summary>
            Attaches the component's lifetime to scopes matching a supplied expression.
            </summary>
        </member>
        <member name="M:Autofac.Core.Lifetime.MatchingScopeLifetime.#ctor(System.Object[])">
            <summary>
            Match scopes by comparing tags for equality.
            </summary>
            <param name="lifetimeScopeTagsToMatch">The tags applied to matching scopes.</param>
        </member>
        <member name="M:Autofac.Core.Lifetime.MatchingScopeLifetime.FindScope(Autofac.Core.ISharingLifetimeScope)">
            <summary>
            Given the most nested scope visible within the resolve operation, find
            the scope for the component.
            </summary>
            <param name="mostNestedVisibleScope">The most nested visible scope.</param>
            <returns>The scope for the component.</returns>
        </member>
        <member name="T:Autofac.Core.Lifetime.MatchingScopeLifetimeResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.MatchingScopeLifetimeResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.MatchingScopeLifetimeResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Lifetime.MatchingScopeLifetimeResources.MatchingScopeNotFound">
            <summary>
              Looks up a localized string similar to No scope with a Tag matching &apos;{0}&apos; is visible from the scope in which the instance was requested. This generally indicates that a component registered as per-HTTP request is being requested by a SingleInstance() component (or a similar scenario.) Under the web integration always request dependencies from the DependencyResolver.Current or ILifetimeScopeProvider.RequestLifetime, never from the container itself..
            </summary>
        </member>
        <member name="T:Autofac.Core.Lifetime.RootScopeLifetime">
            <summary>
            Attaches the component's lifetime to the root scope.
            </summary>
        </member>
        <member name="M:Autofac.Core.Lifetime.RootScopeLifetime.FindScope(Autofac.Core.ISharingLifetimeScope)">
            <summary>
            Given the most nested scope visible within the resolve operation, find
            the scope for the component.
            </summary>
            <param name="mostNestedVisibleScope">The most nested visible scope.</param>
            <returns>The scope for the component.</returns>
        </member>
        <member name="T:Autofac.Core.NamedPropertyParameter">
            <summary>
            A property identified by name. When applied to a reflection-based
            component, the name will be matched against property names.
            </summary>
        </member>
        <member name="M:Autofac.Core.NamedPropertyParameter.#ctor(System.String,System.Object)">
            <summary>
            Create a <see cref="T:Autofac.Core.NamedPropertyParameter"/> with the specified constant value.
            </summary>
            <param name="name">The name of the property.</param>
            <param name="value">The property value.</param>
        </member>
        <member name="P:Autofac.Core.NamedPropertyParameter.Name">
            <summary>
            The name of the property.
            </summary>
        </member>
        <member name="T:Autofac.Core.PreparingEventArgs">
            <summary>
            Fired before the activation process to allow parameters to be changed or an alternative
            instance to be provided.
            </summary>
        </member>
        <member name="M:Autofac.Core.PreparingEventArgs.#ctor(Autofac.IComponentContext,Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.PreparingEventArgs"/> class.
            </summary>
            <param name="context">The context.</param>
            <param name="component">The component.</param>
            <param name="parameters">The parameters.</param>
        </member>
        <member name="P:Autofac.Core.PreparingEventArgs.Context">
            <summary>
            The context in which the activation is occurring.
            </summary>
        </member>
        <member name="P:Autofac.Core.PreparingEventArgs.Component">
            <summary>
            The component providing the instance being activated.
            </summary>
        </member>
        <member name="P:Autofac.Core.PreparingEventArgs.Parameters">
            <summary>
            The parameters supplied to the activator.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ComponentNotRegisteredException">
            <summary>
            A service was requested that cannot be provided by the container. To avoid this exception, either register a component
            to provide the required service, check for service registration using IsRegistered(), or use the ResolveOptional()
            method to resolve an optional dependency.
            </summary>
            <remarks>This exception is fatal. See <see cref="T:Autofac.Core.DependencyResolutionException"/> for more information.</remarks>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentNotRegisteredException.#ctor(Autofac.Core.Service)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/> class.
            </summary>
            <param name="service">The service.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentNotRegisteredException.#ctor(Autofac.Core.Service,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/> class.
            </summary>
            <param name="service">The service.</param>
            <param name="innerException">The inner exception.</param>
        </member>
        <member name="T:Autofac.Core.Registration.ComponentNotRegisteredExceptionResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentNotRegisteredExceptionResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentNotRegisteredExceptionResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentNotRegisteredExceptionResources.Message">
            <summary>
              Looks up a localized string similar to The requested service &apos;{0}&apos; has not been registered. To avoid this exception, either register a component to provide the service, check for service registration using IsRegistered(), or use the ResolveOptional() method to resolve an optional dependency..
            </summary>
        </member>
        <member name="T:Autofac.Core.ComponentRegisteredEventArgs">
            <summary>
            Information about the ocurrence of a component being registered
            with a container.
            </summary>
        </member>
        <member name="M:Autofac.Core.ComponentRegisteredEventArgs.#ctor(Autofac.Core.IComponentRegistry,Autofac.Core.IComponentRegistration)">
            <summary>
            Create a new instance with a valid container and component registration.
            </summary>
            <param name="registry">The container into which the registration 
            was made.</param>
            <param name="componentRegistration">The component registration.</param>
        </member>
        <member name="P:Autofac.Core.ComponentRegisteredEventArgs.ComponentRegistry">
            <summary>
            The container into which the registration was made.
            </summary>
        </member>
        <member name="P:Autofac.Core.ComponentRegisteredEventArgs.ComponentRegistration">
            <summary>
            The component registration.
            </summary>
        </member>
        <member name="T:Autofac.Core.Registration.ComponentRegistration">
            <summary>
            Describes a logical component within the container.
            </summary>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.#ctor(System.Guid,Autofac.Core.IInstanceActivator,Autofac.Core.IComponentLifetime,Autofac.Core.InstanceSharing,Autofac.Core.InstanceOwnership,System.Collections.Generic.IEnumerable{Autofac.Core.Service},System.Collections.Generic.IDictionary{System.String,System.Object})">
            <summary>
            Create a new component registration.
            </summary>
            <param name="id">Unique identifier for the component.</param>
            <param name="activator">Activator used to activate instances.</param>
            <param name="lifetime">Determines how the component will be associated with its lifetime.</param>
            <param name="sharing">Whether the component is shared within its lifetime scope.</param>
            <param name="ownership">Whether the component instances are disposed at the end of their lifetimes.</param>
            <param name="services">Services the component provides.</param>
            <param name="metadata">Data associated with the component.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.#ctor(System.Guid,Autofac.Core.IInstanceActivator,Autofac.Core.IComponentLifetime,Autofac.Core.InstanceSharing,Autofac.Core.InstanceOwnership,System.Collections.Generic.IEnumerable{Autofac.Core.Service},System.Collections.Generic.IDictionary{System.String,System.Object},Autofac.Core.IComponentRegistration)">
            <summary>
            Create a new component registration.
            </summary>
            <param name="id">Unique identifier for the component.</param>
            <param name="activator">Activator used to activate instances.</param>
            <param name="lifetime">Determines how the component will be associated with its lifetime.</param>
            <param name="sharing">Whether the component is shared within its lifetime scope.</param>
            <param name="ownership">Whether the component instances are disposed at the end of their lifetimes.</param>
            <param name="services">Services the component provides.</param>
            <param name="metadata">Data associated with the component.</param>
            <param name="target">The component registration upon which this registration is based.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.RaisePreparing(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter}@)">
            <summary>
            Called by the container when an instance is required.
            </summary>
            <param name="context">The context in which the instance will be activated.</param>
            <param name="parameters">Parameters for activation.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.RaiseActivating(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object@)">
            <summary>
            Called by the container once an instance has been constructed.
            </summary>
            <param name="context">The context in which the instance was activated.</param>
            <param name="parameters">The parameters supplied to the activator.</param>
            <param name="instance">The instance.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.RaiseActivated(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object)">
            <summary>
            Called by the container once an instance has been fully constructed, including
            any requested objects that depend on the instance.
            </summary>
            <param name="context">The context in which the instance was activated.</param>
            <param name="parameters">The parameters supplied to the activator.</param>
            <param name="instance">The instance.</param>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.ToString">
            <summary>
            Describes the component in a human-readable form.
            </summary>
            <returns>A description of the component.</returns>
        </member>
        <member name="M:Autofac.Core.Registration.ComponentRegistration.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Target">
            <summary>
            The component registration upon which this registration is based.
            If this registration was created directly by the user, returns this.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Id">
            <summary>
            A unique identifier for this component (shared in all sub-contexts.)
            This value also appears in Services.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Activator">
            <summary>
            The activator used to create instances.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Lifetime">
            <summary>
            The lifetime associated with the component.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Sharing">
            <summary>
            Whether the component instances are shared or not.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Ownership">
            <summary>
            Whether the instances of the component should be disposed by the container.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Services">
            <summary>
            The services provided by the component.
            </summary>
        </member>
        <member name="P:Autofac.Core.Registration.ComponentRegistration.Metadata">
            <summary>
            Additional data associated with the component.
            </summary>
        </member>
        <member name="E:Autofac.Core.Registration.ComponentRegistration.Preparing">
            <summary>
            Fired when a new instance is required. The instance can be
            provided in order to skip the regular activator, by setting the Instance property in
            the provided event arguments.
            </summary>
        </member>
        <member name="E:Autofac.Core.Registration.ComponentRegistration.Activating">
            <summary>
            Fired when a new instance is being activated. The instance can be
            wrapped or switched at this time by setting the Instance property in
            the provided event arguments.
            </summary>
        </member>
        <member name="E:Autofac.Core.Registration.ComponentRegistration.Activated">
            <summary>
            Fired when the activation process for a new instance is complete.
            </summary>
        </member>
        <member name="F:Autofac.Core.Resolving.CircularDependencyDetector.MaxResolveDepth">
            <summary>
            Catch circular dependencies that are triggered by post-resolve processing (e.g. 'OnActivated')
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.CircularDependencyDetectorResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.CircularDependencyDetectorResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.CircularDependencyDetectorResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.CircularDependencyDetectorResources.CircularDependency">
            <summary>
              Looks up a localized string similar to Circular component dependency detected: {0}..
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.CircularDependencyDetectorResources.MaxDepthExceeded">
            <summary>
              Looks up a localized string similar to Probable circular dependency between factory-scoped components. Chain includes &apos;{0}&apos;.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.IResolveOperation">
            <summary>
            An <see cref="T:Autofac.Core.Resolving.IResolveOperation"/> is a component context that sequences and monitors the multiple
            activations that go into producing a single requested object graph.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.IResolveOperation.GetOrCreateInstance(Autofac.Core.ISharingLifetimeScope,Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Get or create and share an instance of <paramref name="registration"/> in the <paramref name="currentOperationScope"/>.
            </summary>
            <param name="currentOperationScope">The scope in the hierarchy in which the operation will begin.</param>
            <param name="registration">The component to resolve.</param>
            <param name="parameters">Parameters for the component.</param>
            <returns>The component instance.</returns>
        </member>
        <member name="E:Autofac.Core.Resolving.IResolveOperation.CurrentOperationEnding">
            <summary>
            Raised when the entire operation is complete.
            </summary>
        </member>
        <member name="E:Autofac.Core.Resolving.IResolveOperation.InstanceLookupBeginning">
            <summary>
            Raised when an instance is looked up within the operation.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.ResolveOperation">
            <summary>
            A <see cref="T:Autofac.Core.Resolving.ResolveOperation"/> is a component context that sequences and monitors the multiple
            activations that go into producing a single requested object graph.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.ResolveOperation.#ctor(Autofac.Core.ISharingLifetimeScope)">
            <summary>
            Create an instance of <see cref="T:Autofac.Core.Resolving.ResolveOperation"/> in the provided scope.
            </summary>
            <param name="mostNestedLifetimeScope">The most nested scope in which to begin the operation. The operation
            can move upward to less nested scopes as components with wider sharing scopes are activated</param>
        </member>
        <member name="M:Autofac.Core.Resolving.ResolveOperation.ResolveComponent(Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Resolve an instance of the provided registration within the context.
            </summary>
            <param name="registration">The registration.</param>
            <param name="parameters">Parameters for the instance.</param>
            <returns>
            The component instance.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.Core.Resolving.ResolveOperation.Execute(Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Execute the complete resolve operation.
            </summary>
        </member>
        <member name="M:Autofac.Core.Resolving.ResolveOperation.GetOrCreateInstance(Autofac.Core.ISharingLifetimeScope,Autofac.Core.IComponentRegistration,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Continue building the object graph by instantiating <paramref name="registration"/> in the
            current <paramref name="currentOperationScope"/>.
            </summary>
            <param name="currentOperationScope">The current scope of the operation.</param>
            <param name="registration">The component to activate.</param>
            <param name="parameters">The parameters for the component.</param>
            <returns>The resolved instance.</returns>
            <exception cref="T:System.ArgumentNullException"/>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperation.ComponentRegistry">
            <summary>
            Associates services with the components that provide them.
            </summary>
        </member>
        <member name="T:Autofac.Core.Resolving.ResolveOperationResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationResources.ExceptionDuringResolve">
            <summary>
              Looks up a localized string similar to An exception was thrown while executing a resolve operation. See the InnerException for details..
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationResources.MaxDepthExceeded">
            <summary>
              Looks up a localized string similar to Probable circular dependency between factory-scoped components. Chain includes &apos;{0}&apos;.
            </summary>
        </member>
        <member name="P:Autofac.Core.Resolving.ResolveOperationResources.TemporaryContextDisposed">
            <summary>
              Looks up a localized string similar to This resolve operation has already ended. When registering components using lambdas, the IComponentContext &apos;c&apos; parameter to the lambda cannot be stored. Instead, either resolve IComponentContext again from &apos;c&apos;, or resolve a Func&lt;&gt; based factory to create subsequent components from..
            </summary>
        </member>
        <member name="T:Autofac.Core.TypedService">
            <summary>
            Identifies a service according to a type to which it can be assigned.
            </summary>
        </member>
        <member name="M:Autofac.Core.TypedService.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.TypedService"/> class.
            </summary>
            <param name="serviceType">Type of the service.</param>
        </member>
        <member name="M:Autofac.Core.TypedService.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            true if the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>; otherwise, false.
            </returns>
            <exception cref="T:System.NullReferenceException">The <paramref name="obj"/> parameter is null.</exception>
        </member>
        <member name="M:Autofac.Core.TypedService.GetHashCode">
            <summary>
            Serves as a hash function for a particular type.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="M:Autofac.Core.TypedService.ChangeType(System.Type)">
            <summary>
            Return a new service of the same kind, but carrying
            <paramref name="newType"/> as the <see cref="P:Autofac.Core.TypedService.ServiceType"/>.
            </summary>
            <param name="newType">The new service type.</param>
            <returns>A new service with the service type.</returns>
        </member>
        <member name="P:Autofac.Core.TypedService.ServiceType">
            <summary>
            Gets the type of the service.
            </summary>
            <value>The type of the service.</value>
        </member>
        <member name="P:Autofac.Core.TypedService.Description">
            <summary>
            Gets a human-readable description of the service.
            </summary>
            <value>The description.</value>
        </member>
        <member name="T:Autofac.Core.UniqueService">
            <summary>
            A handy unique service identifier type - all instances will be regarded as unequal.
            </summary>
        </member>
        <member name="M:Autofac.Core.UniqueService.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.UniqueService"/> class.
            </summary>
        </member>
        <member name="M:Autofac.Core.UniqueService.#ctor(System.Guid)">
            <summary>
            Initializes a new instance of the <see cref="T:Autofac.Core.UniqueService"/> class.
            </summary>
            <param name="id">The id.</param>
        </member>
        <member name="M:Autofac.Core.UniqueService.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            true if the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>; otherwise, false.
            </returns>
            <exception cref="T:System.NullReferenceException">The <paramref name="obj"/> parameter is null.</exception>
        </member>
        <member name="M:Autofac.Core.UniqueService.GetHashCode">
            <summary>
            Serves as a hash function for a particular type.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="P:Autofac.Core.UniqueService.Description">
            <summary>
            Provides a programmer-readable description of the identifying feature of the service.
            </summary>
            <value></value>
        </member>
        <member name="T:Autofac.Features.Collections.CollectionRegistrationSource">
            <summary>
            Registration source providing implicit collection/list/enumerable support.
            </summary>
            <remarks>
            <para>
            This registration source provides enumerable support to allow resolving
            the set of all registered services of a given type.
            </para>
            <para>
            What may not be immediately apparent is that it also means any time there
            are no items of a particular type registered, it will always return an
            empty set rather than <see langword="null" /> or throwing an exception.
            This is by design.
            </para>
            <para>
            Consider the [possibly majority] use case where you're resolving a set
            of message handlers or event handlers from the container. If there aren't
            any handlers, you want an empty set - not <see langword="null" /> or
            an exception. It's valid to have no handlers registered.
            </para>
            <para>
            This implicit support means other areas (like MVC support or manual
            property injection) must take care to only request enumerable values they
            expect to get something back for. In other words, "Don't ask the container
            for something you don't expect to resolve."
            </para>
            </remarks>
        </member>
        <member name="M:Autofac.Features.Collections.CollectionRegistrationSource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
        </member>
        <member name="T:Autofac.Features.OpenGenerics.OpenGenericRegistrationSource">
            <summary>
            Generates activators for open generic types.
            </summary>
        </member>
        <member name="T:Autofac.Features.OwnedInstances.Owned`1">
            <summary>
            Represents a dependency that can be released by the dependent component.
            </summary>
            <typeparam name="T">The service provided by the dependency.</typeparam>
            <remarks>
            <para>
            Autofac automatically provides instances of <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/> whenever the
            service <typeparamref name="T"/> is registered.
            </para>
            <para>
            It is not necessary for <typeparamref name="T"/>, or the underlying component, to implement <see cref="T:System.IDisposable"/>.
            Disposing of the <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/> object is the correct way to handle cleanup of the dependency,
            as this will dispose of any other components created indirectly as well.
            </para>
            <para>
            When <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/> is resolved, a new <see cref="T:Autofac.ILifetimeScope"/> is created for the
            underlying <typeparamref name="T"/>, and tagged with the service matching <typeparamref name="T"/>,
            generally a <see cref="T:Autofac.Core.TypedService"/>. This means that shared instances can be tied to this
            scope by registering them as InstancePerMatchingLifetimeScope(new TypedService(typeof(T))).
            </para>
            </remarks>
            <example>
            The component D below is disposable and implements IService:
            <code>
            public class D : IService, IDisposable
            {
              // ...
            }
            </code>
            The dependent component C can dispose of the D instance whenever required by taking a dependency on
            <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/>:
            <code>
            public class C
            {
              IService _service;
              
              public C(Owned&lt;IService&gt; service)
              {
                _service = service;
              }
              
              void DoWork()
              {
                _service.Value.DoSomething();
              }
              
              void OnFinished()
              {
                _service.Dispose();
              }
            }
            </code>
            In general, rather than depending on <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/> directly, components will depend on
            System.Func&lt;Owned&lt;T&gt;&gt; in order to create and dispose of other components as required.
            </example>
        </member>
        <member name="M:Autofac.Features.OwnedInstances.Owned`1.#ctor(`0,System.IDisposable)">
            <summary>
            Create an instance of <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/>.
            </summary>
            <param name="value">The value representing the instance.</param>
            <param name="lifetime">An IDisposable interface through which ownership can be released.</param>
        </member>
        <member name="M:Autofac.Features.OwnedInstances.Owned`1.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="P:Autofac.Features.OwnedInstances.Owned`1.Value">
            <summary>
            The owned value.
            </summary>
        </member>
        <member name="T:Autofac.Features.OwnedInstances.OwnedInstanceRegistrationSource">
            <summary>
            Generates registrations for services of type <see cref="T:Autofac.Features.OwnedInstances.Owned`1"/> whenever the service
            T is available.
            </summary>
        </member>
        <member name="M:Autofac.Features.OwnedInstances.OwnedInstanceRegistrationSource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
        </member>
        <member name="T:Autofac.IStartable">
            <summary>
            When implemented by a component, an instance of the component will be resolved
            and started as soon as the container is built. Autofac will not call the Start()
            method when subsequent instances are resolved. If this behavior is required, use
            an <code>OnActivated()</code> event handler instead.
            </summary>
            <remarks>
            For equivalent "Stop" functionality, implement <see cref="T:System.IDisposable"/>. Autofac
            will always dispose a component before any of its dependencies (except in the presence
            of circular dependencies, in which case the components in the cycle are disposed in
            reverse-construction order.)
            </remarks>
        </member>
        <member name="M:Autofac.IStartable.Start">
            <summary>
            Perform once-off startup processing.
            </summary>
        </member>
        <member name="T:Autofac.Module">
            <summary>
            Base class for user-defined modules. Modules can add a set of releated components
            to a container (<see cref="M:Autofac.Module.Load(Autofac.ContainerBuilder)"/>) or attach cross-cutting functionality
            to other components (<see cref="M:Autofac.Module.AttachToComponentRegistration(Autofac.Core.IComponentRegistry,Autofac.Core.IComponentRegistration)"/>.
            Modules are given special support in the XML configuration feature - see
            http://code.google.com/p/autofac/wiki/StructuringWithModules.
            </summary>
            <remarks>Provides a user-friendly way to implement <see cref="T:Autofac.Core.IModule"/>
            via <see cref="T:Autofac.ContainerBuilder"/>.</remarks>
            <example>
            Defining a module:
            <code>
            public class DataAccessModule : Module
            {
                public string ConnectionString { get; set; }
                
                public override void Load(ContainerBuilder moduleBuilder)
                {
                    moduleBuilder.RegisterGeneric(typeof(MyRepository&lt;&gt;))
                        .As(typeof(IRepository&lt;&gt;))
                        .InstancePerMatchingLifetimeScope(WebLifetime.Request);
                    
                    moduleBuilder.Register(c =&gt; new MyDbConnection(ConnectionString))
                        .As&lt;IDbConnection&gt;()
                        .InstancePerMatchingLifetimeScope(WebLifetime.Request);
                }
            }
            </code>
            Using the module:
            <code>
            var builder = new ContainerBuilder();
            builder.RegisterModule(new DataAccessModule { ConnectionString = "..." });
            var container = builder.Build();
            var customers = container.Resolve&lt;IRepository&lt;Customer&gt;&gt;();
            </code>
            </example>
        </member>
        <member name="M:Autofac.Module.Configure(Autofac.Core.IComponentRegistry)">
            <summary>
            Apply the module to the component registry.
            </summary>
            <param name="componentRegistry">Component registry to apply configuration to.</param>
        </member>
        <member name="M:Autofac.Module.Load(Autofac.ContainerBuilder)">
            <summary>
            Override to add registrations to the container.
            </summary>
            <remarks>
            Note that the ContainerBuilder parameter is unique to this module.
            </remarks>
            <param name="builder">The builder through which components can be
            registered.</param>
        </member>
        <member name="M:Autofac.Module.AttachToComponentRegistration(Autofac.Core.IComponentRegistry,Autofac.Core.IComponentRegistration)">
            <summary>
            Override to attach module-specific functionality to a
            component registration.
            </summary>
            <remarks>This method will be called for all existing <i>and future</i> component
            registrations - ordering is not important.</remarks>
            <param name="componentRegistry">The component registry.</param>
            <param name="registration">The registration to attach functionality to.</param>
        </member>
        <member name="M:Autofac.Module.AttachToRegistrationSource(Autofac.Core.IComponentRegistry,Autofac.Core.IRegistrationSource)">
            <summary>
            Override to perform module-specific processing on a registration source.
            </summary>
            <remarks>This method will be called for all existing <i>and future</i> sources
            - ordering is not important.</remarks>
            <param name="componentRegistry">The component registry into which the source was added.</param>
            <param name="registrationSource">The registration source.</param>
        </member>
        <member name="P:Autofac.Module.ThisAssembly">
            <summary>
            The assembly in which the concrete module type is located. To avoid bugs whereby deriving from a module will
            change the target assembly, this property can only be used by modules that inherit directly from
            <see cref="T:Autofac.Module"/>.
            </summary>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.ExternallyOwned">
            <summary>
            Configure the component so that instances are never disposed by the container.
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.OwnedByLifetimeScope">
            <summary>
            Configure the component so that instances that support IDisposable are
            disposed by the container (default.)
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerDependency">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            gets a new, unique instance (default.)
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.SingleInstance">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            gets the same, shared instance.
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerLifetimeScope">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a single ILifetimeScope gets the same, shared instance. Dependent components in
            different lifetime scopes will get different instances.
            </summary>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerMatchingLifetimeScope(System.Object[])">
            <summary>
            Configure the component so that every dependent component or call to Resolve() within
            a ILifetimeScope tagged with any of the provided tags value gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the tagged scope will
            share the parent's instance. If no appropriately tagged scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <param name="lifetimeScopeTag">Tag applied to matching lifetime scopes.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerOwned``1">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerOwned(System.Type)">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerOwned``1(System.Object)">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <param name="serviceKey">Key to associate with the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.InstancePerOwned(System.Object,System.Type)">
            <summary>
            Configure the component so that every dependent component or call to Resolve()
            within a ILifetimeScope created by an owned instance gets the same, shared instance.
            Dependent components in lifetime scopes that are children of the owned instance scope will
            share the parent's instance. If no appropriate owned instance scope can be found in the
            hierarchy an <see cref="T:Autofac.Core.DependencyResolutionException"/> is thrown.
            </summary>
            <param name="serviceKey">Key to associate with the component.</param>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.As``1">
            <summary>
            Configure the services that the component will provide. The generic parameter(s) to As()
            will be exposed as TypedService instances.
            </summary>
            <typeparam name="TService">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.As``2">
            <summary>
            Configure the services that the component will provide. The generic parameter(s) to As()
            will be exposed as TypedService instances.
            </summary>
            <typeparam name="TService1">Service type.</typeparam>
            <typeparam name="TService2">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.As``3">
            <summary>
            Configure the services that the component will provide. The generic parameter(s) to As()
            will be exposed as TypedService instances.
            </summary>
            <typeparam name="TService1">Service type.</typeparam>
            <typeparam name="TService2">Service type.</typeparam>
            <typeparam name="TService3">Service type.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.As(System.Type[])">
            <summary>
            Configure the services that the component will provide.
            </summary>
            <param name="services">Service types to expose.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.As(Autofac.Core.Service[])">
            <summary>
            Configure the services that the component will provide.
            </summary>
            <param name="services">Services to expose.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.Named(System.String,System.Type)">
            <summary>
            Provide a textual name that can be used to retrieve the component.
            </summary>
            <param name="serviceName">Named service to associate with the component.</param>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.Named``1(System.String)">
            <summary>
            Provide a textual name that can be used to retrieve the component.
            </summary>
            <param name="serviceName">Named service to associate with the component.</param>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.Keyed(System.Object,System.Type)">
            <summary>
            Provide a key that can be used to retrieve the component.
            </summary>
            <param name="serviceKey">Key to associate with the component.</param>
            <param name="serviceType">The service type provided by the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.Keyed``1(System.Object)">
            <summary>
            Provide a key that can be used to retrieve the component.
            </summary>
            <param name="serviceKey">Key to associate with the component.</param>
            <typeparam name="TService">The service type provided by the component.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.OnPreparing(System.Action{Autofac.Core.PreparingEventArgs})">
            <summary>
            Add a handler for the Preparing event. This event allows manipulating of the parameters
            that will be provided to the component.
            </summary>
            <param name="handler">The event handler.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.OnActivating(System.Action{Autofac.Core.IActivatingEventArgs{`0}})">
            <summary>
            Add a handler for the Activating event.
            </summary>
            <param name="handler">The event handler.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.OnActivated(System.Action{Autofac.Core.IActivatedEventArgs{`0}})">
            <summary>
            Add a handler for the Activated event.
            </summary>
            <param name="handler">The event handler.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.PropertiesAutowired(Autofac.PropertyWiringOptions)">
            <summary>
            Configure the component so that any properties whose types are registered in the
            container will be wired to instances of the appropriate service.
            </summary>
            <param name="wiringFlags">Set wiring options such as circular dependency wiring support.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.WithMetadata(System.String,System.Object)">
            <summary>
            Associates data with the component.
            </summary>
            <param name="key">Key by which the data can be located.</param>
            <param name="value">The data value.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.WithMetadata(System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.Object}})">
            <summary>
            Associates data with the component.
            </summary>
            <param name="properties">The extended properties to associate with the component.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.Builder.RegistrationBuilder`3.WithMetadata``1(System.Action{Autofac.Builder.MetadataConfiguration{``0}})">
            <summary>
            Associates data with the component.
            </summary>
            <typeparam name="TMetadata">A type with properties whose names correspond to the
            property names to configure.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="P:Autofac.Builder.RegistrationBuilder`3.ActivatorData">
            <summary>
            The activator data.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationBuilder`3.RegistrationStyle">
            <summary>
            The registration style.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationBuilder`3.RegistrationData">
            <summary>
            The registration data.
            </summary>
        </member>
        <member name="T:Autofac.Builder.RegistrationData">
            <summary>
            Data common to all registrations made in the container, both direct (IComponentRegistration)
            and dynamic (IRegistrationSource.)
            </summary>
        </member>
        <member name="M:Autofac.Builder.RegistrationData.#ctor(Autofac.Core.Service)">
            <summary>
            Construct a RegistrationData instance.
            </summary>
            <param name="defaultService">The default service that will be used if no others
            are added.</param>
        </member>
        <member name="M:Autofac.Builder.RegistrationData.AddServices(System.Collections.Generic.IEnumerable{Autofac.Core.Service})">
            <summary>
            Add multiple services for the registration, overriding the default.
            </summary>
            <param name="services">The services to add.</param>
            <remarks>If an empty collection is specified, this will still
            clear the default service.</remarks>
        </member>
        <member name="M:Autofac.Builder.RegistrationData.AddService(Autofac.Core.Service)">
            <summary>
            Add a service to the registration, overriding the default.
            </summary>
            <param name="service">The service to add.</param>
        </member>
        <member name="M:Autofac.Builder.RegistrationData.CopyFrom(Autofac.Builder.RegistrationData,System.Boolean)">
            <summary>
            Copies the contents of another RegistrationData object into this one.
            </summary>
            <param name="that">The data to copy.</param>
            <param name="includeDefaultService">When true, the default service
            will be changed to that of the other.</param>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="that"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.Builder.RegistrationData.ClearServices">
            <summary>
            Empties the configured services.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.Services">
            <summary>
            The services explicitly assigned to the component.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.Ownership">
            <summary>
            The instance ownership assigned to the component.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.Lifetime">
            <summary>
            The lifetime assigned to the component.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.Sharing">
            <summary>
            The sharing mode assigned to the component.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.Metadata">
            <summary>
            Extended properties assigned to the component.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.PreparingHandlers">
            <summary>
            Handlers for the Preparing event.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.ActivatingHandlers">
            <summary>
            Handlers for the Activating event.
            </summary>
        </member>
        <member name="P:Autofac.Builder.RegistrationData.ActivatedHandlers">
            <summary>
            Handlers for the Activated event.
            </summary>
        </member>
        <member name="T:Autofac.RegistrationExtensions">
            <summary>
            Adds registration syntax to the <see cref="T:Autofac.ContainerBuilder"/> type.
            </summary>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterComponent(Autofac.ContainerBuilder,Autofac.Core.IComponentRegistration)">
            <summary>
            Add a component to the container.
            </summary>
            <param name="builder">The builder to register the component with.</param>
            <param name="registration">The component to add.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterSource(Autofac.ContainerBuilder,Autofac.Core.IRegistrationSource)">
            <summary>
            Add a registration source to the container.
            </summary>
            <param name="builder">The builder to register the registration source via.</param>
            <param name="registrationSource">The registration source to add.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterInstance``1(Autofac.ContainerBuilder,``0)">
            <summary>
            Register an instance as a component.
            </summary>
            <typeparam name="T">The type of the instance.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="instance">The instance to register.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>If no services are explicitly specified for the instance, the
            static type <typeparamref name="T"/> will be used as the default service (i.e. *not* <code>instance.GetType()</code>).</remarks>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterType``1(Autofac.ContainerBuilder)">
            <summary>
            Register a component to be created through reflection.
            </summary>
            <typeparam name="TImplementer">The type of the component implementation.</typeparam>
            <param name="builder">Container builder.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterType(Autofac.ContainerBuilder,System.Type)">
            <summary>
            Register a component to be created through reflection.
            </summary>
            <param name="implementationType">The type of the component implementation.</param>
            <param name="builder">Container builder.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Register``1(Autofac.ContainerBuilder,System.Func{Autofac.IComponentContext,``0})">
            <summary>
            Register a delegate as a component.
            </summary>
            <typeparam name="T">The type of the instance.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="delegate">The delegate to register.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Register``1(Autofac.ContainerBuilder,System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},``0})">
            <summary>
            Register a delegate as a component.
            </summary>
            <typeparam name="T">The type of the instance.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="delegate">The delegate to register.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterGeneric(Autofac.ContainerBuilder,System.Type)">
            <summary>
            Register an un-parameterised generic type, e.g. Repository&lt;&gt;.
            Concrete types will be made as they are requested, e.g. with Resolve&lt;Repository&lt;int&gt;&gt;().
            </summary>
            <param name="builder">Container builder.</param>
            <param name="implementer">The open generic implementation type.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.PreserveExistingDefaults``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Specifies that the component being registered should only be made the default for services
            that have not already been registered.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.PreserveExistingDefaults``2(Autofac.Builder.IRegistrationBuilder{``0,Autofac.Features.Scanning.ScanningActivatorData,``1})">
            <summary>
            Specifies that the components being registered should only be made the default for services
            that have not already been registered.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterAssemblyTypes(Autofac.ContainerBuilder,System.Reflection.Assembly[])">
            <summary>
            Register the types in an assembly.
            </summary>
            <param name="builder">Container builder.</param>
            <param name="assemblies">The assemblies from which to register types.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterTypes(Autofac.ContainerBuilder,System.Type[])">
            <summary>
            Register the types in a list.
            </summary>
            <param name="builder">Container builder.</param>
            <param name="types">The types to register.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Where``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Boolean})">
            <summary>
            Specifies a subset of types to register from a scanned assembly.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to filter types from.</param>
            <param name="predicate">Predicate that returns true for types to register.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.As``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Collections.Generic.IEnumerable{Autofac.Core.Service}})">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="serviceMapping">Function mapping types to services.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.As``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,Autofac.Core.Service})">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="serviceMapping">Function mapping types to services.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.As``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Type})">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="serviceMapping">Function mapping types to services.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.As``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Collections.Generic.IEnumerable{System.Type}})">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="serviceMapping">Function mapping types to services.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsSelf``1(Autofac.Builder.IRegistrationBuilder{``0,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Specifies that a type from a scanned assembly provides its own concrete type as a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsSelf``2(Autofac.Builder.IRegistrationBuilder{``0,``1,Autofac.Builder.SingleRegistrationStyle})">
            <summary>
            Specifies that a type provides its own concrete type as a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TConcreteActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsSelf``1(Autofac.Builder.IRegistrationBuilder{``0,Autofac.Builder.ReflectionActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Specifies that a type provides its own concrete type as a service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithMetadata``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.Object}}})">
            <summary>
            Specify how a type from a scanned assembly provides metadata.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set metadata on.</param>
            <param name="metadataMapping">A function mapping the type to a list of metadata items.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithMetadataFrom``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Use the properties of an attribute (or interface implemented by an attribute) on the scanned type
            to provide metadata values.
            </summary>
            <remarks>Inherited attributes are supported; however, there must be at most one matching attribute
            in the inheritance chain.</remarks>
            <typeparam name="TAttribute">The attribute applied to the scanned type.</typeparam>
            <param name="registration">Registration to set metadata on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithMetadata``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.String,System.Func{System.Type,System.Object})">
            <summary>
            Specify how a type from a scanned assembly provides metadata.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="metadataKey">Key of the metadata item.</param>
            <param name="metadataValueMapping">A function retrieving the value of the item from the component type.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Named``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle},System.Func{System.Type,System.String})">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a named service.
            </summary>
            <param name="registration">Registration to set service mapping on.</param>
            <typeparam name="TService">Service type provided by the component.</typeparam>
            <param name="serviceNameMapping">Function mapping types to service names.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Named``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.String},System.Type)">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a named service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="serviceType">Service type provided by the component.</param>
            <param name="serviceNameMapping">Function mapping types to service names.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Keyed``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle},System.Func{System.Type,System.Object})">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a keyed service.
            </summary>
            <param name="registration">Registration to set service mapping on.</param>
            <typeparam name="TService">Service type provided by the component.</typeparam>
            <param name="serviceKeyMapping">Function mapping types to service keys.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Keyed``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Object},System.Type)">
            <summary>
            Specifies how a type from a scanned assembly is mapped to a keyed service.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="serviceType">Service type provided by the component.</param>
            <param name="serviceKeyMapping">Function mapping types to service keys.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsImplementedInterfaces``1(Autofac.Builder.IRegistrationBuilder{``0,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Specifies that a type from a scanned assembly is registered as providing all of its
            implemented interfaces.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsImplementedInterfaces``2(Autofac.Builder.IRegistrationBuilder{``0,``1,Autofac.Builder.SingleRegistrationStyle})">
            <summary>
            Specifies that a type is registered as providing all of its implemented interfaces.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TConcreteActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsImplementedInterfaces``1(Autofac.Builder.IRegistrationBuilder{``0,Autofac.Builder.ReflectionActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Specifies that a type is registered as providing all of its implemented interfaces.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.FindConstructorsWith``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},Autofac.Core.Activators.Reflection.IConstructorFinder)">
            <summary>
            Set the policy used to find candidate constructors on the implementation type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <param name="registration">Registration to set policy on.</param>
            <param name="constructorFinder">Policy to be used when searching for constructors.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.FindConstructorsWith``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Type,System.Reflection.ConstructorInfo[]})">
            <summary>
            Set the policy used to find candidate constructors on the implementation type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <param name="registration">Registration to set policy on.</param>
            <param name="finder">A function that returns the constructors to select from.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.UsingConstructor``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Type[])">
            <summary>
            Set the policy used to select from available constructors on the implementation type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <param name="registration">Registration to set policy on.</param>
            <param name="signature">Constructor signature to match.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.UsingConstructor``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},Autofac.Core.Activators.Reflection.IConstructorSelector)">
            <summary>
            Set the policy used to select from available constructors on the implementation type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set policy on.</param>
            <param name="constructorSelector">Policy to be used when selecting a constructor.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.UsingConstructor``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Linq.Expressions.Expression{System.Func{``0}})">
            <summary>
            Set the policy used to select from available constructors on the implementation type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <param name="registration">Registration to set policy on.</param>
            <param name="constructorSelector">Expression demonstrating how the constructor is called.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithParameter``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.String,System.Object)">
            <summary>
            Configure an explicit value for a constructor parameter.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set parameter on.</param>
            <param name="parameterName">Name of a constructor parameter on the target type.</param>
            <param name="parameterValue">Value to supply to the parameter.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithParameter``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},Autofac.Core.Parameter)">
            <summary>
            Configure an explicit value for a constructor parameter.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set parameter on.</param>
            <param name="parameter">The parameter to supply to the constructor.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithParameter``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Func{System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Boolean},System.Func{System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Object})">
            <summary>
            Configure an explicit value for a constructor parameter.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set parameter on.</param>
            <param name="parameterSelector">A predicate selecting the parameter to set.</param>
            <param name="valueProvider"></param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithParameters``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Configure explicit values for constructor parameters.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set parameter on.</param>
            <param name="parameters">The parameters to supply to the constructor.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithProperty``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.String,System.Object)">
            <summary>
            Configure an explicit value for a property.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set property on.</param>
            <param name="propertyName">Name of a property on the target type.</param>
            <param name="propertyValue">Value to supply to the property.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithProperty``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},Autofac.Core.Parameter)">
            <summary>
            Configure an explicit value for a property.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set parameter on.</param>
            <param name="property">The property to supply.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.WithProperties``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Configure explicit values for properties.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TStyle">Registration style.</typeparam>
            <typeparam name="TReflectionActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set parameter on.</param>
            <param name="properties">The properties to supply.</param>
            <returns>A registration builder allowing further configuration of the component.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Targeting``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},Autofac.Core.IComponentRegistration)">
            <summary>
            Sets the target of the registration (used for metadata generation.)
            </summary>
            <typeparam name="TLimit">The type of the limit.</typeparam>
            <typeparam name="TActivatorData">The type of the activator data.</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style</typeparam>
            <param name="registration">Registration to set target for.</param>
            <param name="target">The target.</param>
            <returns>
            Registration builder allowing the registration to be configured.
            </returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="registration"/> or <paramref name="target"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.RegistrationExtensions.OnRegistered``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Action{Autofac.Core.ComponentRegisteredEventArgs})">
            <summary>
            Provide a handler to be called when the component is registered.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TSingleRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration add handler to.</param>
            <param name="handler">The handler.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.OnRegistered``2(Autofac.Builder.IRegistrationBuilder{``0,Autofac.Features.Scanning.ScanningActivatorData,``1},System.Action{Autofac.Core.ComponentRegisteredEventArgs})">
            <summary>
            Provide a handler to be called when the component is registred.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <param name="registration">Registration add handler to.</param>
            <param name="handler">The handler.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AsClosedTypesOf``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Type)">
            <summary>
            Specifies that a type from a scanned assembly is registered if it implements an interface
            that closes the provided open generic interface type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to set service mapping on.</param>
            <param name="openGenericServiceType">The open generic interface or base class type for which implementations will be found.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AssignableTo``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Type)">
            <summary>
            Filters the scanned types to include only those assignable to the provided
            type.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to filter types from.</param>
            <param name="type">The type or interface which all classes must be assignable from.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AssignableTo``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Filters the scanned types to include only those assignable to the provided
            type.
            </summary>
            <param name="registration">Registration to filter types from.</param>
            <typeparam name="T">The type or interface which all classes must be assignable from.</typeparam>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Except``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Filters the scanned types to exclude the provided type.
            </summary>
            <param name="registration">Registration to filter types from.</param>
            <typeparam name="T">The concrete type to exclude.</typeparam>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.Except``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle},System.Action{Autofac.Builder.IRegistrationBuilder{``0,Autofac.Builder.ConcreteReflectionActivatorData,Autofac.Builder.SingleRegistrationStyle}})">
            <summary>
            Filters the scanned types to exclude the provided type, providing specific configuration for
            the excluded type.
            </summary>
            <param name="registration">Registration to filter types from.</param>
            <param name="customizedRegistration">Registration for the excepted type.</param>
            <typeparam name="T">The concrete type to exclude.</typeparam>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.InNamespaceOf``1(Autofac.Builder.IRegistrationBuilder{System.Object,Autofac.Features.Scanning.ScanningActivatorData,Autofac.Builder.DynamicRegistrationStyle})">
            <summary>
            Filters the scanned types to include only those in the namespace of the provided type
            or one of its sub-namespaces.
            </summary>
            <param name="registration">Registration to filter types from.</param>
            <typeparam name="T">A type in the target namespace.</typeparam>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.InNamespace``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.String)">
            <summary>
            Filters the scanned types to include only those in the provided namespace
            or one of its sub-namespaces.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <typeparam name="TScanningActivatorData">Activator data type.</typeparam>
            <param name="registration">Registration to filter types from.</param>
            <param name="ns">The namespace from which types will be selected.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterAdapter``2(Autofac.ContainerBuilder,System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},``0,``1})">
            <summary>
            Adapt all components implementing service <typeparamref name="TFrom"/>
            to provide <typeparamref name="TTo"/> using the provided <paramref name="adapter"/>
            function.
            </summary>
            <typeparam name="TFrom">Service type to adapt from.</typeparam>
            <typeparam name="TTo">Service type to adapt to. Must not be the
            same as <typeparamref name="TFrom"/>.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="adapter">Function adapting <typeparamref name="TFrom"/> to
            service <typeparamref name="TTo"/>, given the context and parameters.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterAdapter``2(Autofac.ContainerBuilder,System.Func{Autofac.IComponentContext,``0,``1})">
            <summary>
            Adapt all components implementing service <typeparamref name="TFrom"/>
            to provide <typeparamref name="TTo"/> using the provided <paramref name="adapter"/>
            function.
            </summary>
            <typeparam name="TFrom">Service type to adapt from.</typeparam>
            <typeparam name="TTo">Service type to adapt to. Must not be the
            same as <typeparamref name="TFrom"/>.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="adapter">Function adapting <typeparamref name="TFrom"/> to
            service <typeparamref name="TTo"/>, given the context.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterAdapter``2(Autofac.ContainerBuilder,System.Func{``0,``1})">
            <summary>
            Adapt all components implementing service <typeparamref name="TFrom"/>
            to provide <typeparamref name="TTo"/> using the provided <paramref name="adapter"/>
            function.
            </summary>
            <typeparam name="TFrom">Service type to adapt from.</typeparam>
            <typeparam name="TTo">Service type to adapt to. Must not be the
            same as <typeparamref name="TFrom"/>.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="adapter">Function adapting <typeparamref name="TFrom"/> to
            service <typeparamref name="TTo"/>.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterGenericDecorator(Autofac.ContainerBuilder,System.Type,System.Type,System.Object,System.Object)">
            <summary>
            Decorate all components implementing open generic service <paramref name="decoratedServiceType"/>.
            The <paramref name="fromKey"/> and <paramref name="toKey"/> parameters must be different values.
            </summary>
            <param name="builder">Container builder.</param>
            <param name="decoratedServiceType">Service type being decorated. Must be an open generic type.</param>
            <param name="fromKey">Service key or name associated with the components being decorated.</param>
            <param name="toKey">Service key or name given to the decorated components.</param>
            <param name="decoratorType">The type of the decorator. Must be an open generic type, and accept a parameter
            of type <paramref name="decoratedServiceType"/>, which will be set to the instance being decorated.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterDecorator``1(Autofac.ContainerBuilder,System.Func{Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},``0,``0},System.Object,System.Object)">
            <summary>
            Decorate all components implementing service <typeparamref name="TService"/>
            using the provided <paramref name="decorator"/> function.
            The <paramref name="fromKey"/> and <paramref name="toKey"/> parameters must be different values.
            </summary>
            <typeparam name="TService">Service type being decorated.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="decorator">Function decorating a component instance that provides
            <typeparamref name="TService"/>, given the context and parameters.</param>
            <param name="fromKey">Service key or name associated with the components being decorated.</param>
            <param name="toKey">Service key or name given to the decorated components.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterDecorator``1(Autofac.ContainerBuilder,System.Func{Autofac.IComponentContext,``0,``0},System.Object,System.Object)">
            <summary>
            Decorate all components implementing service <typeparamref name="TService"/>
            using the provided <paramref name="decorator"/> function.
            The <paramref name="fromKey"/> and <paramref name="toKey"/> parameters must be different values.
            </summary>
            <typeparam name="TService">Service type being decorated.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="decorator">Function decorating a component instance that provides
            <typeparamref name="TService"/>, given the context.</param>
            <param name="fromKey">Service key or name associated with the components being decorated.</param>
            <param name="toKey">Service key or name given to the decorated components.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.RegisterDecorator``1(Autofac.ContainerBuilder,System.Func{``0,``0},System.Object,System.Object)">
            <summary>
            Decorate all components implementing service <typeparamref name="TService"/>
            using the provided <paramref name="decorator"/> function.
            The <paramref name="fromKey"/> and <paramref name="toKey"/> parameters must be different values.
            </summary>
            <typeparam name="TService">Service type being decorated.</typeparam>
            <param name="builder">Container builder.</param>
            <param name="decorator">Function decorating a component instance that provides
            <typeparamref name="TService"/>.</param>
            <param name="fromKey">Service key or name associated with the components being decorated.</param>
            <param name="toKey">Service key or name given to the decorated components.</param>
        </member>
        <member name="M:Autofac.RegistrationExtensions.OnRelease``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2},System.Action{``0})">
            <summary>
            Run a supplied action instead of disposing instances when they're no
            longer required.
            </summary>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TActivatorData">Activator data type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <param name="registration">Registration to set release action for.</param>
            <param name="releaseAction">An action to perform instead of disposing the instance.</param>
            <returns>Registration builder allowing the registration to be configured.</returns>
            <remarks>Only one release action can be configured per registration.</remarks>
        </member>
        <member name="M:Autofac.RegistrationExtensions.AutoActivate``3(Autofac.Builder.IRegistrationBuilder{``0,``1,``2})">
            <summary>
            Wraps a registration in an implicit <see cref="T:Autofac.IStartable"/> and automatically
            activates the registration after the container is built.
            </summary>
            <param name="registration">Registration to set release action for.</param>
            <typeparam name="TLimit">Registration limit type.</typeparam>
            <typeparam name="TActivatorData">Activator data type.</typeparam>
            <typeparam name="TRegistrationStyle">Registration style.</typeparam>
            <returns>A registration builder allowing further configuration of the component.</returns>
            <remarks>
            <para>
            While you can implement an <see cref="T:Autofac.IStartable"/> to perform some logic at
            container build time, sometimes you need to just activate a registered component and
            that's it. This extension allows you to automatically activate a registration on
            container build. No additional logic is executed and the resolved instance is not held
            so container disposal will end up disposing of the instance.
            </para>
            <para>
            Depending on how you register the lifetime of the component, you may get an exception
            when you build the container - components that are scoped to specific lifetimes (like
            ASP.NET components scoped to a request lifetime) will fail to resolve because the
            appropriate lifetime is not available.
            </para>
            </remarks>
        </member>
        <member name="T:Autofac.RegistrationExtensionsResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.RegistrationExtensionsResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.RegistrationExtensionsResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.RegistrationExtensionsResources.InstanceRegistrationsAreSingleInstanceOnly">
            <summary>
              Looks up a localized string similar to The instance  registration &apos;{0}&apos; can support SingleInstance() sharing only..
            </summary>
        </member>
        <member name="P:Autofac.RegistrationExtensionsResources.MetadataAttributeNotFound">
            <summary>
              Looks up a localized string similar to A metadata attribute of type {0} was not found on {1}..
            </summary>
        </member>
        <member name="P:Autofac.RegistrationExtensionsResources.MultipleMetadataAttributesSameType">
            <summary>
              Looks up a localized string similar to More than one metadata attribute of type {0} was found on {1}..
            </summary>
        </member>
        <member name="P:Autofac.RegistrationExtensionsResources.NoMatchingConstructorExists">
            <summary>
              Looks up a localized string similar to No matching constructor exists on type &apos;{0}&apos;..
            </summary>
        </member>
        <member name="T:Autofac.Builder.SimpleActivatorData">
            <summary>
            An activator builder with no parameters.
            </summary>
        </member>
        <member name="M:Autofac.Builder.SimpleActivatorData.#ctor(Autofac.Core.IInstanceActivator)">
            <summary>
            Return the provided activator.
            </summary>
            <param name="activator">The activator to return.</param>
        </member>
        <member name="P:Autofac.Builder.SimpleActivatorData.Activator">
            <summary>
            Gets the activator.
            </summary>
        </member>
        <member name="T:Autofac.Builder.SingleRegistrationStyle">
            <summary>
            Registration style for individual components.
            </summary>
        </member>
        <member name="P:Autofac.Builder.SingleRegistrationStyle.Id">
            <summary>
            The id used for the registration.
            </summary>
        </member>
        <member name="P:Autofac.Builder.SingleRegistrationStyle.RegisteredHandlers">
            <summary>
            Handlers to notify of the component registration event.
            </summary>
        </member>
        <member name="P:Autofac.Builder.SingleRegistrationStyle.PreserveDefaults">
            <summary>
            By default, new registrations override existing registrations as defaults.
            If set to true, new registrations will not change existing defaults.
            </summary>
        </member>
        <member name="P:Autofac.Builder.SingleRegistrationStyle.Target">
            <summary>
            The component upon which this registration is based.
            </summary>
        </member>
        <member name="T:Autofac.ContainerBuilder">
            <summary>
            Used to build an <see cref="T:Autofac.IContainer"/> from component registrations.
            </summary>
            <example>
            <code>
            var builder = new ContainerBuilder();
            
            builder.RegisterType&lt;Logger&gt;()
                .As&lt;ILogger&gt;()
                .SingleInstance();
            
            builder.Register(c =&gt; new MessageHandler(c.Resolve&lt;ILogger&gt;()));
            
            var container = builder.Build();
            // resolve components from container...
            </code>
            </example>
            <remarks>Most <see cref="T:Autofac.ContainerBuilder"/> functionality is accessed
            via extension methods in <see cref="T:Autofac.RegistrationExtensions"/>.</remarks>
            <seealso cref="T:Autofac.IContainer"/>
            <see cref="T:Autofac.RegistrationExtensions"/>
        </member>
        <member name="M:Autofac.ContainerBuilder.RegisterCallback(System.Action{Autofac.Core.IComponentRegistry})">
            <summary>
            Register a callback that will be invoked when the container is configured.
            </summary>
            <remarks>This is primarily for extending the builder syntax.</remarks>
            <param name="configurationCallback">Callback to execute.</param>
        </member>
        <member name="M:Autofac.ContainerBuilder.Build(Autofac.Builder.ContainerBuildOptions)">
            <summary>
            Create a new container with the component registrations that have been made.
            </summary>
            <param name="options">Options that influence the way the container is initialised.</param>
            <remarks>
            Build can only be called once per <see cref="T:Autofac.ContainerBuilder"/>
            - this prevents ownership issues for provided instances.
            Build enables support for the relationship types that come with Autofac (e.g.
            Func, Owned, Meta, Lazy, IEnumerable.) To exclude support for these types,
            first create the container, then call Update() on the builder.
            </remarks>
            <returns>A new container with the configured component registrations.</returns>
        </member>
        <member name="M:Autofac.ContainerBuilder.Update(Autofac.IContainer)">
            <summary>
            Configure an existing container with the component registrations
            that have been made.
            </summary>
            <remarks>
            Update can only be called once per <see cref="T:Autofac.ContainerBuilder"/>
            - this prevents ownership issues for provided instances.
            </remarks>
            <param name="container">An existing container to make the registrations in.</param>
        </member>
        <member name="M:Autofac.ContainerBuilder.Update(Autofac.IContainer,Autofac.Builder.ContainerBuildOptions)">
            <summary>
            Configure an existing container with the component registrations
            that have been made and allows additional build options to be specified.
            </summary>
            <remarks>
            Update can only be called once per <see cref="T:Autofac.ContainerBuilder"/>
            - this prevents ownership issues for provided instances.
            </remarks>
            <param name="container">An existing container to make the registrations in.</param>
            <param name="options">Options that influence the way the container is updated.</param>
        </member>
        <member name="M:Autofac.ContainerBuilder.Update(Autofac.Core.IComponentRegistry)">
            <summary>
            Configure an existing registry with the component registrations
            that have been made.
            </summary>
            <remarks>
            Update can only be called once per <see cref="T:Autofac.ContainerBuilder"/>
            - this prevents ownership issues for provided instances.
            </remarks>
            <param name="componentRegistry">An existing registry to make the registrations in.</param>
        </member>
        <member name="T:Autofac.NamedParameter">
            <summary>
            A parameter identified by name. When applied to a reflection-based
            component, <see cref="P:Autofac.NamedParameter.Name"/> will be matched against
            the name of the component's constructor arguments. When applied to
            a delegate-based component, the parameter can be accessed using
            <see cref="M:Autofac.ParameterExtensions.Named``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.String)"/>.
            </summary>
            <example>
            Component with parameter:
            <code>
            public class MyComponent
            {
                public MyComponent(int amount) { ... }
            }
            </code>
            Providing the parameter:
            <code>
            var builder = new ContainerBuilder();
            builder.RegisterType&lt;MyComponent&gt;();
            var container = builder.Build();
            var myComponent = container.Resolve&lt;MyComponent&gt;(new NamedParameter("amount", 123));
            </code>
            </example>
        </member>
        <member name="M:Autofac.NamedParameter.#ctor(System.String,System.Object)">
            <summary>
            Create a <see cref="T:Autofac.NamedParameter"/> with the specified constant value.
            </summary>
            <param name="name">The name of the parameter.</param>
            <param name="value">The parameter value.</param>
        </member>
        <member name="P:Autofac.NamedParameter.Name">
            <summary>
            The name of the parameter.
            </summary>
        </member>
        <member name="T:Autofac.ParameterExtensions">
            <summary>
            Extension methods that simplify extraction of parameter values from
            an <see cref="T:System.Collections.Generic.IEnumerable`1"/> where T is <see cref="T:Autofac.Core.Parameter"/>.
            Each method returns the first matching parameter value, or throws an exception if
            none is provided.
            </summary>
            <example>
            At configuration time, delegate registrations can retrieve parameter values using
            the methods <see cref="M:Autofac.ParameterExtensions.Named``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.String)"/>, <see cref="M:Autofac.ParameterExtensions.Positional``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Int32)"/> and <see cref="M:Autofac.ParameterExtensions.TypedAs``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})"/>:
            <code>
            builder.Register((c, p) =&gt; new FtpClient(p.Named&lt;string&gt;("server")));
            </code>
            These parameters can be provided at resolution time:
            <code>
            container.Resolve&lt;FtpClient&gt;(new NamedParameter("server", "ftp.example.com"));
            </code>
            Alternatively, the parameters can be provided via a <i>Generated Factory</i> - http://code.google.com/p/autofac/wiki/DelegateFactories.
            </example>
        </member>
        <member name="M:Autofac.ParameterExtensions.Named``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.String)">
            <summary>
            Retrieve a named parameter value from a <see cref="T:Autofac.NamedParameter"/> instance.
            </summary>
            <typeparam name="T">The type to which the returned value will be cast.</typeparam>
            <param name="parameters">The available parameters to choose from.</param>
            <param name="name">The name of the parameter to select.</param>
            <returns>The value of the selected parameter.</returns>
            <seealso cref="T:Autofac.NamedParameter"/>
        </member>
        <member name="M:Autofac.ParameterExtensions.Positional``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Int32)">
            <summary>
            Retrieve a positional parameter value from a <see cref="T:Autofac.PositionalParameter"/> instance.
            </summary>
            <typeparam name="T">The type to which the returned value will be cast.</typeparam>
            <param name="parameters">The available parameters to choose from.</param>
            <param name="position">The zero-based position of the parameter to select.</param>
            <returns>The value of the selected parameter.</returns>
            <remarks>The position value is the one associated with the parameter when
            it was constructed, <b>not</b> its index into the <paramref name="parameters"/>
            sequence.</remarks>
            <seealso cref="T:Autofac.PositionalParameter"/>
        </member>
        <member name="M:Autofac.ParameterExtensions.TypedAs``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a typed parameter value from a <see cref="T:Autofac.TypedParameter"/> instance.
            </summary>
            <typeparam name="T">The type to which the returned value will be cast.</typeparam>
            <param name="parameters">The available parameters to choose from.</param>
            <returns>The value of the selected parameter.</returns>
            <seealso cref="T:Autofac.TypedParameter"/>
        </member>
        <member name="T:Autofac.PositionalParameter">
            <summary>
            A parameter that is identified according to an integer representing its
            position in an argument list. When applied to a reflection-based
            component, <see cref="P:Autofac.PositionalParameter.Position"/> will be matched against
            the indices of the component's constructor arguments. When applied to
            a delegate-based component, the parameter can be accessed using
            <see cref="M:Autofac.ParameterExtensions.Positional``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Int32)"/>.
            </summary>
            <example>
            Component with parameter:
            <code>
            public class MyComponent
            {
                public MyComponent(int amount) { ... }
            }
            </code>
            Providing the parameter:
            <code>
            var builder = new ContainerBuilder();
            builder.RegisterType&lt;MyComponent&gt;();
            var container = builder.Build();
            var myComponent = container.Resolve&lt;MyComponent&gt;(new PositionalParameter(0, 123));
            </code>
            </example>
        </member>
        <member name="M:Autofac.PositionalParameter.#ctor(System.Int32,System.Object)">
            <summary>
            Construct a positional parameter with the specified constant value.
            </summary>
            <param name="position">The zero-based position of the parameter.</param>
            <param name="value">The parameter value.</param>
        </member>
        <member name="P:Autofac.PositionalParameter.Position">
            <summary>
            The zero-based position of the parameter.
            </summary>
        </member>
        <member name="T:Autofac.ResolutionExtensions">
            <summary>
            Adds syntactic convenience methods to the <see cref="T:Autofac.IComponentContext"/> interface.
            </summary>
        </member>
        <member name="M:Autofac.ResolutionExtensions.InjectProperties``1(Autofac.IComponentContext,``0)">
            <summary>
            Set any properties on <paramref name="instance"/> that can be
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            </summary>
            <typeparam name="TService">Type of instance. Used only to provide method chaining.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="instance">The instance to inject properties into.</param>
            <returns><paramref name="instance"/>.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.InjectUnsetProperties``1(Autofac.IComponentContext,``0)">
            <summary>
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            </summary>
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            <param name="context">The context from which to resolve the service.</param>
            <param name="instance">The instance to inject properties into.</param>
            <returns><paramref name="instance"/>.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveNamed``1(Autofac.IComponentContext,System.String)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceName">Name of the service.</param>
            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveNamed``1(Autofac.IComponentContext,System.String,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceName">Name of the service.</param>
            <param name="parameters">The parameters.</param>
            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveNamed``1(Autofac.IComponentContext,System.String,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceName">Name of the service.</param>
            <param name="parameters">The parameters.</param>
            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveKeyed``1(Autofac.IComponentContext,System.Object)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">Key of the service.</param>
            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveKeyed``1(Autofac.IComponentContext,System.Object,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
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            <param name="serviceKey">Key of the service.</param>
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            <returns>
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            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveKeyed``1(Autofac.IComponentContext,System.Object,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">Key of the service.</param>
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            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.Resolve``1(Autofac.IComponentContext)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The service to retrieve.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <returns>The component instance that provides the service.</returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.Resolve``1(Autofac.IComponentContext,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="parameters">Parameters for the service.</param>
            <returns>
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            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.Resolve``1(Autofac.IComponentContext,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
            </summary>
            <typeparam name="TService">The type to which the result will be cast.</typeparam>
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            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.Resolve(Autofac.IComponentContext,System.Type)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceType">The service type.</param>
            <returns>
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            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
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        <member name="M:Autofac.ResolutionExtensions.Resolve(Autofac.IComponentContext,System.Type,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
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            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.Resolve(Autofac.IComponentContext,System.Type,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="parameters">Parameters for the service.</param>
            <param name="serviceType">The service type.</param>
            <returns>
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            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveNamed(Autofac.IComponentContext,System.String,System.Type)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceName">The service name.</param>
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            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveNamed(Autofac.IComponentContext,System.String,System.Type,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="parameters">Parameters for the service.</param>
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            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveNamed(Autofac.IComponentContext,System.String,System.Type,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="parameters">Parameters for the service.</param>
            <param name="serviceName">The service name.</param>
            <param name="serviceType">Type of the service.</param>
            <returns>
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            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveKeyed(Autofac.IComponentContext,System.Object,System.Type)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">Key of the service.</param>
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            <returns>
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            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveKeyed(Autofac.IComponentContext,System.Object,System.Type,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">Key of the service.</param>
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            <returns>
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            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveKeyed(Autofac.IComponentContext,System.Object,System.Type,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">Key of the service.</param>
            <param name="serviceType">Type of the service.</param>
            <param name="parameters">The parameters.</param>
            <returns>
            The component instance that provides the service.
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            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.ResolveService(Autofac.IComponentContext,Autofac.Core.Service)">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
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            <returns>
            The component instance that provides the service.
            </returns>
            <exception cref="T:Autofac.Core.Registration.ComponentNotRegisteredException"/>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
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        <member name="M:Autofac.ResolutionExtensions.ResolveService(Autofac.IComponentContext,Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})">
            <summary>
            Retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
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            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
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        <member name="M:Autofac.ResolutionExtensions.ResolveService(Autofac.IComponentContext,Autofac.Core.Service,Autofac.Core.Parameter[])">
            <summary>
            Retrieve a service from the context.
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            <summary>
            Retrieve a service from the context, or null if the service is not
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            <summary>
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            <summary>
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            <summary>
            Retrieve a service from the context, or null if the service is not
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            <summary>
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            <summary>
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            <summary>
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            <summary>
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            <summary>
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            <summary>
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        <member name="M:Autofac.ResolutionExtensions.IsRegistered``1(Autofac.IComponentContext)">
            <summary>
            Determine whether the specified service is available in the context.
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            <summary>
            Determine whether the specified service is available in the context.
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            <summary>
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            <param name="serviceName">The name of the service to test for the registration of.</param>
            <param name="serviceType">Type type of the service to test for the registration of.</param>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.IsRegisteredWithName``1(Autofac.IComponentContext,System.String)">
            <summary>
            Determine whether the specified service is available in the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceName">The name of the service to test for the registration of.</param>
            <typeparam name="TService">Type type of the service to test for the registration of.</typeparam>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.IsRegisteredWithKey(Autofac.IComponentContext,System.Object,System.Type)">
            <summary>
            Determine whether the specified service is available in the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">The key of the service to test for the registration of.</param>
            <param name="serviceType">Type type of the service to test for the registration of.</param>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.IsRegisteredWithKey``1(Autofac.IComponentContext,System.Object)">
            <summary>
            Determine whether the specified service is available in the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">The key of the service to test for the registration of.</param>
            <typeparam name="TService">Type type of the service to test for the registration of.</typeparam>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.IsRegisteredService(Autofac.IComponentContext,Autofac.Core.Service)">
            <summary>
            Determine whether the specified service is available in the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="service">The service to test for the registration of.</param>
            <returns>True if the service is registered.</returns>
        </member>
        <member name="M:Autofac.ResolutionExtensions.TryResolveService(Autofac.IComponentContext,Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.Parameter},System.Object@)">
            <summary>
            Try to retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="service">The service to resolve.</param>
            <param name="instance">The resulting component instance providing the service, or null.</param>
            <param name="parameters">The parameters.</param>
            <returns>
            True if a component providing the service is available.
            </returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="context"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="M:Autofac.ResolutionExtensions.TryResolveService(Autofac.IComponentContext,Autofac.Core.Service,System.Object@)">
            <summary>
            Try to retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="service">The service to resolve.</param>
            <param name="instance">The resulting component instance providing the service, or null.</param>
            <returns>
            True if a component providing the service is available.
            </returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.TryResolve(Autofac.IComponentContext,System.Type,System.Object@)">
            <summary>
            Try to retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceType">The service type to resolve.</param>
            <param name="instance">The resulting component instance providing the service, or null.</param>
            <returns>
            True if a component providing the service is available.
            </returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.TryResolve``1(Autofac.IComponentContext,``0@)">
            <summary>
            Try to retrieve a service from the context.
            </summary>
            <typeparam name="T">The service type to resolve.</typeparam>
            <param name="context">The context from which to resolve the service.</param>
            <param name="instance">The resulting component instance providing the service, or default(T).</param>
            <returns>
            True if a component providing the service is available.
            </returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.TryResolveNamed(Autofac.IComponentContext,System.String,System.Type,System.Object@)">
            <summary>
            Try to retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceName">The name of the service to resolve.</param>
            <param name="serviceType">The type of the service to resolve.</param>
            <param name="instance">The resulting component instance providing the service, or null.</param>
            <returns>
            True if a component providing the service is available.
            </returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="M:Autofac.ResolutionExtensions.TryResolveKeyed(Autofac.IComponentContext,System.Object,System.Type,System.Object@)">
            <summary>
            Try to retrieve a service from the context.
            </summary>
            <param name="context">The context from which to resolve the service.</param>
            <param name="serviceKey">The key of the service to resolve.</param>
            <param name="serviceType">The type of the service to resolve.</param>
            <param name="instance">The resulting component instance providing the service, or null.</param>
            <returns>
            True if a component providing the service is available.
            </returns>
            <exception cref="T:Autofac.Core.DependencyResolutionException"/>
        </member>
        <member name="T:Autofac.Core.ResolvedParameter">
            <summary>
            Flexible parameter type allows arbitrary values to be retrieved
            from the resolution context.
            </summary>
        </member>
        <member name="M:Autofac.Core.ResolvedParameter.#ctor(System.Func{System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Boolean},System.Func{System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Object})">
            <summary>
            Create an instance of the ResolvedParameter class.
            </summary>
            <param name="predicate">A predicate that determines which parameters on a constructor will be supplied by this instance.</param>
            <param name="valueAccessor">A function that supplies the parameter value given the context.</param>
        </member>
        <member name="M:Autofac.Core.ResolvedParameter.CanSupplyValue(System.Reflection.ParameterInfo,Autofac.IComponentContext,System.Func{System.Object}@)">
            <summary>
            Returns true if the parameter is able to provide a value to a particular site.
            </summary>
            <param name="pi">Constructor, method, or property-mutator parameter.</param>
            <param name="context">The component context in which the value is being provided.</param>
            <param name="valueProvider">If the result is true, the valueProvider parameter will
            be set to a function that will lazily retrieve the parameter value. If the result is false,
            will be set to null.</param>
            <returns>True if a value can be supplied; otherwise, false.</returns>
        </member>
        <member name="M:Autofac.Core.ResolvedParameter.ForNamed``1(System.String)">
            <summary>
            Construct a <see cref="T:Autofac.Core.ResolvedParameter"/> that will match parameters of type
            <typeparamref name="TService"/> and resolve for those parameters an implementation
            registered with the name <paramref name="serviceName"/>.
            </summary>
            <typeparam name="TService">The type of the parameter to match.</typeparam>
            <param name="serviceName">The name of the matching service to resolve.</param>
            <returns>A configured <see cref="T:Autofac.Core.ResolvedParameter"/> instance.</returns>
            <remarks>
            </remarks>
        </member>
        <member name="M:Autofac.Core.ResolvedParameter.ForKeyed``1(System.Object)">
            <summary>
            Construct a <see cref="T:Autofac.Core.ResolvedParameter"/> that will match parameters of type
            <typeparamref name="TService"/> and resolve for those parameters an implementation
            registered with the key <paramref name="serviceKey"/>.
            </summary>
            <typeparam name="TService">The type of the parameter to match.</typeparam>
            <param name="serviceKey">The key of the matching service to resolve.</param>
            <returns>A configured <see cref="T:Autofac.Core.ResolvedParameter"/> instance.</returns>
        </member>
        <member name="T:Autofac.TypedParameter">
            <summary>
            A parameter that can supply values to sites that exactly
            match a specified type. When applied to a reflection-based
            component, <see cref="P:Autofac.TypedParameter.Type"/> will be matched against
            the types of the component's constructor arguments. When applied to
            a delegate-based component, the parameter can be accessed using
            <see cref="M:Autofac.ParameterExtensions.TypedAs``1(System.Collections.Generic.IEnumerable{Autofac.Core.Parameter})"/>.
            </summary>
            <example>
            Component with parameter:
            <code>
            public class MyComponent
            {
                public MyComponent(int amount) { ... }
            }
            </code>
            Providing the parameter:
            <code>
            var builder = new ContainerBuilder();
            builder.RegisterType&lt;MyComponent&gt;();
            var container = builder.Build();
            var myComponent = container.Resolve&lt;MyComponent&gt;(new TypedParameter(typeof(int), 123));
            </code>
            </example>
        </member>
        <member name="M:Autofac.TypedParameter.#ctor(System.Type,System.Object)">
            <summary>
            Create a typed parameter with the specified constant value.
            </summary>
            <param name="type">The exact type to match.</param>
            <param name="value">The parameter value.</param>
        </member>
        <member name="M:Autofac.TypedParameter.From``1(``0)">
            <summary>
            Shortcut for creating <see cref="T:Autofac.TypedParameter"/> 
            by using the <typeparamref name="T"/>
            </summary>
            <typeparam name="T">type to be used for the parameter</typeparam>
            <param name="value">The parameter value.</param>
            <returns>new typed parameter</returns>
        </member>
        <member name="P:Autofac.TypedParameter.Type">
            <summary>
            The type against which targets are matched.
            </summary>
        </member>
        <member name="T:Autofac.TypeExtensions">
            <summary>
            Extends <see cref="T:System.Type"/> with methods that are useful in
            building scanning rules for <see cref="M:Autofac.RegistrationExtensions.RegisterAssemblyTypes(Autofac.ContainerBuilder,System.Reflection.Assembly[])"/>.
            </summary>
        </member>
        <member name="M:Autofac.TypeExtensions.IsInNamespace(System.Type,System.String)">
            <summary>
            Returns true if this type is in the <paramref name="namespace"/> namespace
            or one of its sub-namespaces.
            </summary>
            <param name="this">The type to test.</param>
            <param name="namespace">The namespace to test.</param>
            <returns>True if this type is in the <paramref name="namespace"/> namespace
            or one of its sub-namespaces; otherwise, false.</returns>
        </member>
        <member name="M:Autofac.TypeExtensions.IsInNamespaceOf``1(System.Type)">
            <summary>
            Returns true if this type is in the same namespace as <typeparamref name="T"/>
            or one of its sub-namespaces.
            </summary>
            <param name="this">The type to test.</param>
            <returns>True if this type is in the same namespace as <typeparamref name="T"/>
            or one of its sub-namespaces; otherwise, false.</returns>
        </member>
        <member name="M:Autofac.TypeExtensions.IsClosedTypeOf(System.Type,System.Type)">
            <summary>Determines whether the candidate type supports any base or 
            interface that closes the provided generic type.</summary>
            <param name="this"></param>
            <param name="openGeneric"></param>
            <returns></returns>
        </member>
        <member name="M:Autofac.TypeExtensions.IsAssignableTo``1(System.Type)">
            <summary>
            Determines whether this type is assignable to <typeparamref name="T"/>.
            </summary>
            <typeparam name="T">The type to test assignability to.</typeparam>
            <returns>True if this type is assignable to references of type
            <typeparamref name="T"/>; otherwise, False.</returns>
        </member>
        <member name="T:Autofac.TypeExtensionsResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.TypeExtensionsResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.TypeExtensionsResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.TypeExtensionsResources.NotOpenGenericType">
            <summary>
              Looks up a localized string similar to The type &apos;{0}&apos; is not an open generic class or interface type..
            </summary>
        </member>
        <member name="T:Autofac.Util.AssemblyExtensions">
            <summary>
            Extension methods for <see cref="T:System.Reflection.Assembly"/>.
            </summary>
        </member>
        <member name="M:Autofac.Util.AssemblyExtensions.GetLoadableTypes(System.Reflection.Assembly)">
            <summary>
            Safely returns the set of loadable types from an assembly.
            </summary>
            <param name="assembly">The <see cref="T:System.Reflection.Assembly"/> from which to load types.</param>
            <returns>
            The set of types from the <paramref name="assembly"/>, or the subset
            of types that could be loaded if there was any error.
            </returns>
            <exception cref="T:System.ArgumentNullException">
            Thrown if <paramref name="assembly"/> is <see langword="null"/>.
            </exception>
        </member>
        <member name="T:Autofac.Util.Enforce">
            <summary>
            Helper methods used throughout the codebase.
            </summary>
        </member>
        <member name="M:Autofac.Util.Enforce.ArgumentNotNull``1(``0,System.String)">
            <summary>
            Enforce that an argument is not null. Returns the
            value if valid so that it can be used inline in
            base initialiser syntax.
            </summary>
            <typeparam name="T"></typeparam>
            <param name="value"></param>
            <param name="name"></param>
            <returns><paramref name="value"/></returns>
        </member>
        <member name="M:Autofac.Util.Enforce.ArgumentElementNotNull``1(``0,System.String)">
            <summary>
            Enforce that sequence does not contain null. Returns the
            value if valid so that it can be used inline in
            base initialiser syntax.
            </summary>
            <typeparam name="T"></typeparam>
            <param name="value">The value.</param>
            <param name="name">The name.</param>
            <returns><paramref name="value"/></returns>
        </member>
        <member name="M:Autofac.Util.Enforce.NotNull``1(``0)">
            <summary>
            Enforces that the provided object is non-null.
            </summary>
            <typeparam name="T"></typeparam>
            <param name="value">The value.</param>
            <returns><paramref name="value"/></returns>
        </member>
        <member name="M:Autofac.Util.Enforce.ArgumentNotNullOrEmpty(System.String,System.String)">
            <summary>
            Enforce that an argument is not null or empty. Returns the
            value if valid so that it can be used inline in
            base initialiser syntax.
            </summary>
            <param name="value">The value.</param>
            <param name="description">The description.</param>
            <returns><paramref name="value"/></returns>
        </member>
        <member name="M:Autofac.Util.Enforce.ArgumentTypeIsFunction(System.Type)">
            <summary>
            Enforce that the argument is a delegate type.
            </summary>
            <param name="delegateType">The type to test.</param>
        </member>
        <member name="T:Autofac.Util.EnforceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.CannotBeEmpty">
            <summary>
              Looks up a localized string similar to The argument &apos;{0}&apos; cannot be empty..
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.CannotBeNull">
            <summary>
              Looks up a localized string similar to The object of type &apos;{0}&apos; cannot be null..
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.DelegateReturnsVoid">
            <summary>
              Looks up a localized string similar to Type {0} returns void..
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.ElementCannotBeNull">
            <summary>
              Looks up a localized string similar to The sequence provided as argument &apos;{0}&apos; cannot contain null elements..
            </summary>
        </member>
        <member name="P:Autofac.Util.EnforceResources.NotDelegate">
            <summary>
              Looks up a localized string similar to Type {0} is not a delegate type..
            </summary>
        </member>
        <member name="T:Autofac.Util.ReflectionExtensions">
            <summary>
            Extension methods for reflection-related types.
            </summary>
        </member>
        <member name="M:Autofac.Util.ReflectionExtensions.TryGetDeclaringProperty(System.Reflection.ParameterInfo,System.Reflection.PropertyInfo@)">
            <summary>
            Maps from a property-set-value parameter to the declaring property.
            </summary>
            <param name="pi">Parameter to the property setter.</param>
            <param name="prop">The property info on which the setter is specified.</param>
            <returns>True if the parameter is a property setter.</returns>
        </member>
        <member name="M:Autofac.Util.ReflectionExtensions.GetProperty``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
            <summary>
            Get a PropertyInfo object from an expression of the form
            x =&gt; x.P.
            </summary>
            <typeparam name="TDeclaring">Type declaring the property.</typeparam>
            <typeparam name="TProperty">The type of the property.</typeparam>
            <param name="propertyAccessor">Expression mapping an instance of the
            declaring type to the property value.</param>
            <returns>Property info.</returns>
        </member>
        <member name="M:Autofac.Util.ReflectionExtensions.GetMethod``1(System.Linq.Expressions.Expression{System.Action{``0}})">
            <summary>
            Get the MethodInfo for a method called in the
            expression.
            </summary>
            <typeparam name="TDeclaring">Type on which the method is called.</typeparam>
            <param name="methodCallExpression">Expression demonstrating how the method appears.</param>
            <returns>The method info for the called method.</returns>
        </member>
        <member name="M:Autofac.Util.ReflectionExtensions.GetConstructor``1(System.Linq.Expressions.Expression{System.Func{``0}})">
            <summary>
            Gets the <see cref="T:System.Reflection.ConstructorInfo"/> for the new operation called in the expression.
            </summary>
            <typeparam name="TDeclaring">The type on which the constructor is called.</typeparam>
            <param name="constructorCallExpression">Expression demonstrating how the constructor is called.</param>
            <returns>The <see cref="T:System.Reflection.ConstructorInfo"/> for the called constructor.</returns>
        </member>
        <member name="M:Autofac.Util.ReflectionExtensions.GetCustomAttribute``1(System.Reflection.MemberInfo,System.Boolean)">
            <summary>
            Retrieves a custom attribute of a specified type that is applied to a specified member,
            and optionally inspects the ancestors of that member.
            </summary>
            <typeparam name="T">The type of attribute to search for.</typeparam>
            <param name="element">The member to inspect.</param>
            <param name="inherit"><c>true</c> to inspect the ancestors of element; otherwise, <c>false</c>.</param>
            <returns>A custom attribute that matches <typeparamref name="T"/>, or <c>null</c> if no such attribute is found.</returns>
        </member>
        <member name="T:Autofac.Util.ReflectionExtensionsResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Util.ReflectionExtensionsResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Util.ReflectionExtensionsResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Util.ReflectionExtensionsResources.ExpressionNotConstructorCall">
            <summary>
              Looks up a localized string similar to The provided expression must be of the form () =&gt;new X(), but the provided expression was {0}..
            </summary>
        </member>
        <member name="P:Autofac.Util.ReflectionExtensionsResources.ExpressionNotMethodCall">
            <summary>
              Looks up a localized string similar to The provided expression must be of the form x =&gt;x.M(), but the provided expression was {0}..
            </summary>
        </member>
        <member name="P:Autofac.Util.ReflectionExtensionsResources.ExpressionNotPropertyAccessor">
            <summary>
              Looks up a localized string similar to The provided expression must be of the form x =&gt;x.P, but the provided expression was {0}..
            </summary>
        </member>
        <member name="T:Autofac.Util.ReleaseAction">
            <summary>
            Adapts an action to the <see cref="T:System.IDisposable"/> interface.
            </summary>
        </member>
        <member name="M:Autofac.Util.SequenceExtensions.JoinWith(System.Collections.Generic.IEnumerable{System.String},System.String)">
            <summary>
            Joins the strings into one single string interspersing the elements with the separator (a-la
            System.String.Join()).
            </summary>
            <param name="elements">The elements.</param>
            <param name="separator">The separator.</param>
            <returns>The joined string.</returns>
        </member>
        <member name="M:Autofac.Util.SequenceExtensions.Append``1(System.Collections.Generic.IEnumerable{``0},``0)">
            <summary>
            Appends the item to the specified sequence.
            </summary>
            <typeparam name="T"></typeparam>
            <param name="sequence">The sequence.</param>
            <param name="trailingItem">The trailing item.</param>
            <returns></returns>
        </member>
        <member name="M:Autofac.Util.SequenceExtensions.Prepend``1(System.Collections.Generic.IEnumerable{``0},``0)">
            <summary>
            Prepends the item to the specified sequence.
            </summary>
            <typeparam name="T"></typeparam>
            <param name="sequence">The sequence.</param>
            <param name="leadingItem">The leading item.</param>
            <returns></returns>
        </member>
        <member name="M:Autofac.Util.TypeExtensions.GetTypesThatClose(System.Type,System.Type)">
            <summary>Returns the first concrete interface supported by the candidate type that
            closes the provided open generic service type.</summary>
            <param name="this">The type that is being checked for the interface.</param>
            <param name="openGeneric">The open generic type to locate.</param>
            <returns>The type of the interface.</returns>
        </member>
        <member name="M:Autofac.Util.TypeExtensions.FindAssignableTypesThatClose(System.Type,System.Type)">
            <summary>
            Looks for an interface on the candidate type that closes the provided open generic interface type.
            </summary>
            <param name="candidateType">The type that is being checked for the interface.</param>
            <param name="openGenericServiceType">The open generic service type to locate.</param>
            <returns>True if a closed implementation was found; otherwise false.</returns>
        </member>
        <member name="M:Autofac.Features.GeneratedFactories.GeneratedFactoryRegistrationSource.RegistrationsFor(Autofac.Core.Service,System.Func{Autofac.Core.Service,System.Collections.Generic.IEnumerable{Autofac.Core.IComponentRegistration}})">
            <summary>
            Retrieve registrations for an unregistered service, to be used
            by the container.
            </summary>
            <param name="service">The service that was requested.</param>
            <param name="registrationAccessor">A function that will return existing registrations for a service.</param>
            <returns>Registrations providing the service.</returns>
        </member>
        <member name="T:Autofac.Util.ValidatedNotNullAttribute">
            <summary>
            Signal attribute for static analysis that indicates a helper method is
            validating arguments for <see langword="null" />.
            </summary>
        </member>
        <member name="T:Autofac.Features.GeneratedFactories.GeneratedFactoryRegistrationSourceResources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:Autofac.Features.GeneratedFactories.GeneratedFactoryRegistrationSourceResources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:Autofac.Features.GeneratedFactories.GeneratedFactoryRegistrationSourceResources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:Autofac.Features.GeneratedFactories.GeneratedFactoryRegistrationSourceResources.DuplicateTypesInTypeMappedFuncParameterList">
            <summary>
              Looks up a localized string similar to Unable to generate a function to return type &apos;{0}&apos; with input parameter types [{1}]. The input parameter type list has duplicate types. Try registering a custom delegate type instead of using a generic Func relationship..
            </summary>
        </member>
        <member name="P:Autofac.Features.GeneratedFactories.GeneratedFactoryRegistrationSourceResources.GeneratedFactoryRegistrationSourceDescription">
            <summary>
              Looks up a localized string similar to Delegate Support (Func&lt;T&gt;and Custom Delegates).
            </summary>
        </member>
    </members>
</doc>
tools\icsharp\Common.dll
 
tools\icsharp\Common.Logging.dll
 
tools\icsharp\Common.Logging.pdb
 
tools\icsharp\Common.Logging.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>Common.Logging</name>
    </assembly>
    <members>
        <member name="T:AssemblyDoc">
            <summary>
            This assembly contains the core functionality of the Common.Logging framework.
            In particular, checkout <see cref="T:Common.Logging.LogManager"/> and <see cref="T:Common.Logging.ILog"/> for usage information.
            </summary>
        </member>
        <member name="T:Common.Logging.Factory.AbstractLogger">
            <summary>
            Provides base implementation suitable for almost all logger adapters
            </summary>
            <author>Erich Eichinger</author>
        </member>
        <member name="T:Common.Logging.ILog">
            <summary>
            A simple logging interface abstracting logging APIs. 
            </summary>
            <remarks>
            <para>
            Implementations should defer calling a message's <see cref="M:System.Object.ToString"/> until the message really needs
            to be logged to avoid performance penalties.
            </para>
            <para>
            Each <see cref="T:Common.Logging.ILog"/> log method offers to pass in a <see cref="T:System.Action`1"/> instead of the actual message.
            Using this style has the advantage to defer possibly expensive message argument evaluation and formatting (and formatting arguments!) until the message gets
            actually logged. If the message is not logged at all (e.g. due to <see cref="T:Common.Logging.LogLevel"/> settings), 
            you won't have to pay the peformance penalty of creating the message.
            </para>
            </remarks>
            <example>
            The example below demonstrates using callback style for creating the message, where the call to the 
            <see cref="M:System.Random.NextDouble"/> and the underlying <see cref="M:System.String.Format(System.String,System.Object[])"/> only happens, if level <see cref="F:Common.Logging.LogLevel.Debug"/> is enabled:
            <code>
            Log.Debug( m=&gt;m("result is {0}", random.NextDouble()) );
            Log.Debug(delegate(m) { m("result is {0}", random.NextDouble()); });
            </code>
            </example>
            <seealso cref="T:System.Action`1"/>
            <author>Mark Pollack</author>
            <author>Bruno Baia</author>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.ILog.Trace(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.ILog.Trace(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Trace"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.TraceFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.TraceFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.TraceFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.TraceFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.Trace(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Trace(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Trace(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Trace(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Debug(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.ILog.Debug(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Debug"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.DebugFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.DebugFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.DebugFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.DebugFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.Debug(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Debug(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Debug(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Debug(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Debug.</param>
        </member>
        <member name="M:Common.Logging.ILog.Info(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.ILog.Info(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Info"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.InfoFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.InfoFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.InfoFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.InfoFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.Info(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Info(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Info(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Info(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Info.</param>
        </member>
        <member name="M:Common.Logging.ILog.Warn(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.ILog.Warn(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Warn"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.WarnFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.WarnFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.WarnFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.WarnFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.Warn(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Warn(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Warn(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Warn(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Warn.</param>
        </member>
        <member name="M:Common.Logging.ILog.Error(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.ILog.Error(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Error"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.ErrorFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.ErrorFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.ErrorFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.ErrorFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.Error(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Error(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Error(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Error(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Error.</param>
        </member>
        <member name="M:Common.Logging.ILog.Fatal(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.ILog.Fatal(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.FatalFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.FatalFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.ILog.FatalFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.FatalFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.ILog.Fatal(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Fatal(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.ILog.Fatal(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.ILog.Fatal(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Fatal.</param>
        </member>
        <member name="P:Common.Logging.ILog.IsTraceEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
        </member>
        <member name="P:Common.Logging.ILog.IsDebugEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
        </member>
        <member name="P:Common.Logging.ILog.IsErrorEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
        </member>
        <member name="P:Common.Logging.ILog.IsFatalEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
        </member>
        <member name="P:Common.Logging.ILog.IsInfoEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
        </member>
        <member name="P:Common.Logging.ILog.IsWarnEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
        </member>
        <member name="F:Common.Logging.Factory.AbstractLogger.Write">
            <summary>
            Holds the method for writing a message to the log system.
            </summary>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.#ctor">
            <summary>
            Creates a new logger instance using <see cref="M:Common.Logging.Factory.AbstractLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)"/> for 
            writing log events to the underlying log system.
            </summary>
            <seealso cref="M:Common.Logging.Factory.AbstractLogger.GetWriteHandler"/>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.GetWriteHandler">
            <summary>
            Override this method to use a different method than <see cref="M:Common.Logging.Factory.AbstractLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)"/> 
            for writing log events to the underlying log system.
            </summary>
            <remarks>
            Usually you don't need to override thise method. The default implementation returns
            <c>null</c> to indicate that the default handler <see cref="M:Common.Logging.Factory.AbstractLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)"/> should be 
            used.
            </remarks>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)">
            <summary>
            Actually sends the message to the underlying log system.
            </summary>
            <param name="level">the level of this log event.</param>
            <param name="message">the message to log</param>
            <param name="exception">the exception to log (may be null)</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Trace(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Trace(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Trace"/> level including
            the stack trace of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.TraceFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.TraceFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.TraceFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.TraceFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Trace(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Trace(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Trace(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Trace(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Trace"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Debug(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Debug(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Debug"/> level including
            the stack Debug of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack Debug.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.DebugFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.DebugFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.DebugFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.DebugFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Debug(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Debug(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Debug.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Debug(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Debug(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Debug"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Debug.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Info(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Info(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Info"/> level including
            the stack Info of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack Info.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.InfoFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.InfoFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.InfoFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.InfoFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Info(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Info(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Info.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Info(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Info(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Info"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Info.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Warn(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Warn(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Warn"/> level including
            the stack Warn of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack Warn.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.WarnFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Warnrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.WarnFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Warnrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.WarnFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.WarnFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Warn(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Warn(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Warn.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Warn(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Warn(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Warn"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Warn.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Error(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Error(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Error"/> level including
            the stack Error of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack Error.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.ErrorFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Errorrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.ErrorFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Errorrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.ErrorFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.ErrorFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Error(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Error(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Error.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Error(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Error(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Error"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Error.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Fatal(System.Object)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="message">The message object to log.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Fatal(System.Object,System.Exception)">
            <summary>
            Log a message object with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level including
            the stack Fatal of the <see cref="T:System.Exception"/> passed
            as a parameter.
            </summary>
            <param name="message">The message object to log.</param>
            <param name="exception">The exception to log, including its stack Fatal.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FatalFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Fatalrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FatalFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Fatalrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FatalFormat(System.String,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FatalFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of format arguments</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Fatal(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Fatal(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Fatal.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Fatal(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.Fatal(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Log a message with the <see cref="F:Common.Logging.LogLevel.Fatal"/> level using a callback to obtain the message
            </summary>
            <remarks>
            Using this method avoids the cost of creating a message and evaluating message arguments 
            that probably won't be logged due to loglevel settings.
            </remarks>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Fatal.</param>
        </member>
        <member name="P:Common.Logging.Factory.AbstractLogger.IsTraceEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Trace"/> level.
            </summary>
            <remarks>
            Override this in your derived class to comply with the underlying logging system
            </remarks>
        </member>
        <member name="P:Common.Logging.Factory.AbstractLogger.IsDebugEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Debug"/> level.
            </summary>
            <remarks>
            Override this in your derived class to comply with the underlying logging system
            </remarks>
        </member>
        <member name="P:Common.Logging.Factory.AbstractLogger.IsInfoEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Info"/> level.
            </summary>
            <remarks>
            Override this in your derived class to comply with the underlying logging system
            </remarks>
        </member>
        <member name="P:Common.Logging.Factory.AbstractLogger.IsWarnEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Warn"/> level.
            </summary>
            <remarks>
            Override this in your derived class to comply with the underlying logging system
            </remarks>
        </member>
        <member name="P:Common.Logging.Factory.AbstractLogger.IsErrorEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Error"/> level.
            </summary>
            <remarks>
            Override this in your derived class to comply with the underlying logging system
            </remarks>
        </member>
        <member name="P:Common.Logging.Factory.AbstractLogger.IsFatalEnabled">
            <summary>
            Checks if this logger is enabled for the <see cref="F:Common.Logging.LogLevel.Fatal"/> level.
            </summary>
            <remarks>
            Override this in your derived class to comply with the underlying logging system
            </remarks>
        </member>
        <member name="T:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage">
            <summary>
            Format message on demand.
            </summary>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage.#ctor(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage"/> class.
            </summary>
            <param name="formatMessageCallback">The format message callback.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage.#ctor(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage"/> class.
            </summary>
            <param name="formatProvider">The format provider.</param>
            <param name="formatMessageCallback">The format message callback.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage.ToString">
            <summary>
            Calls <see cref="F:Common.Logging.Factory.AbstractLogger.FormatMessageCallbackFormattedMessage.formatMessageCallback"/> and returns result.
            </summary>
            <returns></returns>
        </member>
        <member name="T:Common.Logging.Factory.AbstractLogger.StringFormatFormattedMessage">
            <summary>
            Format string on demand.
            </summary>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.StringFormatFormattedMessage.#ctor(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Factory.AbstractLogger.StringFormatFormattedMessage"/> class.
            </summary>
            <param name="formatProvider">The format provider.</param>
            <param name="message">The message.</param>
            <param name="args">The args.</param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractLogger.StringFormatFormattedMessage.ToString">
            <summary>
            Runs <see cref="M:System.String.Format(System.IFormatProvider,System.String,System.Object[])"/> on supplied arguemnts.
            </summary>
            <returns>string</returns>
        </member>
        <member name="T:Common.Logging.Factory.AbstractLogger.WriteHandler">
            <summary>
            Represents a method responsible for writing a message to the log system.
            </summary>
        </member>
        <member name="T:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter">
            <summary>
            An implementation of <see cref="T:Common.Logging.ILoggerFactoryAdapter"/> that caches loggers handed out by this factory.
            </summary>
            <remarks>
            Implementors just need to override <see cref="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.CreateLogger(System.String)"/>.
            </remarks>
            <author>Erich Eichinger</author>
        </member>
        <member name="T:Common.Logging.ILoggerFactoryAdapter">
            <summary>
            LoggerFactoryAdapter interface is used internally by LogManager
            Only developers wishing to write new Common.Logging adapters need to
            worry about this interface.
            </summary>
            <author>Gilles Bayon</author>
        </member>
        <member name="M:Common.Logging.ILoggerFactoryAdapter.GetLogger(System.Type)">
            <summary>
            Get a ILog instance by type.
            </summary>
            <param name="type">The type to use for the logger</param>
            <returns></returns>
        </member>
        <member name="M:Common.Logging.ILoggerFactoryAdapter.GetLogger(System.String)">
            <summary>
            Get a ILog instance by name.
            </summary>
            <param name="name">The name of the logger</param>
            <returns></returns>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.#ctor">
            <summary>
            Creates a new instance, the logger cache being case-sensitive.
            </summary>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.#ctor(System.Boolean)">
            <summary>
            Creates a new instance, the logger cache being <paramref name="caseSensitiveLoggerCache"/>.
            </summary>
            <param name="caseSensitiveLoggerCache"></param>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.ClearLoggerCache">
            <summary>
            Purges all loggers from cache
            </summary>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.CreateLogger(System.String)">
            <summary>
            Create the specified named logger instance
            </summary>
            <remarks>
            Derived factories need to implement this method to create the
            actual logger instance.
            </remarks>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.GetLogger(System.Type)">
            <summary>
            Get a ILog instance by <see cref="T:System.Type"/>.
            </summary>
            <param name="type">Usually the <see cref="T:System.Type"/> of the current class.</param>
            <returns>
            An ILog instance either obtained from the internal cache or created by a call to <see cref="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.CreateLogger(System.String)"/>.
            </returns>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.GetLogger(System.String)">
            <summary>
            Get a ILog instance by name.
            </summary>
            <param name="name">Usually a <see cref="T:System.Type"/>'s Name or FullName property.</param>
            <returns>
            An ILog instance either obtained from the internal cache or created by a call to <see cref="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.CreateLogger(System.String)"/>.
            </returns>
        </member>
        <member name="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.GetLoggerInternal(System.String)">
            <summary>
            Get or create a ILog instance by name.
            </summary>
            <param name="name">Usually a <see cref="T:System.Type"/>'s Name or FullName property.</param>
            <returns>
            An ILog instance either obtained from the internal cache or created by a call to <see cref="M:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter.CreateLogger(System.String)"/>.
            </returns>
        </member>
        <member name="T:Common.Logging.Simple.CapturingLogger">
            <summary>
            A logger created by <see cref="T:Common.Logging.Simple.CapturingLoggerFactoryAdapter"/> that 
            sends all log events to the owning adapter's <see cref="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.AddEvent(Common.Logging.Simple.CapturingLoggerEvent)"/>
            </summary>
            <author>Erich Eichinger</author>
        </member>
        <member name="T:Common.Logging.Simple.AbstractSimpleLogger">
            <summary>
            Abstract class providing a standard implementation of simple loggers.
            </summary>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLogger.#ctor(System.String,Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Creates and initializes a the simple logger.
            </summary>
            <param name="logName">The name, usually type name of the calling class, of the logger.</param>
            <param name="logLevel">The current logging threshold. Messages recieved that are beneath this threshold will not be logged.</param>
            <param name="showlevel">Include level in the log message.</param>
            <param name="showDateTime">Include the current time in the log message.</param>
            <param name="showLogName">Include the instance name in the log message.</param>
            <param name="dateTimeFormat">The date and time format to use in the log message.</param>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLogger.FormatOutput(System.Text.StringBuilder,Common.Logging.LogLevel,System.Object,System.Exception)">
            <summary>
            Appends the formatted message to the specified <see cref="T:System.Text.StringBuilder"/>.
            </summary>
            <param name="stringBuilder">the <see cref="T:System.Text.StringBuilder"/> that receíves the formatted message.</param>
            <param name="level"></param>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLogger.IsLevelEnabled(Common.Logging.LogLevel)">
            <summary>
            Determines if the given log level is currently enabled.
            </summary>
            <param name="level"></param>
            <returns></returns>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.Name">
            <summary>
            The name of the logger.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.ShowLevel">
            <summary>
            Include the current log level in the log message.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.ShowDateTime">
            <summary>
            Include the current time in the log message.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.ShowLogName">
            <summary>
            Include the instance name in the log message.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.CurrentLogLevel">
            <summary>
            The current logging threshold. Messages recieved that are beneath this threshold will not be logged.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.DateTimeFormat">
            <summary>
            The date and time format to use in the log message.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.HasDateTimeFormat">
            <summary>
            Determines Whether <see cref="P:Common.Logging.Simple.AbstractSimpleLogger.DateTimeFormat"/> is set.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.IsTraceEnabled">
            <summary>
            Returns <see langword="true"/> if the current <see cref="T:Common.Logging.LogLevel"/> is greater than or
            equal to <see cref="F:Common.Logging.LogLevel.Trace"/>. If it is, all messages will be sent to <see cref="P:System.Console.Out"/>.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.IsDebugEnabled">
            <summary>
            Returns <see langword="true"/> if the current <see cref="T:Common.Logging.LogLevel"/> is greater than or
            equal to <see cref="F:Common.Logging.LogLevel.Debug"/>. If it is, all messages will be sent to <see cref="P:System.Console.Out"/>.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.IsInfoEnabled">
            <summary>
            Returns <see langword="true"/> if the current <see cref="T:Common.Logging.LogLevel"/> is greater than or
            equal to <see cref="F:Common.Logging.LogLevel.Info"/>. If it is, only messages with a <see cref="T:Common.Logging.LogLevel"/> of
            <see cref="F:Common.Logging.LogLevel.Info"/>, <see cref="F:Common.Logging.LogLevel.Warn"/>, <see cref="F:Common.Logging.LogLevel.Error"/>, and 
            <see cref="F:Common.Logging.LogLevel.Fatal"/> will be sent to <see cref="P:System.Console.Out"/>.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.IsWarnEnabled">
            <summary>
            Returns <see langword="true"/> if the current <see cref="T:Common.Logging.LogLevel"/> is greater than or
            equal to <see cref="F:Common.Logging.LogLevel.Warn"/>. If it is, only messages with a <see cref="T:Common.Logging.LogLevel"/> of
            <see cref="F:Common.Logging.LogLevel.Warn"/>, <see cref="F:Common.Logging.LogLevel.Error"/>, and <see cref="F:Common.Logging.LogLevel.Fatal"/> 
            will be sent to <see cref="P:System.Console.Out"/>.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.IsErrorEnabled">
            <summary>
            Returns <see langword="true"/> if the current <see cref="T:Common.Logging.LogLevel"/> is greater than or
            equal to <see cref="F:Common.Logging.LogLevel.Error"/>. If it is, only messages with a <see cref="T:Common.Logging.LogLevel"/> of
            <see cref="F:Common.Logging.LogLevel.Error"/> and <see cref="F:Common.Logging.LogLevel.Fatal"/> will be sent to <see cref="P:System.Console.Out"/>.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLogger.IsFatalEnabled">
            <summary>
            Returns <see langword="true"/> if the current <see cref="T:Common.Logging.LogLevel"/> is greater than or
            equal to <see cref="F:Common.Logging.LogLevel.Fatal"/>. If it is, only messages with a <see cref="T:Common.Logging.LogLevel"/> of
            <see cref="F:Common.Logging.LogLevel.Fatal"/> will be sent to <see cref="P:System.Console.Out"/>.
            </summary>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLogger.Owner">
            <summary>
            The adapter that created this logger instance.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLogger.Clear">
            <summary>
            Clears all captured events
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLogger.ClearLastEvent">
            <summary>
            Resets the <see cref="P:Common.Logging.Simple.CapturingLogger.LastEvent"/> to <c>null</c>.
            </summary>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLogger.LoggerEvents">
            <summary>
            Holds the list of logged events.
            </summary>
            <remarks>
            To access this collection in a multithreaded application, put a lock on the list instance.
            </remarks>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLogger.AddEvent(Common.Logging.Simple.CapturingLoggerEvent)">
            <summary>
            <see cref="T:Common.Logging.Simple.CapturingLogger"/> instances send their captured log events to this method.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLogger.#ctor(Common.Logging.Simple.CapturingLoggerFactoryAdapter,System.String)">
            <summary>
            Create a new logger instance.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)">
            <summary>
            Create a new <see cref="T:Common.Logging.Simple.CapturingLoggerEvent"/> and send it to <see cref="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.AddEvent(Common.Logging.Simple.CapturingLoggerEvent)"/>
            </summary>
            <param name="level"></param>
            <param name="message"></param>
            <param name="exception"></param>
        </member>
        <member name="P:Common.Logging.Simple.CapturingLogger.LastEvent">
            <summary>
            Holds the last log event received from any of this adapter's loggers.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.CapturingLoggerEvent">
            <summary>
            A logging event captured by <see cref="T:Common.Logging.Simple.CapturingLogger"/>
            </summary>
            <author>Erich Eichinger</author>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLoggerEvent.Source">
            <summary>
            The logger that logged this event
            </summary>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLoggerEvent.Level">
            <summary>
            The level used to log this event
            </summary>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLoggerEvent.MessageObject">
            <summary>
            The raw message object
            </summary>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLoggerEvent.Exception">
            <summary>
            A logged exception
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLoggerEvent.#ctor(Common.Logging.Simple.CapturingLogger,Common.Logging.LogLevel,System.Object,System.Exception)">
            <summary>
            Create a new event instance
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.CapturingLoggerEvent.RenderedMessage">
            <summary>
            Retrieves the formatted message text
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.CapturingLoggerFactoryAdapter">
            <summary>
            An adapter, who's loggers capture all log events and send them to <see cref="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.AddEvent(Common.Logging.Simple.CapturingLoggerEvent)"/>. 
            Retrieve the list of log events from <see cref="F:Common.Logging.Simple.CapturingLoggerFactoryAdapter.LoggerEvents"/>.
            </summary>
            <remarks>
            This logger factory is mainly for debugging and test purposes.
            <example>
            This is an example how you might use this adapter for testing:
            <code>
            // configure for capturing
            CapturingLoggerFactoryAdapter adapter = new CapturingLoggerFactoryAdapter();
            LogManager.Adapter = adapter;
            
            // reset capture state
            adapter.Clear();
            // log something
            ILog log = LogManager.GetCurrentClassLogger();
            log.DebugFormat("Current Time:{0}", DateTime.Now);
            
            // check logged data
            Assert.AreEqual(1, adapter.LoggerEvents.Count);
            Assert.AreEqual(LogLevel.Debug, adapter.LastEvent.Level);
            </code>
            </example>
            </remarks>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.Clear">
            <summary>
            Clears all captured events
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.ClearLastEvent">
            <summary>
            Resets the <see cref="P:Common.Logging.Simple.CapturingLoggerFactoryAdapter.LastEvent"/> to <c>null</c>.
            </summary>
        </member>
        <member name="F:Common.Logging.Simple.CapturingLoggerFactoryAdapter.LoggerEvents">
            <summary>
            Holds the list of logged events.
            </summary>
            <remarks>
            To access this collection in a multithreaded application, put a lock on the list instance.
            </remarks>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.AddEvent(Common.Logging.Simple.CapturingLoggerEvent)">
            <summary>
            <see cref="T:Common.Logging.Simple.CapturingLogger"/> instances send their captured log events to this method.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.GetLogger(System.Type)">
            <summary>
            Get a <see cref="T:Common.Logging.Simple.CapturingLogger"/> instance for the given type.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CapturingLoggerFactoryAdapter.GetLogger(System.String)">
            <summary>
            Get a <see cref="T:Common.Logging.Simple.CapturingLogger"/> instance for the given name.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.CapturingLoggerFactoryAdapter.LastEvent">
            <summary>
            Holds the last log event received from any of this adapter's loggers.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.CommonLoggingTraceListener">
            <summary>
            A <see cref="T:System.Diagnostics.TraceListener"/> implementation sending all <see cref="T:System.Diagnostics.Trace">System.Diagnostics.Trace</see> output to 
            the Common.Logging infrastructure.
            </summary>
            <remarks>
            This listener captures all output sent by calls to <see cref="T:System.Diagnostics.Trace">System.Diagnostics.Trace</see> and
            and <see cref="T:System.Diagnostics.TraceSource"/> and sends it to an <see cref="T:Common.Logging.ILog"/> instance.<br/>
            The <see cref="T:Common.Logging.ILog"/> instance to be used is obtained by calling
            <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>. The name of the logger is created by passing 
            this listener's <see cref="P:System.Diagnostics.TraceListener.Name"/> and any <c>source</c> or <c>category</c> passed 
            into this listener (see <see cref="M:System.Diagnostics.TraceListener.WriteLine(System.Object,System.String)"/> or <see cref="M:System.Diagnostics.TraceListener.TraceEvent(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32,System.String,System.Object[])"/> for example).
            </remarks>
            <example>
            The snippet below shows how to add and configure this listener to your app.config:
            <code lang="XML">
            &lt;system.diagnostics&gt;
              &lt;sharedListeners&gt;
                &lt;add name="Diagnostics"
                     type="Common.Logging.Simple.CommonLoggingTraceListener, Common.Logging"
                     initializeData="DefaultTraceEventType=Information; LoggerNameFormat={listenerName}.{sourceName}"&gt;
                  &lt;filter type="System.Diagnostics.EventTypeFilter" initializeData="Information"/&gt;
                &lt;/add&gt;
              &lt;/sharedListeners&gt;
              &lt;trace&gt;
                &lt;listeners&gt;
                  &lt;add name="Diagnostics" /&gt;
                &lt;/listeners&gt;
              &lt;/trace&gt;
            &lt;/system.diagnostics&gt;
            </code>
            </example>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.#ctor">
            <summary>
            Creates a new instance with the default name "Diagnostics" and <see cref="T:Common.Logging.LogLevel"/> "Trace".
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.#ctor(System.String)">
            <summary>
            Creates a new instance initialized with properties from the <paramref name="initializeData"/>. string.
            </summary>
            <remarks>
            <paramref name="initializeData"/> is a semicolon separated string of name/value pairs, where each pair has
            the form <c>key=value</c>. E.g.
            "<c>Name=MyLoggerName;LogLevel=Debug</c>"
            </remarks>
            <param name="initializeData">a semicolon separated list of name/value pairs.</param>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.#ctor(System.Collections.Specialized.NameValueCollection)">
            <summary>
            Creates a new instance initialized with the specified properties.
            </summary>
            <param name="properties">name/value configuration properties.</param>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.Log(System.Diagnostics.TraceEventType,System.String,System.Int32,System.String,System.Object[])">
            <summary>
            Logs the given message to the Common.Logging infrastructure.
            </summary>
            <param name="eventType">the eventType</param>
            <param name="source">the <see cref="T:System.Diagnostics.TraceSource"/> name or category name passed into e.g. <see cref="M:System.Diagnostics.Trace.Write(System.Object,System.String)"/>.</param>
            <param name="id">the id of this event</param>
            <param name="format">the message format</param>
            <param name="args">the message arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.Write(System.Object)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.Write(System.Object,System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.Write(System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.Write(System.String,System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.WriteLine(System.Object)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.WriteLine(System.Object,System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.WriteLine(System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.WriteLine(System.String,System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.TraceEvent(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.TraceEvent(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32,System.String)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.TraceEvent(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32,System.String,System.Object[])">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.TraceData(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32,System.Object[])">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.CommonLoggingTraceListener.TraceData(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32,System.Object)">
            <summary>
            Writes message to logger provided by <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/>
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.CommonLoggingTraceListener.DefaultTraceEventType">
            <summary>
            Sets the default <see cref="T:System.Diagnostics.TraceEventType"/> to use for logging
            all events emitted by <see cref="T:System.Diagnostics.Trace"/><c>.Write(...)</c> and
            <see cref="T:System.Diagnostics.Trace"/><c>.WriteLine(...)</c> methods.
            </summary>
            <remarks>
            This listener captures all output sent by calls to <see cref="T:System.Diagnostics.Trace"/> and
            sends it to an <see cref="T:Common.Logging.ILog"/> instance using the <see cref="T:Common.Logging.LogLevel"/> specified
            on <see cref="T:Common.Logging.LogLevel"/>.
            </remarks>
        </member>
        <member name="P:Common.Logging.Simple.CommonLoggingTraceListener.LoggerNameFormat">
            <summary>
            Format to use for creating the logger name. Defaults to "{listenerName}.{sourceName}".
            </summary>
            <remarks>
            Available placeholders are:
            <list type="bullet">
            <item>{listenerName}: the configured name of this listener instance.</item>
            <item>{sourceName}: the trace source name an event originates from (see e.g. <see cref="M:System.Diagnostics.TraceListener.TraceEvent(System.Diagnostics.TraceEventCache,System.String,System.Diagnostics.TraceEventType,System.Int32,System.String,System.Object[])"/>.</item>
            </list>
            </remarks>
        </member>
        <member name="T:Common.Logging.ConfigurationException">
            <summary>
            The exception that is thrown when a configuration system error has occurred with Common.Logging
            </summary>
            <author>Mark Pollack</author>
        </member>
        <member name="M:Common.Logging.ConfigurationException.#ctor">
            <summary>Creates a new instance of the ObjectsException class.</summary>
        </member>
        <member name="M:Common.Logging.ConfigurationException.#ctor(System.String)">
            <summary>
            Creates a new instance of the ConfigurationException class. with the specified message.
            </summary>
            <param name="message">
            A message about the exception.
            </param>
        </member>
        <member name="M:Common.Logging.ConfigurationException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new instance of the ConfigurationException class with the specified message
            and root cause.
            </summary>
            <param name="message">
            A message about the exception.
            </param>
            <param name="rootCause">
            The root exception that is being wrapped.
            </param>
        </member>
        <member name="M:Common.Logging.ConfigurationException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Creates a new instance of the ConfigurationException class.
            </summary>
            <param name="info">
            The <see cref="T:System.Runtime.Serialization.SerializationInfo"/>
            that holds the serialized object data about the exception being thrown.
            </param>
            <param name="context">
            The <see cref="T:System.Runtime.Serialization.StreamingContext"/>
            that contains contextual information about the source or destination.
            </param>
        </member>
        <member name="T:Common.Logging.Configuration.DefaultConfigurationReader">
            <summary>
            Implementation of <see cref="T:Common.Logging.IConfigurationReader"/> that uses the standard .NET 
            configuration APIs, ConfigurationSettings in 1.x and ConfigurationManager in 2.0
            </summary>
            <author>Mark Pollack</author>
        </member>
        <member name="T:Common.Logging.IConfigurationReader">
            <summary>
            Interface for basic operations to read .NET application configuration information.
            </summary>
            <remarks>Provides a simple abstraction to handle BCL API differences between .NET 1.x and 2.0. Also
            useful for testing scenarios.</remarks>
            <author>Mark Pollack</author>
        </member>
        <member name="M:Common.Logging.IConfigurationReader.GetSection(System.String)">
            <summary>
            Parses the configuration section and returns the resulting object.
            </summary>
            <remarks>
            <p>
            Primary purpose of this method is to allow us to parse and 
            load configuration sections using the same API regardless
            of the .NET framework version.
            </p>
            </remarks>
            <param name="sectionName">Name of the configuration section.</param>
            <returns>Object created by a corresponding <see cref="T:System.Configuration.IConfigurationSectionHandler"/>.</returns>
            <see cref="T:Common.Logging.ConfigurationSectionHandler"/>
        </member>
        <member name="M:Common.Logging.Configuration.DefaultConfigurationReader.GetSection(System.String)">
            <summary>
            Parses the configuration section and returns the resulting object.
            </summary>
            <param name="sectionName">Name of the configuration section.</param>
            <returns>
            Object created by a corresponding <see cref="T:System.Configuration.IConfigurationSectionHandler"/>.
            </returns>
            <remarks>
            	<p>
            Primary purpose of this method is to allow us to parse and
            load configuration sections using the same API regardless
            of the .NET framework version.
            </p>
            </remarks>
            <see cref="T:Common.Logging.ConfigurationSectionHandler"/>
        </member>
        <member name="T:Common.Logging.Factory.NamespaceDoc">
            <summary>
            This namespace contains convenience base classes for implementing your own <see cref="T:Common.Logging.ILoggerFactoryAdapter"/>s.
            </summary>
        </member>
        <member name="T:Common.Logging.Configuration.ArgUtils">
            <summary>
            Various utility methods for using during factory and logger instance configuration
            </summary>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.#cctor">
            <summary>
            Initialize all members before any of this class' methods can be accessed (avoids beforeFieldInit)
            </summary>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.RegisterTypeParser``1(Common.Logging.Configuration.ArgUtils.ParseHandler{``0})">
            <summary>
            Adds the parser to the list of known type parsers.
            </summary>
            <remarks>
            .NET intrinsic types are pre-registerd: short, int, long, float, double, decimal, bool
            </remarks>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.GetValue(System.Collections.Specialized.NameValueCollection,System.String)">
            <summary>
            Retrieves the named value from the specified <see cref="T:System.Collections.Specialized.NameValueCollection"/>.
            </summary>
            <param name="values">may be null</param>
            <param name="name">the value's key</param>
            <returns>if <paramref name="values"/> is not null, the value returned by values[name]. <c>null</c> otherwise.</returns>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.GetValue(System.Collections.Specialized.NameValueCollection,System.String,System.String)">
            <summary>
            Retrieves the named value from the specified <see cref="T:System.Collections.Specialized.NameValueCollection"/>.
            </summary>
            <param name="values">may be null</param>
            <param name="name">the value's key</param>
            <param name="defaultValue">the default value, if not found</param>
            <returns>if <paramref name="values"/> is not null, the value returned by values[name]. <c>null</c> otherwise.</returns>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.Coalesce(System.String[])">
            <summary>
            Returns the first nonnull, nonempty value among its arguments.
            </summary>
            <remarks>
            Returns <c>null</c>, if the initial list was null or empty.
            </remarks>
            <seealso cref="M:Common.Logging.Configuration.ArgUtils.Coalesce``1(System.Predicate{``0},``0[])"/>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.Coalesce``1(System.Predicate{``0},``0[])">
            <summary>
            Returns the first nonnull, nonempty value among its arguments.
            </summary>
            <remarks>
            Also 
            </remarks>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.TryParseEnum``1(``0,System.String)">
            <summary>
            Tries parsing <paramref name="stringValue"/> into an enum of the type of <paramref name="defaultValue"/>.
            </summary>
            <param name="defaultValue">the default value to return if parsing fails</param>
            <param name="stringValue">the string value to parse</param>
            <returns>the successfully parsed value, <paramref name="defaultValue"/> otherwise.</returns>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.TryParse``1(``0,System.String)">
            <summary>
            Tries parsing <paramref name="stringValue"/> into the specified return type.
            </summary>
            <param name="defaultValue">the default value to return if parsing fails</param>
            <param name="stringValue">the string value to parse</param>
            <returns>the successfully parsed value, <paramref name="defaultValue"/> otherwise.</returns>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.AssertNotNull``1(System.String,``0)">
            <summary>
            Throws a <see cref="T:System.ArgumentNullException"/> if <paramref name="val"/> is <c>null</c>.
            </summary>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.AssertNotNull``1(System.String,``0,System.String,System.Object[])">
            <summary>
            Throws a <see cref="T:System.ArgumentNullException"/> if <paramref name="val"/> is <c>null</c>.
            </summary>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.AssertIsAssignable``1(System.String,System.Type)">
            <summary>
            Throws a <see cref="T:System.ArgumentOutOfRangeException"/> if an object of type <paramref name="valType"/> is not
            assignable to type <typeparam name="T"></typeparam>.
            </summary>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.AssertIsAssignable``1(System.String,System.Type,System.String,System.Object[])">
            <summary>
            Throws a <see cref="T:System.ArgumentOutOfRangeException"/> if an object of type <paramref name="valType"/> is not
            assignable to type <typeparam name="T"></typeparam>.
            </summary>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.Guard(Common.Logging.Configuration.ArgUtils.Action,System.String,System.Object[])">
            <summary>
            Ensures any exception thrown by the given <paramref name="action"/> is wrapped with an
            <see cref="T:Common.Logging.ConfigurationException"/>. 
            </summary>
            <remarks>
            If <paramref name="action"/> already throws a ConfigurationException, it will not be wrapped.
            </remarks>
            <param name="action">the action to execute</param>
            <param name="messageFormat">the message to be set on the thrown <see cref="T:Common.Logging.ConfigurationException"/></param>
            <param name="args">args to be passed to <see cref="M:System.String.Format(System.String,System.Object[])"/> to format the message</param>
        </member>
        <member name="M:Common.Logging.Configuration.ArgUtils.Guard``1(Common.Logging.Configuration.ArgUtils.Function{``0},System.String,System.Object[])">
            <summary>
            Ensures any exception thrown by the given <paramref name="function"/> is wrapped with an
            <see cref="T:Common.Logging.ConfigurationException"/>. 
            </summary>
            <remarks>
            If <paramref name="function"/> already throws a ConfigurationException, it will not be wrapped.
            </remarks>
            <param name="function">the action to execute</param>
            <param name="messageFormat">the message to be set on the thrown <see cref="T:Common.Logging.ConfigurationException"/></param>
            <param name="args">args to be passed to <see cref="M:System.String.Format(System.String,System.Object[])"/> to format the message</param>
        </member>
        <member name="T:Common.Logging.Configuration.ArgUtils.ParseHandler`1">
            <summary>
            A delegate converting a string representation into the target type
            </summary>
        </member>
        <member name="T:Common.Logging.Configuration.ArgUtils.Action">
            <summary>
            An anonymous action delegate with no arguments and no return value.
            </summary>
            <seealso cref="M:Common.Logging.Configuration.ArgUtils.Guard(Common.Logging.Configuration.ArgUtils.Action,System.String,System.Object[])"/>
        </member>
        <member name="T:Common.Logging.Configuration.ArgUtils.Function`1">
            <summary>
            An anonymous action delegate with no arguments and no return value.
            </summary>
            <seealso cref="M:Common.Logging.Configuration.ArgUtils.Guard``1(Common.Logging.Configuration.ArgUtils.Function{``0},System.String,System.Object[])"/>
        </member>
        <member name="T:Common.Logging.FormatMessageHandler">
            <summary>
             The type of method that is passed into e.g. <see cref="M:Common.Logging.ILog.Debug(System.Action{Common.Logging.FormatMessageHandler})"/> 
             and allows the callback method to "submit" it's message to the underlying output system.
            </summary>
            <param name="format">the format argument as in <see cref="M:System.String.Format(System.String,System.Object[])"/></param>
            <param name="args">the argument list as in <see cref="M:System.String.Format(System.String,System.Object[])"/></param>
            <seealso cref="T:Common.Logging.ILog"/>
             <author>Erich Eichinger</author>
        </member>
        <member name="T:Common.Logging.ConfigurationSectionHandler">
            <summary>
            Used in an application's configuration file (App.Config or Web.Config) to configure the logging subsystem.
            </summary>
            <example>
            An example configuration section that writes log messages to the Console using the
            built-in Console Logger.
            <code lang="XML">
            &lt;configuration&gt;
                &lt;configSections&gt;
                  &lt;sectionGroup name=&quot;common&quot;&gt;
                    &lt;section name=&quot;logging&quot; type=&quot;Common.Logging.ConfigurationSectionHandler, Common.Logging&quot; /&gt;
                  &lt;/sectionGroup&gt; 
                &lt;/configSections&gt;
                &lt;common&gt;
                  &lt;logging&gt;
                    &lt;factoryAdapter type=&quot;Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter, Common.Logging&quot;&gt;
                      &lt;arg key=&quot;showLogName&quot; value=&quot;true&quot; /&gt;
                      &lt;arg key=&quot;showDataTime&quot; value=&quot;true&quot; /&gt;
                      &lt;arg key=&quot;level&quot; value=&quot;ALL&quot; /&gt;
                      &lt;arg key=&quot;dateTimeFormat&quot; value=&quot;yyyy/MM/dd HH:mm:ss:fff&quot; /&gt;
                    &lt;/factoryAdapter&gt;
                  &lt;/logging&gt;
                &lt;/common&gt;
            &lt;/configuration&gt;
            </code>
            </example>
        </member>
        <member name="M:Common.Logging.ConfigurationSectionHandler.#cctor">
            <summary>
            Ensure static fields get initialized before any class member 
            can be accessed (avoids beforeFieldInit)
            </summary>
        </member>
        <member name="M:Common.Logging.ConfigurationSectionHandler.#ctor">
            <summary>
            Constructor
            </summary>
        </member>
        <member name="M:Common.Logging.ConfigurationSectionHandler.ReadConfiguration(System.Xml.XmlNode)">
            <summary>
            Retrieves the <see cref="T:System.Type"/> of the logger the use by looking at the logFactoryAdapter element
            of the logging configuration element.
            </summary>
            <param name="section"></param>
            <returns>
            A <see cref="T:Common.Logging.Configuration.LogSetting"/> object containing the specified type that implements 
            <see cref="T:Common.Logging.ILoggerFactoryAdapter"/> along with zero or more properties that will be 
            passed to the logger factory adapter's constructor as an <see cref="T:System.Collections.IDictionary"/>.
            </returns>
        </member>
        <member name="M:Common.Logging.ConfigurationSectionHandler.Create(Common.Logging.Configuration.LogSetting,System.Object,System.Xml.XmlNode)">
            <summary>
            Verifies that the logFactoryAdapter element appears once in the configuration section.
            </summary>
            <param name="parent">settings of a parent section - atm this must always be null</param>
            <param name="configContext">Additional information about the configuration process.</param>
            <param name="section">The configuration section to apply an XPath query too.</param>
            <returns>
            A <see cref="T:Common.Logging.Configuration.LogSetting"/> object containing the specified logFactoryAdapter type
            along with user supplied configuration properties.
            </returns>
        </member>
        <member name="M:Common.Logging.ConfigurationSectionHandler.System#Configuration#IConfigurationSectionHandler#Create(System.Object,System.Object,System.Xml.XmlNode)">
            <summary>
            Verifies that the logFactoryAdapter element appears once in the configuration section.
            </summary>
            <param name="parent">The parent of the current item.</param>
            <param name="configContext">Additional information about the configuration process.</param>
            <param name="section">The configuration section to apply an XPath query too.</param>
            <returns>
            A <see cref="T:Common.Logging.Configuration.LogSetting"/> object containing the specified logFactoryAdapter type
            along with user supplied configuration properties.
            </returns>
        </member>
        <member name="T:Common.Logging.LogLevel">
            <summary>
            The 7 possible logging levels
            </summary>
            <author>Gilles Bayon</author>
        </member>
        <member name="F:Common.Logging.LogLevel.All">
            <summary>
            All logging levels
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Trace">
            <summary>
            A trace logging level
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Debug">
            <summary>
            A debug logging level
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Info">
            <summary>
            A info logging level
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Warn">
            <summary>
            A warn logging level
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Error">
            <summary>
            An error logging level
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Fatal">
            <summary>
            A fatal logging level
            </summary>
        </member>
        <member name="F:Common.Logging.LogLevel.Off">
            <summary>
            Do not log anything.
            </summary>
        </member>
        <member name="T:Common.Logging.LogManager">
            <summary>
            Use the LogManager's <see cref="M:Common.Logging.LogManager.GetLogger(System.String)"/> or <see cref="M:Common.Logging.LogManager.GetLogger(System.Type)"/> 
            methods to obtain <see cref="T:Common.Logging.ILog"/> instances for logging.
            </summary>
            <remarks>
            For configuring the underlying log system using application configuration, see the example 
            at <see cref="T:Common.Logging.ConfigurationSectionHandler"/>. 
            For configuring programmatically, see the example section below.
            </remarks>
            <example>
            The example below shows the typical use of LogManager to obtain a reference to a logger
            and log an exception:
            <code>
            
            ILog log = LogManager.GetLogger(this.GetType());
            ...
            try 
            { 
              /* .... */ 
            }
            catch(Exception ex)
            {
              log.ErrorFormat("Hi {0}", ex, "dude");
            }
            
            </code>
            The example below shows programmatic configuration of the underlying log system:
            <code>
            
            // create properties
            NameValueCollection properties = new NameValueCollection();
            properties["showDateTime"] = "true";
            
            // set Adapter
            Common.Logging.LogManager.Adapter = new 
            Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter(properties);
            
            </code>
            </example>
            <seealso cref="T:Common.Logging.ILog"/>
            <seealso cref="P:Common.Logging.LogManager.Adapter"/>
            <seealso cref="T:Common.Logging.ILoggerFactoryAdapter"/>
            <seealso cref="T:Common.Logging.ConfigurationSectionHandler"/>
            <author>Gilles Bayon</author>
        </member>
        <member name="F:Common.Logging.LogManager.COMMON_LOGGING_SECTION">
            <summary>
            The name of the default configuration section to read settings from.
            </summary>
            <remarks>
            You can always change the source of your configuration settings by setting another <see cref="T:Common.Logging.IConfigurationReader"/> instance
            on <see cref="P:Common.Logging.LogManager.ConfigurationReader"/>.
            </remarks>
        </member>
        <member name="M:Common.Logging.LogManager.#cctor">
            <summary>
            Performs static 1-time init of LogManager by calling <see cref="M:Common.Logging.LogManager.Reset"/>
            </summary>
        </member>
        <member name="M:Common.Logging.LogManager.Reset">
            <summary>
            Reset the <see cref="N:Common.Logging"/> infrastructure to its default settings. This means, that configuration settings
            will be re-read from section <c>&lt;common/logging&gt;</c> of your <c>app.config</c>.
            </summary>
            <remarks>
            This is mainly used for unit testing, you wouldn't normally use this in your applications.<br/>
            <b>Note:</b><see cref="T:Common.Logging.ILog"/> instances already handed out from this LogManager are not(!) affected. 
            Resetting LogManager only affects new instances being handed out.
            </remarks>
        </member>
        <member name="M:Common.Logging.LogManager.Reset(Common.Logging.IConfigurationReader)">
            <summary>
            Reset the <see cref="N:Common.Logging"/> infrastructure to its default settings. This means, that configuration settings
            will be re-read from section <c>&lt;common/logging&gt;</c> of your <c>app.config</c>.
            </summary>
            <remarks>
            This is mainly used for unit testing, you wouldn't normally use this in your applications.<br/>
            <b>Note:</b><see cref="T:Common.Logging.ILog"/> instances already handed out from this LogManager are not(!) affected. 
            Resetting LogManager only affects new instances being handed out.
            </remarks>
            <param name="reader">
            the <see cref="T:Common.Logging.IConfigurationReader"/> instance to obtain settings for 
            re-initializing the LogManager.
            </param>
        </member>
        <member name="M:Common.Logging.LogManager.GetCurrentClassLogger">
            <summary>
            Gets the logger by calling <see cref="M:Common.Logging.ILoggerFactoryAdapter.GetLogger(System.Type)"/>
            on the currently configured <see cref="P:Common.Logging.LogManager.Adapter"/> using the type of the calling class.
            </summary>
            <remarks>
            This method needs to inspect the <see cref="T:System.Diagnostics.StackTrace"/> in order to determine the calling 
            class. This of course comes with a performance penalty, thus you shouldn't call it too
            often in your application.
            </remarks>
            <seealso cref="M:Common.Logging.LogManager.GetLogger(System.Type)"/>
            <returns>the logger instance obtained from the current <see cref="P:Common.Logging.LogManager.Adapter"/></returns>
        </member>
        <member name="M:Common.Logging.LogManager.GetLogger``1">
            <summary>
            Gets the logger by calling <see cref="M:Common.Logging.ILoggerFactoryAdapter.GetLogger(System.Type)"/>
            on the currently configured <see cref="P:Common.Logging.LogManager.Adapter"/> using the specified type.
            </summary>
            <returns>the logger instance obtained from the current <see cref="P:Common.Logging.LogManager.Adapter"/></returns>
        </member>
        <member name="M:Common.Logging.LogManager.GetLogger(System.Type)">
            <summary>
            Gets the logger by calling <see cref="M:Common.Logging.ILoggerFactoryAdapter.GetLogger(System.Type)"/>
            on the currently configured <see cref="P:Common.Logging.LogManager.Adapter"/> using the specified type.
            </summary>
            <param name="type">The type.</param>
            <returns>the logger instance obtained from the current <see cref="P:Common.Logging.LogManager.Adapter"/></returns>
        </member>
        <member name="M:Common.Logging.LogManager.GetLogger(System.String)">
            <summary>
            Gets the logger by calling <see cref="M:Common.Logging.ILoggerFactoryAdapter.GetLogger(System.String)"/>
            on the currently configured <see cref="P:Common.Logging.LogManager.Adapter"/> using the specified name.
            </summary>
            <param name="name">The name.</param>
            <returns>the logger instance obtained from the current <see cref="P:Common.Logging.LogManager.Adapter"/></returns>
        </member>
        <member name="M:Common.Logging.LogManager.BuildLoggerFactoryAdapter">
            <summary>
            Builds the logger factory adapter.
            </summary>
            <returns>a factory adapter instance. Is never <c>null</c>.</returns>
        </member>
        <member name="M:Common.Logging.LogManager.BuildLoggerFactoryAdapterFromLogSettings(Common.Logging.Configuration.LogSetting)">
            <summary>
            Builds a <see cref="T:Common.Logging.ILoggerFactoryAdapter"/> instance from the given <see cref="T:Common.Logging.Configuration.LogSetting"/>
            using <see cref="T:System.Activator"/>.
            </summary>
            <param name="setting"></param>
            <returns>the <see cref="T:Common.Logging.ILoggerFactoryAdapter"/> instance. Is never <c>null</c></returns>
        </member>
        <member name="P:Common.Logging.LogManager.ConfigurationReader">
            <summary>
            Gets the configuration reader used to initialize the LogManager.
            </summary>
            <remarks>Primarily used for testing purposes but maybe useful to obtain configuration
            information from some place other than the .NET application configuration file.</remarks>
            <value>The configuration reader.</value>
        </member>
        <member name="P:Common.Logging.LogManager.Adapter">
            <summary>
            Gets or sets the adapter.
            </summary>
            <value>The adapter.</value>
        </member>
        <member name="T:Common.Logging.Configuration.LogSetting">
            <summary>
            Container used to hold configuration information from config file.
            </summary>
            <author>Gilles Bayon</author>
        </member>
        <member name="M:Common.Logging.Configuration.LogSetting.#ctor(System.Type,System.Collections.Specialized.NameValueCollection)">
            <summary>
            
            </summary>
            <param name="factoryAdapterType">
            The <see cref="T:Common.Logging.ILoggerFactoryAdapter"/> type 
            that will be used for creating <see cref="T:Common.Logging.ILog"/>
            </param>
            <param name="properties">
            Additional user supplied properties that are passed to the 
            <paramref name="factoryAdapterType"/>'s constructor.
            </param>
        </member>
        <member name="P:Common.Logging.Configuration.LogSetting.FactoryAdapterType">
            <summary>
            The <see cref="T:Common.Logging.ILoggerFactoryAdapter"/> type that will be used for creating <see cref="T:Common.Logging.ILog"/>
            instances.
            </summary>
        </member>
        <member name="P:Common.Logging.Configuration.LogSetting.Properties">
            <summary>
            Additional user supplied properties that are passed to the <see cref="P:Common.Logging.Configuration.LogSetting.FactoryAdapterType"/>'s constructor.
            </summary>
        </member>
        <member name="T:Common.Logging.NamespaceDoc">
            <summary>
            This namespace contains all core classes making up the Common.Logging framework.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.NamespaceDoc">
            <summary>
            <para>This namespace contains out-of-the-box adapters to intrinsic systems, namely
            <see cref="T:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter"/>, <see cref="T:Common.Logging.Simple.TraceLoggerFactoryAdapter"/> and the 
            all output suppressing <see cref="T:Common.Logging.Simple.NoOpLoggerFactoryAdapter"/>.</para>
            <para>For unit testing, you may also want to have a look at <see cref="T:Common.Logging.Simple.CapturingLoggerFactoryAdapter"/> 
            that allows to easily inspect logged messages.</para>
            <para>To route messages logged through the <see cref="T:System.Diagnostics.Trace"/> infrastructure back into
            Common.Logging, you can use <see cref="T:Common.Logging.Simple.CommonLoggingTraceListener"/></para>
            </summary>
        </member>
        <member name="T:Common.Logging.Configuration.NamespaceDoc">
            <summary>
            This namespace contains various utility classes.
            </summary>
        </member>
        <member name="T:NamespaceDoc">
            <summary>
            <h1>Overview</h1>
            <para>
            There are a variety of logging implementations for .NET currently in use, log4net, Enterprise 
            Library Logging, NLog, to name the most popular. The downside of having differerent implementation 
            is that they do not share a common interface and therefore impose a particular logging 
            implementation on the users of your library. To solve this dependency problem the Common.Logging 
            library introduces a simple abstraction to allow you to select a specific logging implementation at 
            runtime.
            </para>
            <para>
            The library is based on work done by the developers of IBatis.NET and it's usage is inspired by 
            log4net. Many thanks to the developers of those projects!
            </para>
            <h1>Usage</h1>
            <para>
            The core logging library Common.Logging provides the base logging <see cref="T:Common.Logging.ILog"/> interface as 
            well as the global <see cref="T:Common.Logging.LogManager"/> that you use to instrument your code:
            </para>
            <code lang="C#">
            ILog log = LogManager.GetLogger(this.GetType());  
            
            log.DebugFormat("Hi {0}", "dude");
            </code>
            <para>
            To output the information logged, you need to tell Common.Logging, what underlying logging system 
            to use. Common.Logging already includes simple console and trace based logger implementations 
            usable out of the box. Adding the following configuration snippet to your app.config causes 
            Common.Logging to output all information to the console:
            </para>
            <code lang="XML">
            &lt;configuration&gt; 
                &lt;configSections&gt; 
                  &lt;sectionGroup name="common"&gt; 
                    &lt;section name="logging" type="Common.Logging.ConfigurationSectionHandler, Common.Logging" /&gt; 
                  &lt;/sectionGroup&gt;  
                &lt;/configSections&gt; 
                 
                &lt;common&gt; 
                  &lt;logging&gt; 
                    &lt;factoryAdapter type="Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter, Common.Logging"&gt; 
                      &lt;arg key="level" value="DEBUG" /&gt; 
                    &lt;/factoryAdapter&gt; 
                  &lt;/logging&gt; 
                &lt;/common&gt; 
            &lt;/configuration&gt; 
            </code>
            <h1>Customizing</h1>
            <para>
            In the case you want to integrate your own logging system that is not supported by Common.Logging yet, it is easily 
            possible to implement your own plugin by implementing <see cref="T:Common.Logging.ILoggerFactoryAdapter"/>.
            For convenience there is a base <see cref="T:Common.Logging.Factory.AbstractCachingLoggerFactoryAdapter"/> implementation available that usually 
            makes implementing your own adapter a breeze.
            </para>
            <h1>&lt;system.diagnostics&gt; Integration</h1>
            <para>
            If your code already uses the .NET framework's built-in <a href="http://msdn.microsoft.com/library/system.diagnostics.trace.aspx">System.Diagnostics.Trace</a>
            system, you can use <see cref="T:Common.Logging.Simple.CommonLoggingTraceListener"/> to redirect all trace output to the 
            Common.Logging infrastructure.
            </para>
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter">
            <summary>
            Base factory implementation for creating simple <see cref="T:Common.Logging.ILog"/> instances.
            </summary>
            <remarks>Default settings are LogLevel.All, showDateTime = true, showLogName = true, and no DateTimeFormat.
            The keys in the NameValueCollection to configure this adapter are the following
            <list type="bullet">
                <item>level</item>
                <item>showDateTime</item>
                <item>showLogName</item>
                <item>dateTimeFormat</item>
            </list>
            <example>
            Here is an example how to implement your own logging adapter:
            <code>
            public class ConsoleOutLogger : AbstractSimpleLogger
            {
              public ConsoleOutLogger(string logName, LogLevel logLevel, bool showLevel, bool showDateTime, 
            bool showLogName, string dateTimeFormat)
                  : base(logName, logLevel, showLevel, showDateTime, showLogName, dateTimeFormat)
              {
              }
            
              protected override void WriteInternal(LogLevel level, object message, Exception e)
              {
                  // Use a StringBuilder for better performance
                  StringBuilder sb = new StringBuilder();
                  FormatOutput(sb, level, message, e);
            
                  // Print to the appropriate destination
                  Console.Out.WriteLine(sb.ToString());
              }
            }
            
            public class ConsoleOutLoggerFactoryAdapter : AbstractSimpleLoggerFactoryAdapter
            {
              public ConsoleOutLoggerFactoryAdapter(NameValueCollection properties)
                  : base(properties)
              { }
            
              protected override ILog CreateLogger(string name, LogLevel level, bool showLevel, bool 
            showDateTime, bool showLogName, string dateTimeFormat)
              {
                  ILog log = new ConsoleOutLogger(name, level, showLevel, showDateTime, showLogName, 
            dateTimeFormat);
                  return log;
              }
            }
            </code>
            </example>
            </remarks>
            <seealso cref="P:Common.Logging.LogManager.Adapter"/>
            <seealso cref="T:Common.Logging.ConfigurationSectionHandler"/>
            <author>Gilles Bayon</author>
            <author>Mark Pollack</author>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.#ctor(System.Collections.Specialized.NameValueCollection)">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter"/> class.
            </summary>
            <remarks>
            Looks for level, showDateTime, showLogName, dateTimeFormat items from 
            <paramref name="properties"/> for use when the GetLogger methods are called.
            <see cref="T:Common.Logging.ConfigurationSectionHandler"/> for more information on how to use the 
            standard .NET application configuraiton file (App.config/Web.config) 
            to configure this adapter.
            </remarks>
            <param name="properties">The name value collection, typically specified by the user in 
            a configuration section named common/logging.</param>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.#ctor(Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter"/> class with 
            default settings for the loggers created by this factory.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.CreateLogger(System.String)">
            <summary>
            Create the specified logger instance
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.CreateLogger(System.String,Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Derived factories need to implement this method to create the
            actual logger instance.
            </summary>
            <returns>a new logger instance. Must never be <c>null</c>!</returns>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.Level">
            <summary>
            The default <see cref="T:Common.Logging.LogLevel"/> to use when creating new <see cref="T:Common.Logging.ILog"/> instances.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.ShowLevel">
            <summary>
            The default setting to use when creating new <see cref="T:Common.Logging.ILog"/> instances.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.ShowDateTime">
            <summary>
            The default setting to use when creating new <see cref="T:Common.Logging.ILog"/> instances.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.ShowLogName">
            <summary>
            The default setting to use when creating new <see cref="T:Common.Logging.ILog"/> instances.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter.DateTimeFormat">
            <summary>
            The default setting to use when creating new <see cref="T:Common.Logging.ILog"/> instances.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.ConsoleOutLogger">
            <summary>
            Sends log messages to <see cref="P:System.Console.Out"/>.
            </summary>
            <author>Gilles Bayon</author>
        </member>
        <member name="M:Common.Logging.Simple.ConsoleOutLogger.#ctor(System.String,Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Creates and initializes a logger that writes messages to <see cref="P:System.Console.Out"/>.
            </summary>
            <param name="logName">The name, usually type name of the calling class, of the logger.</param>
            <param name="logLevel">The current logging threshold. Messages recieved that are beneath this threshold will not be logged.</param>
            <param name="showLevel">Include the current log level in the log message.</param>
            <param name="showDateTime">Include the current time in the log message.</param>
            <param name="showLogName">Include the instance name in the log message.</param>
            <param name="dateTimeFormat">The date and time format to use in the log message.</param>
        </member>
        <member name="M:Common.Logging.Simple.ConsoleOutLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)">
            <summary>
            Do the actual logging by constructing the log message using a <see cref="T:System.Text.StringBuilder"/> then
            sending the output to <see cref="P:System.Console.Out"/>.
            </summary>
            <param name="level">The <see cref="T:Common.Logging.LogLevel"/> of the message.</param>
            <param name="message">The log message.</param>
            <param name="e">An optional <see cref="T:System.Exception"/> associated with the message.</param>
        </member>
        <member name="T:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter">
            <summary>
            Factory for creating <see cref="T:Common.Logging.ILog"/> instances that write data to <see cref="P:System.Console.Out"/>.
            </summary>
            <remarks>
            <example>
            Below is an example how to configure this adapter:
            <code>
            &lt;configuration&gt;
            
              &lt;configSections&gt;
                &lt;sectionGroup name="common"&gt;
                  &lt;section name="logging"
                           type="Common.Logging.ConfigurationSectionHandler, Common.Logging"
                           requirePermission="false" /&gt;
                &lt;/sectionGroup&gt;
              &lt;/configSections&gt;
            
              &lt;common&gt;
                &lt;logging&gt;
                  &lt;factoryAdapter type="Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter, Common.Logging"&gt;
                    &lt;arg key="level" value="ALL" /&gt;
                  &lt;/factoryAdapter&gt;
                &lt;/logging&gt;
              &lt;/common&gt;
            
            &lt;/configuration&gt;
            </code>
            </example>
            </remarks>
            <seealso cref="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter"/>
            <seealso cref="P:Common.Logging.LogManager.Adapter"/>
            <seealso cref="T:Common.Logging.ConfigurationSectionHandler"/>
            <author>Gilles Bayon</author>
            <author>Mark Pollack</author>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter"/> class using default 
            settings.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter.#ctor(System.Collections.Specialized.NameValueCollection)">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter"/> class.
            </summary>
            <remarks>
            Looks for level, showDateTime, showLogName, dateTimeFormat items from 
            <paramref name="properties"/> for use when the GetLogger methods are called.
            <see cref="T:Common.Logging.ConfigurationSectionHandler"/> for more information on how to use the 
            standard .NET application configuraiton file (App.config/Web.config) 
            to configure this adapter.
            </remarks>
            <param name="properties">The name value collection, typically specified by the user in 
            a configuration section named common/logging.</param>
        </member>
        <member name="M:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter.#ctor(Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter"/> class with 
            default settings for the loggers created by this factory.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.ConsoleOutLoggerFactoryAdapter.CreateLogger(System.String,Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Creates a new <see cref="T:Common.Logging.Simple.ConsoleOutLogger"/> instance.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.NoOpLogger">
            <summary>
            Silently ignores all log messages.
            </summary>
            <author>Gilles Bayon</author>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Trace(System.Object)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Trace(System.Object,System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.TraceFormat(System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.TraceFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.TraceFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.TraceFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Trace(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Trace(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Trace(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Trace(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack trace.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Debug(System.Object)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Debug(System.Object,System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.DebugFormat(System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.DebugFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.DebugFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.DebugFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Debug(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Debug(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Debug.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Debug(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Debug(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Debug.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Info(System.Object)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Info(System.Object,System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.InfoFormat(System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.InfoFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.InfoFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.InfoFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Info(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Info(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Info.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Info(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Info(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Info.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Warn(System.Object)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Warn(System.Object,System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.WarnFormat(System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.WarnFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.WarnFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Warnrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.WarnFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Warnrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Warn(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Warn(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Warn.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Warn(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Warn(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Warn.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Error(System.Object)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Error(System.Object,System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.ErrorFormat(System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.ErrorFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.ErrorFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Errorrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.ErrorFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Errorrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Error(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Error(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Error.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Error(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Error(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Error.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Fatal(System.Object)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Fatal(System.Object,System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.FatalFormat(System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args"></param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.FatalFormat(System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.FatalFormat(System.IFormatProvider,System.String,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Fatalrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.FatalFormat(System.IFormatProvider,System.String,System.Exception,System.Object[])">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting Fatalrmation.</param>
            <param name="format">The format of the message object to log.<see cref="M:System.String.Format(System.String,System.Object[])"/> </param>
            <param name="exception">The exception to log.</param>
            <param name="args">the list of message format arguments</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Fatal(System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Fatal(System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Fatal.</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Fatal(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler})">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLogger.Fatal(System.IFormatProvider,System.Action{Common.Logging.FormatMessageHandler},System.Exception)">
            <summary>
            Ignores message.
            </summary>
            <param name="formatProvider">An <see cref="T:System.IFormatProvider"/> that supplies culture-specific formatting information.</param>
            <param name="formatMessageCallback">A callback used by the logger to obtain the message if log level is matched</param>
            <param name="exception">The exception to log, including its stack Fatal.</param>
        </member>
        <member name="P:Common.Logging.Simple.NoOpLogger.IsTraceEnabled">
            <summary>
            Always returns <see langword="false" />.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.NoOpLogger.IsDebugEnabled">
            <summary>
            Always returns <see langword="false" />.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.NoOpLogger.IsInfoEnabled">
            <summary>
            Always returns <see langword="false" />.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.NoOpLogger.IsWarnEnabled">
            <summary>
            Always returns <see langword="false" />.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.NoOpLogger.IsErrorEnabled">
            <summary>
            Always returns <see langword="false" />.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.NoOpLogger.IsFatalEnabled">
            <summary>
            Always returns <see langword="false" />.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.NoOpLoggerFactoryAdapter">
            <summary>
            Factory for creating <see cref="T:Common.Logging.ILog"/> instances that silently ignores
            logging requests.
            </summary>
            <remarks>
            This logger adapter is the default used by Common.Logging if unconfigured. Using this logger adapter is the most efficient
            way to suppress any logging output.
            <example>
            Below is an example how to configure this adapter:
            <code>
            &lt;configuration&gt;
            
              &lt;configSections&gt;
                &lt;sectionGroup name="common"&gt;
                  &lt;section name="logging"
                           type="Common.Logging.ConfigurationSectionHandler, Common.Logging"
                           requirePermission="false" /&gt;
                &lt;/sectionGroup&gt;
              &lt;/configSections&gt;
            
              &lt;common&gt;
                &lt;logging&gt;
                  &lt;factoryAdapter type="Common.Logging.Simple.NoOpLoggerFactoryAdapter, Common.Logging"&gt;
                    &lt;arg key="level" value="ALL" /&gt;
                  &lt;/factoryAdapter&gt;
                &lt;/logging&gt;
              &lt;/common&gt;
            
            &lt;/configuration&gt;
            </code>
            </example>
            </remarks>
            <seealso cref="P:Common.Logging.LogManager.Adapter"/>
            <seealso cref="T:Common.Logging.ConfigurationSectionHandler"/>
            <author>Gilles Bayon</author>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLoggerFactoryAdapter.#ctor">
            <summary>
            Constructor
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLoggerFactoryAdapter.#ctor(System.Collections.Specialized.NameValueCollection)">
            <summary>
            Constructor
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLoggerFactoryAdapter.GetLogger(System.Type)">
            <summary>
            Get a ILog instance by type 
            </summary>
            <param name="type"></param>
            <returns></returns>
        </member>
        <member name="M:Common.Logging.Simple.NoOpLoggerFactoryAdapter.Common#Logging#ILoggerFactoryAdapter#GetLogger(System.String)">
            <summary>
            Get a ILog instance by type name 
            </summary>
            <param name="name"></param>
            <returns></returns>
        </member>
        <member name="T:Common.Logging.Simple.TraceLogger">
            <summary>
            Logger sending everything to the trace output stream using <see cref="T:System.Diagnostics.Trace"/>.
            </summary>
            <remarks>
            Beware not to use <see cref="T:Common.Logging.Simple.CommonLoggingTraceListener"/> in combination with this logger as 
            this would result in an endless loop for obvious reasons!
            </remarks>
            <seealso cref="P:Common.Logging.LogManager.Adapter"/>
            <seealso cref="T:Common.Logging.ConfigurationSectionHandler"/>
            <author>Gilles Bayon</author>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.TraceLogger.#ctor(System.Boolean,System.String,Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Creates a new TraceLogger instance.
            </summary>
            <param name="useTraceSource">whether to use <see cref="T:System.Diagnostics.TraceSource"/> or <see cref="T:System.Diagnostics.Trace"/> for logging.</param>
            <param name="logName">the name of this logger</param>
            <param name="logLevel">the default log level to use</param>
            <param name="showLevel">Include the current log level in the log message.</param>
            <param name="showDateTime">Include the current time in the log message.</param>
            <param name="showLogName">Include the instance name in the log message.</param>
            <param name="dateTimeFormat">The date and time format to use in the log message.</param>
        </member>
        <member name="M:Common.Logging.Simple.TraceLogger.IsLevelEnabled(Common.Logging.LogLevel)">
            <summary>
            Determines if the given log level is currently enabled.
            checks <see cref="P:System.Diagnostics.TraceSource.Switch"/> if <see cref="P:Common.Logging.Simple.TraceLoggerFactoryAdapter.UseTraceSource"/> is true.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.TraceLogger.WriteInternal(Common.Logging.LogLevel,System.Object,System.Exception)">
            <summary>
            Do the actual logging.
            </summary>
            <param name="level"></param>
            <param name="message"></param>
            <param name="e"></param>
        </member>
        <member name="M:Common.Logging.Simple.TraceLogger.OnDeserialization(System.Object)">
            <summary>
            Called after deserialization completed.
            </summary>
        </member>
        <member name="T:Common.Logging.Simple.TraceLogger.FormatOutputMessage">
            <summary>
            Used to defer message formatting until it is really needed.
            </summary>
            <remarks>
            This class also improves performance when multiple 
            <see cref="T:System.Diagnostics.TraceListener"/>s are configured.
            </remarks>
        </member>
        <member name="T:Common.Logging.Simple.TraceLoggerFactoryAdapter">
            <summary>
            Factory for creating <see cref="T:Common.Logging.ILog"/> instances that send 
            everything to the <see cref="T:System.Diagnostics.Trace"/> output stream.
            </summary>
            <remarks>
            Beware not to use <see cref="T:Common.Logging.Simple.CommonLoggingTraceListener"/> in combination with this logger factory
            as this would result in an endless loop for obvious reasons!
            <example>
            Below is an example how to configure this adapter:
            <code>
            &lt;configuration&gt;
            
              &lt;configSections&gt;
                &lt;sectionGroup name="common"&gt;
                  &lt;section name="logging"
                           type="Common.Logging.ConfigurationSectionHandler, Common.Logging"
                           requirePermission="false" /&gt;
                &lt;/sectionGroup&gt;
              &lt;/configSections&gt;
            
              &lt;common&gt;
                &lt;logging&gt;
                  &lt;factoryAdapter type="Common.Logging.Simple.TraceLoggerFactoryAdapter, Common.Logging"&gt;
                    &lt;arg key="level" value="ALL" /&gt;
                  &lt;/factoryAdapter&gt;
                &lt;/logging&gt;
              &lt;/common&gt;
            
            &lt;/configuration&gt;
            </code>
            </example>
            </remarks>
            <seealso cref="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter"/>
            <seealso cref="P:Common.Logging.LogManager.Adapter"/>
            <seealso cref="T:Common.Logging.ConfigurationSectionHandler"/>
            <author>Gilles Bayon</author>
            <author>Mark Pollack</author>
            <author>Erich Eichinger</author>
        </member>
        <member name="M:Common.Logging.Simple.TraceLoggerFactoryAdapter.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.TraceLoggerFactoryAdapter"/> class using default settings.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.TraceLoggerFactoryAdapter.#ctor(System.Collections.Specialized.NameValueCollection)">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.TraceLoggerFactoryAdapter"/> class.
            </summary>
            <remarks>
            Looks for level, showDateTime, showLogName, dateTimeFormat items from 
            <paramref name="properties"/> for use when the GetLogger methods are called.
            <see cref="T:Common.Logging.ConfigurationSectionHandler"/> for more information on how to use the 
            standard .NET application configuraiton file (App.config/Web.config) 
            to configure this adapter.
            </remarks>
            <param name="properties">The name value collection, typically specified by the user in 
            a configuration section named common/logging.</param>
        </member>
        <member name="M:Common.Logging.Simple.TraceLoggerFactoryAdapter.#ctor(Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String,System.Boolean)">
            <summary>
            Initializes a new instance of the <see cref="T:Common.Logging.Simple.AbstractSimpleLoggerFactoryAdapter"/> class with 
            default settings for the loggers created by this factory.
            </summary>
        </member>
        <member name="M:Common.Logging.Simple.TraceLoggerFactoryAdapter.CreateLogger(System.String,Common.Logging.LogLevel,System.Boolean,System.Boolean,System.Boolean,System.String)">
            <summary>
            Creates a new <see cref="T:Common.Logging.Simple.TraceLogger"/> instance.
            </summary>
        </member>
        <member name="P:Common.Logging.Simple.TraceLoggerFactoryAdapter.UseTraceSource">
            <summary>
            Whether to use <see cref="T:System.Diagnostics.Trace"/>.<c>TraceXXXX(string,object[])</c> methods for logging
            or <see cref="T:System.Diagnostics.TraceSource"/>.
            </summary>
        </member>
        <member name="T:CoverageExcludeAttribute">
            <summary>
            Indicates classes or members to be ignored by NCover
            </summary>
            <remarks>
            Note, the name is chosen, because TestDriven.NET uses it as //ea argument to "Test With... Coverage"
            </remarks>
            <author>Erich Eichinger</author>
        </member>
    </members>
</doc>
tools\icsharp\Common.pdb
 
tools\icsharp\iCSharp.Kernel.exe
 
tools\icsharp\iCSharp.Kernel.exe.config
<?xml version="1.0" encoding="utf-8" ?>
<configuration>
    <startup> 
        <supportedRuntime version="v4.0" sku=".NETFramework,Version=v4.5" />
    </startup>
</configuration>
tools\icsharp\iCSharp.Kernel.pdb
 
tools\icsharp\iCSharp.Kernel.vshost.exe
 
tools\icsharp\iCSharp.Kernel.vshost.exe.config
<?xml version="1.0" encoding="utf-8" ?>
<configuration>
    <startup> 
        <supportedRuntime version="v4.0" sku=".NETFramework,Version=v4.5" />
    </startup>
</configuration>
tools\icsharp\iCSharp.Kernel.vshost.exe.manifest
 
tools\icsharp\iCSharp.Messages.dll
 
tools\icsharp\iCSharp.Messages.pdb
 
tools\icsharp\ICSharpCode.NRefactory.CSharp.dll
 
tools\icsharp\ICSharpCode.NRefactory.CSharp.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>ICSharpCode.NRefactory.CSharp</name>
    </assembly>
    <members>
        <member name="T:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNode">
            <summary>
            Represents a node in the control flow graph of a C# method.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNodeType.None">
            <summary>
            Unknown node type
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNodeType.StartNode">
            <summary>
            Node in front of a statement
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNodeType.BetweenStatements">
            <summary>
            Node between two statements
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNodeType.EndNode">
            <summary>
            Node at the end of a statement list
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNodeType.LoopCondition">
            <summary>
            Node representing the position before evaluating the condition of a loop.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowEdge.IsLeavingTryFinally">
            <summary>
            Gets whether this control flow edge is leaving any try-finally statements.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowEdge.TryFinallyStatements">
            <summary>
            Gets the try-finally statements that this control flow edge is leaving.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowEdgeType.Normal">
            <summary>
            Regular control flow.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowEdgeType.ConditionTrue">
            <summary>
            Conditional control flow (edge taken if condition is true)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowEdgeType.ConditionFalse">
            <summary>
            Conditional control flow (edge taken if condition is false)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowEdgeType.Jump">
            <summary>
            A jump statement (goto, goto case, break or continue)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowGraphBuilder">
            <summary>
            Constructs the control flow graph for C# statements.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowGraphBuilder.EvaluateConstant(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Evaluates an expression.
            </summary>
            <returns>The constant value of the expression; or null if the expression is not a constant.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowGraphBuilder.EvaluateCondition(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Evaluates an expression.
            </summary>
            <returns>The value of the constant boolean expression; or null if the value is not a constant boolean expression.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowGraphBuilder.ExportGraph(System.Collections.Generic.IList{ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNode})">
            <summary>
            Debugging helper that exports a control flow graph.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowGraphBuilder.EvaluateOnlyPrimitiveConstants">
            <summary>
            Gets/Sets whether to handle only primitive expressions as constants (no complex expressions like "a + b").
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DepthFirstAstVisitor`2">
            <summary>
            AST visitor with a default implementation that visits all node depth-first.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IAstVisitor`2">
            <summary>
            AST visitor.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowGraphBuilder.NodeCreationVisitor.CreateConnectedEndNode(ICSharpCode.NRefactory.CSharp.Statement,ICSharpCode.NRefactory.CSharp.Analysis.ControlFlowNode)">
            <summary>
            Creates an end node for <c>stmt</c> and connects <c>from</c> with the new node.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentStatus">
            <summary>
            Represents the definite assignment status of a variable at a specific location.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentStatus.PotentiallyAssigned">
            <summary>
            The variable might be assigned or unassigned.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentStatus.DefinitelyAssigned">
            <summary>
            The variable is definitely assigned.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentStatus.AssignedAfterTrueExpression">
            <summary>
            The variable is definitely assigned iff the expression results in the value 'true'.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentStatus.AssignedAfterFalseExpression">
            <summary>
            The variable is definitely assigned iff the expression results in the value 'false'.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentStatus.CodeUnreachable">
            <summary>
            The code is unreachable.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentAnalysis">
            <summary>
            Implements the C# definite assignment analysis (C# 4.0 Spec: §5.3 Definite assignment)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentAnalysis.SetAnalyzedRange(ICSharpCode.NRefactory.CSharp.Statement,ICSharpCode.NRefactory.CSharp.Statement,System.Boolean,System.Boolean)">
            <summary>
            Sets the range of statements to be analyzed.
            This method can be used to restrict the analysis to only a part of the method.
            Only the control flow paths that are fully contained within the selected part will be analyzed.
            </summary>
            <remarks>By default, both 'start' and 'end' are inclusive.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentAnalysis.ExportGraph">
            <summary>
            Exports the CFG. This method is intended to help debugging issues related to definite assignment.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentAnalysis.EvaluateConstant(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Evaluates an expression.
            </summary>
            <returns>The constant value of the expression; or null if the expression is not a constant.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentAnalysis.EvaluateCondition(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Evaluates an expression.
            </summary>
            <returns>The value of the constant boolean expression; or null if the value is not a constant boolean expression.</returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Analysis.DefiniteAssignmentAnalysis.UnassignedVariableUses">
            <summary>
            Gets the unassigned usages of the previously analyzed variable.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Analysis.ReachabilityAnalysis">
            <summary>
            Statement reachability analysis.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetRegion">
            <summary>
            Gets the region from StartLocation to EndLocation for this node.
            The file name of the region is set based on the parent SyntaxTree's file name.
            If this node is not connected to a whole compilation, the file name will be null.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetChildByRole``1(ICSharpCode.NRefactory.Role{``0})">
            <summary>
            Gets the first child with the specified role.
            Returns the role's null object if the child is not found.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.AddChildUnsafe(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.Role)">
            <summary>
            Adds a child without performing any safety checks.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.Remove">
            <summary>
            Removes this node from its parent.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.ReplaceWith(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Replaces this node with the new node.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.Clone">
            <summary>
            Clones the whole subtree starting at this AST node.
            </summary>
            <remarks>Annotations are copied over to the new nodes; and any annotations implementing ICloneable will be cloned.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetNodeAt(System.Int32,System.Int32,System.Predicate{ICSharpCode.NRefactory.CSharp.AstNode})">
            <summary>
            Gets the node specified by T at the location line, column. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End exclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetNodeAt(ICSharpCode.NRefactory.TextLocation,System.Predicate{ICSharpCode.NRefactory.CSharp.AstNode})">
            <summary>
            Gets the node specified by pred at location. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End exclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetNodeAt``1(System.Int32,System.Int32)">
            <summary>
            Gets the node specified by T at the location line, column. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End exclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetNodeAt``1(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the node specified by T at location. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End exclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetAdjacentNodeAt(System.Int32,System.Int32,System.Predicate{ICSharpCode.NRefactory.CSharp.AstNode})">
            <summary>
            Gets the node specified by pred at the location line, column. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End inclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetAdjacentNodeAt(ICSharpCode.NRefactory.TextLocation,System.Predicate{ICSharpCode.NRefactory.CSharp.AstNode})">
            <summary>
            Gets the node specified by pred at location. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End inclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetAdjacentNodeAt``1(System.Int32,System.Int32)">
            <summary>
            Gets the node specified by T at the location line, column. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End inclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetAdjacentNodeAt``1(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the node specified by T at location. This is useful for getting a specific node from the tree. For example searching
            the current method declaration.
            (End inclusive)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetNodeContaining(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the node that fully contains the range from startLocation to endLocation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.GetText(ICSharpCode.NRefactory.CSharp.CSharpFormattingOptions)">
            <summary>
            Gets the node as formatted C# output.
            </summary>
            <param name='formattingOptions'>
            Formatting options.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.Contains(System.Int32,System.Int32)">
            <summary>
            Returns true, if the given coordinates (line, column) are in the node.
            </summary>
            <returns>
            True, if the given coordinates are between StartLocation and EndLocation (exclusive); otherwise, false.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.Contains(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Returns true, if the given coordinates are in the node.
            </summary>
            <returns>
            True, if location is between StartLocation and EndLocation (exclusive); otherwise, false.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.IsInside(System.Int32,System.Int32)">
            <summary>
            Returns true, if the given coordinates (line, column) are in the node.
            </summary>
            <returns>
            True, if the given coordinates are between StartLocation and EndLocation (inclusive); otherwise, false.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNode.IsInside(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Returns true, if the given coordinates are in the node.
            </summary>
            <returns>
            True, if location is between StartLocation and EndLocation (inclusive); otherwise, false.
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.AstNode.Ancestors">
            <summary>
            Gets the ancestors of this node (excluding this node itself)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.AstNode.AncestorsAndSelf">
            <summary>
            Gets the ancestors of this node (including this node itself)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.AstNode.Descendants">
            <summary>
            Gets all descendants of this node (excluding this node itself).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.AstNode.DescendantsAndSelf">
            <summary>
            Gets all descendants of this node (including this node itself).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AstNodeCollection`1">
            <summary>
            Represents the children of an AstNode that have a specific role.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNodeCollection`1.FirstOrNullObject(System.Func{`0,System.Boolean})">
            <summary>
            Returns the first element for which the predicate returns true,
            or the null node (AstNode with IsNull=true) if no such object is found.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNodeCollection`1.LastOrNullObject(System.Func{`0,System.Boolean})">
            <summary>
            Returns the last element for which the predicate returns true,
            or the null node (AstNode with IsNull=true) if no such object is found.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstNodeCollection`1.AcceptVisitor(ICSharpCode.NRefactory.CSharp.IAstVisitor)">
            <summary>
            Applies the <paramref name="visitor"/> to all nodes in this collection.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AstType">
            <summary>
            A type reference in the C# AST.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.ToTypeReference(ICSharpCode.NRefactory.TypeSystem.InterningProvider)">
            <summary>
            Create an ITypeReference for this AstType.
            Uses the context (ancestors of this node) to determine the correct <see cref="T:ICSharpCode.NRefactory.CSharp.NameLookupMode"/>.
            </summary>
            <remarks>
            The resulting type reference will read the context information from the
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext"/>:
            For resolving type parameters, the CurrentTypeDefinition/CurrentMember is used.
            For resolving simple names, the current namespace and usings from the CurrentUsingScope
            (on CSharpTypeResolveContext only) is used.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.ToTypeReference(ICSharpCode.NRefactory.CSharp.NameLookupMode,ICSharpCode.NRefactory.TypeSystem.InterningProvider)">
            <summary>
            Create an ITypeReference for this AstType.
            </summary>
            <remarks>
            The resulting type reference will read the context information from the
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext"/>:
            For resolving type parameters, the CurrentTypeDefinition/CurrentMember is used.
            For resolving simple names, the current namespace and usings from the CurrentUsingScope
            (on CSharpTypeResolveContext only) is used.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.GetNameLookupMode">
            <summary>
            Gets the name lookup mode from the context (looking at the ancestors of this <see cref="T:ICSharpCode.NRefactory.CSharp.AstType"/>).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.MakePointerType">
            <summary>
            Creates a pointer type from this type by nesting it in a <see cref="T:ICSharpCode.NRefactory.CSharp.ComposedType"/>.
            If this type already is a pointer type, this method just increases the PointerRank of the existing pointer type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.MakeArrayType(System.Int32)">
            <summary>
            Creates an array type from this type by nesting it in a <see cref="T:ICSharpCode.NRefactory.CSharp.ComposedType"/>.
            If this type already is an array type, the additional rank is prepended to the existing array specifier list.
            Thus, <c>new SimpleType("T").MakeArrayType(1).MakeArrayType(2)</c> will result in "T[,][]".
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.MakeNullableType">
            <summary>
            Creates a nullable type from this type by nesting it in a <see cref="T:ICSharpCode.NRefactory.CSharp.ComposedType"/>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.Member(System.String)">
            <summary>
            Builds an expression that can be used to access a static member on this type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.MemberType(System.String,ICSharpCode.NRefactory.CSharp.AstType[])">
            <summary>
            Builds an expression that can be used to access a static member on this type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.MemberType(System.String,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.AstType})">
            <summary>
            Builds an expression that can be used to access a static member on this type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.Invoke(System.String,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression})">
            <summary>
            Builds an invocation expression using this type as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.Invoke(System.String,ICSharpCode.NRefactory.CSharp.Expression[])">
            <summary>
            Builds an invocation expression using this type as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.Invoke(System.String,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.AstType},System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression})">
            <summary>
            Builds an invocation expression using this type as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstType.Create(System.String)">
            <summary>
            Creates a simple AstType from a dotted name.
            Does not support generics, arrays, etc. - just simple dotted names,
            e.g. namespace names.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DocumentationReference">
            <summary>
            Represents a 'cref' reference in XML documentation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.DocumentationReference.EntityType">
            <summary>
            Gets/Sets the entity type.
            Possible values are:
              <c>EntityType.Operator</c> for operators,
              <c>EntityType.Indexer</c> for indexers,
              <c>EntityType.TypeDefinition</c> for references to primitive types,
              and <c>EntityType.None</c> for everything else.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.DocumentationReference.OperatorType">
            <summary>
            Gets/Sets the operator type.
            This property is only used when EntityType==Operator.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.DocumentationReference.HasParameterList">
            <summary>
            Gets/Sets whether a parameter list was provided.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.DocumentationReference.DeclaringType">
            <summary>
            Gets/Sets the declaring type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.DocumentationReference.MemberName">
            <summary>
            Gets/sets the member name.
            This property is only used when EntityType==None.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.DocumentationReference.ConversionOperatorReturnType">
            <summary>
            Gets/Sets the return type of conversion operators.
            This property is only used when EntityType==Operator and OperatorType is explicit or implicit.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IdentifierExpressionBackreference">
            <summary>
            Matches identifier expressions that have the same identifier as the referenced variable/type definition/method definition.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.SyntaxTree.GetTypes(System.Boolean)">
            <summary>
            Gets all defined types in this syntax tree.
            </summary>
            <returns>
            A list containing <see cref="T:ICSharpCode.NRefactory.CSharp.TypeDeclaration"/> or <see cref="T:ICSharpCode.NRefactory.CSharp.DelegateDeclaration"/> nodes.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.SyntaxTree.ToTypeSystem">
            <summary>
            Converts this syntax tree into a parsed file that can be stored in the type system.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.SyntaxTree.FileName">
            <summary>
            Gets/Sets the file name of this syntax tree.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.SyntaxTree.ConditionalSymbols">
            <summary>
            Gets the conditional symbols used to parse the source file. Note that this list contains
            the conditional symbols at the start of the first token in the file - including the ones defined
            in the source file.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.SyntaxTree.TopExpression">
            <summary>
            Gets the expression that was on top of the parse stack.
            This is the only way to get an expression that isn't part of a statment.
            (eg. when an error follows an expression).
            
            This is used for code completion to 'get the expression before a token - like ., &lt;, ('.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ArraySpecifier">
            <summary>
            [,,,]
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CSharpTokenNode">
            <summary>
            Represents a token in C#. Note that the type of the token is defined through the TokenRole.
            </summary>
            <remarks>
            In all non null c# token nodes the Role of a CSharpToken must be a TokenRole.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpUtil.NegateRelationalOperator(ICSharpCode.NRefactory.CSharp.BinaryOperatorType)">
            <summary>
            Get negation of the specified relational operator
            </summary>
            <returns>
            negation of the specified relational operator, or BinaryOperatorType.Any if it's not a relational operator
            </returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DepthFirstAstVisitor">
            <summary>
            AST visitor with a default implementation that visits all node depth-first.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IAstVisitor">
            <summary>
            AST visitor.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DepthFirstAstVisitor`1">
            <summary>
            AST visitor with a default implementation that visits all node depth-first.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IAstVisitor`1">
            <summary>
            AST visitor.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ErrorNode">
            <summary>
            Represents a parsing error in the ast. At the moment it only represents missing closing bracket.
            This closing bracket is replaced by a node at the highest possible position.
            (To make GetAstNodeAt (line, col) working).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AnonymousMethodExpression">
            <summary>
            [async] delegate(Parameters) {Body}
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Expression">
            <summary>
            Base class for expressions.
            </summary>
            <remarks>
            This class is useful even though it doesn't provide any additional functionality:
            It can be used to communicate more information in APIs, e.g. "this subnode will always be an expression"
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Member(System.String)">
            <summary>
            Builds an member reference expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Indexer(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression})">
            <summary>
            Builds an indexer expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Indexer(ICSharpCode.NRefactory.CSharp.Expression[])">
            <summary>
            Builds an indexer expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Invoke(System.String,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression})">
            <summary>
            Builds an invocation expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Invoke(System.String,ICSharpCode.NRefactory.CSharp.Expression[])">
            <summary>
            Builds an invocation expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Invoke(System.String,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.AstType},System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression})">
            <summary>
            Builds an invocation expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Invoke(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression})">
            <summary>
            Builds an invocation expression using this expression as target.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Expression.Invoke(ICSharpCode.NRefactory.CSharp.Expression[])">
            <summary>
            Builds an invocation expression using this expression as target.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AnonymousTypeCreateExpression">
            <summary>
            new { [ExpressionList] }
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ArrayCreateExpression">
            <summary>
            new Type[Dimensions]
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.ArrayCreateExpression.AdditionalArraySpecifiers">
            <summary>
            Gets additional array ranks (those without size info).
            Empty for "new int[5,1]"; will contain a single element for "new int[5][]".
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ArrayInitializerExpression">
            <summary>
            { Elements }
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.ArrayInitializerExpression.IsSingleElement">
            <summary>
            For ease of use purposes in the resolver the ast representation
            of { a, b, c }  is { {a}, {b}, {c} }.
            If IsSingleElement is true then this array initializer expression is a generated one.
            That has no meaning in the source code (and contains no brace tokens).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ArrayInitializerExpression.SingleArrayInitializerExpression">
            <summary>
            Single elements in array initializers are represented with this special class.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AsExpression">
            <summary>
            Expression as TypeReference
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AssignmentExpression">
            <summary>
            Left Operator= Right
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AssignmentExpression.GetCorrespondingBinaryOperator(ICSharpCode.NRefactory.CSharp.AssignmentOperatorType)">
            <summary>
            Gets the binary operator for the specified compound assignment operator.
            Returns null if 'op' is not a compound assignment.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Assign">
            <summary>left = right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Add">
            <summary>left += right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Subtract">
            <summary>left -= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Multiply">
            <summary>left *= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Divide">
            <summary>left /= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Modulus">
            <summary>left %= right</summary>
        </member>
        <!-- Badly formed XML comment ignored for member "F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.ShiftLeft" -->
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.ShiftRight">
            <summary>left >>= right</summary>
        </member>
        <!-- Badly formed XML comment ignored for member "F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.BitwiseAnd" -->
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.BitwiseOr">
            <summary>left |= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.ExclusiveOr">
            <summary>left ^= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.AssignmentOperatorType.Any">
            <summary>Any operator (for pattern matching)</summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.BaseReferenceExpression">
            <summary>
            base
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.BinaryOperatorExpression">
            <summary>
            Left Operator Right
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Any">
            <summary>
            Any binary operator (used in pattern matching)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.BitwiseAnd">
            <summary>left &amp; right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.BitwiseOr">
            <summary>left | right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.ConditionalAnd">
            <summary>left &amp;&amp; right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.ConditionalOr">
            <summary>left || right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.ExclusiveOr">
            <summary>left ^ right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.GreaterThan">
            <summary>left &gt; right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.GreaterThanOrEqual">
            <summary>left &gt;= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Equality">
            <summary>left == right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.InEquality">
            <summary>left != right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.LessThan">
            <summary>left &lt; right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.LessThanOrEqual">
            <summary>left &lt;= right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Add">
            <summary>left + right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Subtract">
            <summary>left - right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Multiply">
            <summary>left * right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Divide">
            <summary>left / right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.Modulus">
            <summary>left % right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.ShiftLeft">
            <summary>left &lt;&lt; right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.ShiftRight">
            <summary>left &gt;&gt; right</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.BinaryOperatorType.NullCoalescing">
            <summary>left ?? right</summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CastExpression">
            <summary>
            (CastTo)Expression
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CheckedExpression">
            <summary>
            checked(Expression)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ConditionalExpression">
            <summary>
            Condition ? TrueExpression : FalseExpression
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DefaultValueExpression">
            <summary>
            default(Type)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DirectionExpression">
            <summary>
            ref Expression
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.EmptyExpression">
            <summary>
            Type&lt;[EMPTY]&gt;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IndexerExpression">
            <summary>
            Target[Arguments]
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.InvocationExpression">
            <summary>
            Target(Arguments)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IsExpression">
            <summary>
            Expression is Type
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.LambdaExpression">
            <summary>
            [async] Parameters => Body
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.MemberReferenceExpression">
            <summary>
            Target.MemberName
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.NamedArgumentExpression">
            <summary>
            Represents a named argument passed to a method or attribute.
            name: expression
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.NamedExpression">
            <summary>
            name = expression
            This isn't the same as 'assign' even though it has the same syntax.
            This expression is used in object initializers and for named attribute arguments [Attr(FieldName = value)].
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.NullReferenceExpression">
            <summary>
            null
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ObjectCreateExpression">
            <summary>
            new Type(Arguments) { Initializer }
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ParenthesizedExpression">
            <summary>
            ( Expression )
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.ParenthesizedExpression.ActsAsParenthesizedExpression(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Gets whether the expression acts like a parenthesized expression,
            i.e. whether information about the expected type (for lambda type inference) flows
            into the inner expression.
            </summary>
            <returns>Returns true for ParenthesizedExpression, CheckedExpression or UncheckedExpression; false otherwise.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.ParenthesizedExpression.UnpackParenthesizedExpression(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Unpacks the given expression if it is a ParenthesizedExpression, CheckedExpression or UncheckedExpression.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.PointerReferenceExpression">
            <summary>
            Target->MemberName
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.PrimitiveExpression">
            <summary>
            Represents a literal value.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.QueryContinuationClause">
            <summary>
            Represents a query continuation.
            "(from .. select ..) into Identifier" or "(from .. group .. by ..) into Identifier"
            Note that "join .. into .." is not a query continuation!
            
            This is always the first(!!) clause in a query expression.
            The tree for "from a in b select c into d select e" looks like this:
            new QueryExpression {
            	new QueryContinuationClause {
            		PrecedingQuery = new QueryExpression {
            			new QueryFromClause(a in b),
            			new QuerySelectClause(c)
            		},
            		Identifier = d
            	},
            	new QuerySelectClause(e)
            }
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.QueryJoinClause">
            <summary>
            Represents a join or group join clause.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.SizeOfExpression">
            <summary>
            sizeof(Type)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.StackAllocExpression">
            <summary>
            stackalloc Type[Count]
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ThisReferenceExpression">
            <summary>
            this
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeOfExpression">
            <summary>
            typeof(Type)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeReferenceExpression">
            <summary>
            Represents an AstType as an expression.
            This is used when calling a method on a primitive type: "int.Parse()"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UnaryOperatorExpression">
            <summary>
            Operator Expression
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Any">
            <summary>
            Any unary operator (used in pattern matching)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Not">
            <summary>Logical not (!a)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.BitNot">
            <summary>Bitwise not (~a)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Minus">
            <summary>Unary minus (-a)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Plus">
            <summary>Unary plus (+a)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Increment">
            <summary>Pre increment (++a)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Decrement">
            <summary>Pre decrement (--a)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.PostIncrement">
            <summary>Post increment (a++)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.PostDecrement">
            <summary>Post decrement (a--)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Dereference">
            <summary>Dereferencing (*a)</summary>
        </member>
        <!-- Badly formed XML comment ignored for member "F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.AddressOf" -->
        <member name="F:ICSharpCode.NRefactory.CSharp.UnaryOperatorType.Await">
            <summary>C# 5.0 await</summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UncheckedExpression">
            <summary>
            unchecked(Expression)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UndocumentedExpression">
            <summary>
            Represents undocumented expressions.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Attribute">
            <summary>
            Attribute(Arguments)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.AttributeSection">
            <summary>
            [AttributeTarget: Attributes]
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.CommentType.SingleLine">
            <summary>
            "//" comment
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.CommentType.MultiLine">
            <summary>
            "/* */" comment
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.CommentType.Documentation">
            <summary>
            "///" comment
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.CommentType.InactiveCode">
            <summary>
            Inactive code (code in non-taken "#if")
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.CommentType.MultiLineDocumentation">
            <summary>
            "/** */" comment
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Comment.IsDocumentation">
            <summary>
            Returns true if the <see cref="P:ICSharpCode.NRefactory.CSharp.Comment.CommentType"/> is Documentation or MultiLineDocumentation.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Constraint">
            <summary>
            where TypeParameter : BaseTypes
            </summary>
            <remarks>
            new(), struct and class constraints are represented using a PrimitiveType "new", "struct" or "class"
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DelegateDeclaration">
            <summary>
            delegate ReturnType Name&lt;TypeParameters&gt;(Parameters) where Constraints;
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "T:ICSharpCode.NRefactory.CSharp.ExternAliasDeclaration" -->
        <member name="T:ICSharpCode.NRefactory.CSharp.NamespaceDeclaration">
            <summary>
            namespace Name { Members }
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.NamespaceDeclaration.FullName">
            <summary>
            Gets the full namespace name (including any parent namespaces)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeDeclaration">
            <summary>
            class Name&lt;TypeParameters&gt; : BaseTypes where Constraints;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeParameterDeclaration">
            <summary>
            [in|out] Name
            
            Represents a type parameter.
            Note: mirroring the C# syntax, constraints are not part of the type parameter declaration, but belong
            to the parent type or method.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UsingAliasDeclaration">
            <summary>
            using Alias = Import;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UsingDeclaration">
            <summary>
            using Import;
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Modifiers.Any">
            <summary>
            Special value used to match any modifiers during pattern matching.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NodeType.TypeReference">
            <summary>
            AstType
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NodeType.TypeDeclaration">
            <summary>
            Type or delegate declaration
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NodeType.Whitespace">
            <summary>
            Comment or whitespace or pre-processor directive 
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NodeType.Pattern">
            <summary>
            Placeholder for a pattern
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.BlockStatement">
            <summary>
            { Statements }
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Statement">
            <summary>
            Base class for statements.
            </summary>
            <remarks>
            This class is useful even though it doesn't provide any additional functionality:
            It can be used to communicate more information in APIs, e.g. "this subnode will always be a statement"
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.BreakStatement">
            <summary>
            break;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CheckedStatement">
            <summary>
            checked BodyBlock
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ContinueStatement">
            <summary>
            continue;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.DoWhileStatement">
            <summary>
            "do EmbeddedStatement while(Condition);"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.EmptyStatement">
            <summary>
            ;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ExpressionStatement">
            <summary>
            Expression;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.FixedStatement">
            <summary>
            fixed (Type Variables) EmbeddedStatement
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ForeachStatement">
            <summary>
            foreach (Type VariableName in InExpression) EmbeddedStatement
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ForStatement">
            <summary>
            for (Initializers; Condition; Iterators) EmbeddedStatement
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.ForStatement.Initializers">
            <summary>
            Gets the list of initializer statements.
            Note: this contains multiple statements for "for (a = 2, b = 1; a > b; a--)", but contains
            only a single statement for "for (int a = 2, b = 1; a > b; a--)" (a single VariableDeclarationStatement with two variables)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.GotoStatement">
            <summary>
            "goto Label;"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.GotoCaseStatement">
            <summary>
            or "goto case LabelExpression;"
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.GotoCaseStatement.LabelExpression">
            <summary>
            Used for "goto case LabelExpression;"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.GotoDefaultStatement">
            <summary>
            or "goto default;"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IfElseStatement">
            <summary>
            if (Condition) TrueStatement else FalseStatement
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.LabelStatement">
            <summary>
            Label:
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.LockStatement">
            <summary>
            lock (Expression) EmbeddedStatement;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ReturnStatement">
            <summary>
            return Expression;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.SwitchStatement">
            <summary>
            switch (Expression) { SwitchSections }
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CaseLabel.Expression">
            <summary>
            Gets or sets the expression. The expression can be null - if the expression is null, it's the default switch section.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.ThrowStatement">
            <summary>
            throw Expression;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TryCatchStatement">
            <summary>
            try TryBlock CatchClauses finally FinallyBlock
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CatchClause">
            <summary>
            catch (Type VariableName) { Body }
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UncheckedStatement">
            <summary>
            unchecked BodyBlock
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UnsafeStatement">
            <summary>
            unsafe { Body }
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.UsingStatement">
            <summary>
            using (ResourceAcquisition) EmbeddedStatement
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.UsingStatement.ResourceAcquisition">
            <summary>
            Either a VariableDeclarationStatement, or an Expression.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.WhileStatement">
            <summary>
            "while (Condition) EmbeddedStatement"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.YieldBreakStatement">
            <summary>
            yield break;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.YieldReturnStatement">
            <summary>
            yield return Expression;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Accessor">
            <summary>
            get/set/add/remove
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CustomEventDeclaration.PrivateImplementationType">
            <summary>
            Gets/Sets the type reference of the interface that is explicitly implemented.
            Null node if this member is not an explicit interface implementation.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.FixedVariableInitializer">
            <summary>
            Name [ CountExpression ]
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.IndexerDeclaration.PrivateImplementationType">
            <summary>
            Gets/Sets the type reference of the interface that is explicitly implemented.
            Null node if this member is not an explicit interface implementation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.MethodDeclaration.PrivateImplementationType">
            <summary>
            Gets/Sets the type reference of the interface that is explicitly implemented.
            Null node if this member is not an explicit interface implementation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.OperatorDeclaration.GetOperatorType(System.String)">
            <summary>
            Gets the operator type from the method name, or null, if the method does not represent one of the known operator types.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.OperatorDeclaration.GetName(ICSharpCode.NRefactory.CSharp.OperatorType)">
            <summary>
            Gets the method name for the operator type. ("op_Addition", "op_Implicit", etc.)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.OperatorDeclaration.GetToken(ICSharpCode.NRefactory.CSharp.OperatorType)">
            <summary>
            Gets the token for the operator type ("+", "implicit", etc.)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.PropertyDeclaration.PrivateImplementationType">
            <summary>
            Gets/Sets the type reference of the interface that is explicitly implemented.
            Null node if this member is not an explicit interface implementation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpProjectContent.SetAssemblyName(System.String)">
            <summary>
            Sets both the short and the full assembly names.
            </summary>
            <param name="newAssemblyName">New full assembly name.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpProjectContent.AddOrUpdateFiles(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile})">
            <summary>
            Adds the specified files to the project content.
            If a file with the same name already exists, updated the existing file.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpProjectContent.AddOrUpdateFiles(ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile[])">
            <summary>
            Adds the specified files to the project content.
            If a file with the same name already exists, this method updates the existing file.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpProjectContent.RemoveFiles(System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Removes the files with the specified names.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpProjectContent.RemoveFiles(System.String[])">
            <summary>
            Removes the files with the specified names.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstFormattingVisitor.ApplyChanges">
            <summary>
            Applies the changes to the input document.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.AstFormattingVisitor.ApplyChanges(ICSharpCode.NRefactory.CSharp.Refactoring.Script)">
            <summary>
            Applies the changes to the given Script instance.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CodeDomConvertVisitor">
            <summary>
            Converts from C# AST to CodeDom.
            </summary>
            <remarks>
            The conversion is intended for use in the SharpDevelop forms designer.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CodeDomConvertVisitor.Convert(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.SyntaxTree,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile)">
            <summary>
            Converts a syntax tree to CodeDom.
            </summary>
            <param name="syntaxTree">The input syntax tree.</param>
            <param name="compilation">The current compilation.</param>
            <param name="unresolvedFile">CSharpUnresolvedFile, used for resolving.</param>
            <returns>Converted CodeCompileUnit</returns>
            <remarks>
            This conversion process requires a resolver because it needs to distinguish field/property/event references etc.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CodeDomConvertVisitor.Convert(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver)">
            <summary>
            Converts a C# AST node to CodeDom.
            </summary>
            <param name="node">The input node.</param>
            <param name="resolver">The AST resolver.</param>
            <returns>The node converted into CodeDom</returns>
            <remarks>
            This conversion process requires a resolver because it needs to distinguish field/property/event references etc.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CodeDomConvertVisitor.MakeSnippetExpression(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Converts an expression by storing it as C# snippet.
            This is used for expressions that cannot be represented in CodeDom.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CodeDomConvertVisitor.UseFullyQualifiedTypeNames">
            <summary>
            Gets/Sets whether the visitor should convert short type names into
            fully qualified type names.
            The default is <c>false</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CodeDomConvertVisitor.AllowSnippetNodes">
            <summary>
            Gets whether the visitor is allowed to produce snippet nodes for
            code that cannot be converted.
            The default is <c>true</c>. If this property is set to <c>false</c>,
            unconvertible code will throw a NotSupportedException.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CSharpAmbience">
            <summary>
            C# ambience.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.InsertParenthesesVisitor">
            <summary>
            Inserts the parentheses into the AST that are needed to ensure the AST can be printed correctly.
            For example, if the AST contains
            BinaryOperatorExpresson(2, Mul, BinaryOperatorExpression(1, Add, 1))); printing that AST
            would incorrectly result in "2 * 1 + 1". By running InsertParenthesesVisitor, the necessary
            parentheses are inserted: "2 * (1 + 1)".
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.InsertParenthesesVisitor.GetPrecedence(ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Gets the row number in the C# 4.0 spec operator precedence table.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.InsertParenthesesVisitor.ParenthesizeIfRequired(ICSharpCode.NRefactory.CSharp.Expression,System.Int32)">
            <summary>
            Parenthesizes the expression if it does not have the minimum required precedence.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.InsertParenthesesVisitor.InsertParenthesesForReadability">
            <summary>
            Gets/Sets whether the visitor should insert parentheses to make the code better looking.
            If this property is false, it will insert parentheses only where strictly required by the language spec.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IOutputFormatter">
            <summary>
            Output formatter for the Output visitor.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.IOutputFormatter.WriteIdentifier(System.String)">
            <summary>
            Writes an identifier.
            If the identifier conflicts with a keyword, the output visitor will
            call <c>WriteToken("@")</c> before calling WriteIdentifier().
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.IOutputFormatter.WriteKeyword(System.String)">
            <summary>
            Writes a keyword to the output.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.IOutputFormatter.WriteToken(System.String)">
            <summary>
            Writes a token to the output.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor">
            <summary>
            Outputs the AST.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.lastWritten">
            <summary>
            Used to insert the minimal amount of spaces so that the lexer recognizes the tokens that were written.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.WriteSpecials(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Writes all specials from start to end (exclusive). Does not touch the positionStack.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.WriteSpecialsUpToRole(ICSharpCode.NRefactory.Role)">
            <summary>
            Writes all specials between the current position (in the positionStack) and the next
            node with the specified role. Advances the current position.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.WriteSpecialsUpToNode(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Writes all specials between the current position (in the positionStack) and the specified node.
            Advances the current position.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.Comma(ICSharpCode.NRefactory.CSharp.AstNode,System.Boolean)">
            <summary>
            Writes a comma.
            </summary>
            <param name="nextNode">The next node after the comma.</param>
            <param name="noSpaceAfterComma">When set prevents printing a space after comma.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.OptionalComma">
            <summary>
            Writes an optional comma, e.g. at the end of an enum declaration or in an array initializer
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.OptionalSemicolon">
            <summary>
            Writes an optional semicolon, e.g. at the end of a type or namespace declaration.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.WriteKeyword(ICSharpCode.NRefactory.CSharp.TokenRole)">
            <summary>
            Writes a keyword, and all specials up to
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.Semicolon">
            <summary>
            Marks the end of a statement
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.Space(System.Boolean)">
            <summary>
            Writes a space depending on policy.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.IsKeyword(System.String,ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Determines whether the specified identifier is a keyword in the given context.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.ConvertChar(System.Char)">
            <summary>
            Gets the escape sequence for the specified character.
            </summary>
            <remarks>This method does not convert ' or ".</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpOutputVisitor.ConvertString(System.String)">
            <summary>
            Converts special characters to escape sequences within the given string.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TextWriterOutputFormatter">
            <summary>
            Writes C# code into a TextWriter.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.CompilerSettings">
            <summary>
            C# compiler settings.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CompilerSettings.#ctor">
            <summary>
            Creates a new CompilerSettings instance.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.AllowUnsafeBlocks">
            <summary>
            Gets/Sets whether <c>unsafe</c> code is allowed.
            The default is <c>true</c>. If set to false, parsing unsafe code will result in parser errors.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.CheckForOverflow">
            <summary>
            Gets/Sets whether overflow checking is enabled.
            The default is <c>false</c>. This setting effects semantic analysis.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.LanguageVersion">
            <summary>
            Gets/Sets the language version used by the parser.
            Using language constructs newer than the supplied version will result in parser errors.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.ConditionalSymbols">
            <summary>
            Gets/Sets the list of conditional symbols that are defined project-wide.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.SpecificWarningsAsErrors">
            <summary>
            Allows treating specific warnings as errors without setting <see cref="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.TreatWarningsAsErrors"/> to true.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CompilerSettings.DisabledWarnings">
            <summary>
            Disables the specified warnings.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpParser.Parse(System.String,System.String)">
            <summary>
            Parses a C# code file.
            </summary>
            <param name="program">The source code to parse.</param>
            <param name="fileName">The file name. Used to identify the file (e.g. when building a type system).
            This can be an arbitrary identifier, NRefactory never tries to access the file on disk.</param>
            <returns>Returns the syntax tree.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpParser.Parse(System.IO.TextReader,System.String)">
            <summary>
            Parses a C# code file.
            </summary>
            <param name="reader">The text reader containing the source code to parse.</param>
            <param name="fileName">The file name. Used to identify the file (e.g. when building a type system).
            This can be an arbitrary identifier, NRefactory never tries to access the file on disk.</param>
            <returns>Returns the syntax tree.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpParser.Parse(Mono.CSharp.CompilerCompilationUnit,System.String)">
            <summary>
            Converts a Mono.CSharp syntax tree into an NRefactory syntax tree.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.CSharpParser.Parse(System.IO.Stream,System.String)">
            <summary>
            Parses a C# code file.
            </summary>
            <param name="stream">The stream containing the source code to parse.</param>
            <param name="fileName">The file name. Used to identify the file (e.g. when building a type system).
            This can be an arbitrary identifier, NRefactory never tries to access the file on disk.</param>
            <returns>Returns the syntax tree.</returns>
        </member>
        <!-- Badly formed XML comment ignored for member "M:ICSharpCode.NRefactory.CSharp.CSharpParser.Parse(ICSharpCode.NRefactory.Editor.ITextSource,System.String)" -->
        <member name="P:ICSharpCode.NRefactory.CSharp.CSharpParser.CompilationUnitCallback">
            <summary>
            Callback that gets called with the Mono.CSharp syntax tree whenever some code is parsed.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CSharpParser.GenerateTypeSystemMode">
            <summary>
            Specifies whether to run the parser in a special mode for generating the type system.
            If this property is true, the syntax tree will only contain nodes relevant for the
            <see cref="M:ICSharpCode.NRefactory.CSharp.SyntaxTree.ToTypeSystem"/> call and might be missing other nodes (e.g. method bodies).
            The default is false.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.CSharpParser.InitialLocation">
            <summary>
            Specifies the text location where parsing starts.
            This property can be used when parsing a part of a file to make the locations of the AstNodes
            refer to the position in the whole file.
            The default is (1,1).
            </summary>
        </member>
        <member name="T:Mono.CSharp.MemberCore">
            <summary>
              Base representation for members.  This is used to keep track
              of Name, Location and Modifier flags, and handling Attributes.
            </summary>
        </member>
        <member name="T:Mono.CSharp.Attributable">
            <summary>
              Base class for objects that can have Attributes applied to them.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attributable.ApplyAttributeBuilder(Mono.CSharp.Attribute,Mono.CSharp.MethodSpec,System.Byte[],Mono.CSharp.PredefinedAttributes)">
            <summary>
            Use member-specific procedure to apply attribute @a in @cb to the entity being built in @builder
            </summary>
        </member>
        <member name="P:Mono.CSharp.Attributable.AttributeTargets">
            <summary>
            Returns one AttributeTarget for this element.
            </summary>
        </member>
        <member name="P:Mono.CSharp.Attributable.ValidAttributeTargets">
            <summary>
            Gets list of valid attribute targets for explicit target declaration.
            The first array item is default target. Don't break this rule.
            </summary>
        </member>
        <member name="F:Mono.CSharp.MemberCore.mod_flags">
            <summary>
              Modifier flags that the user specified in the source code
            </summary>
        </member>
        <member name="F:Mono.CSharp.MemberCore.comment">
            <summary>
              XML documentation comment
            </summary>
        </member>
        <member name="F:Mono.CSharp.MemberCore.caching_flags">
            <summary>
              MemberCore flags at first detected then cached
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.Emit">
            <summary>
            Base Emit method. This is also entry point for CLS-Compliant verification.
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.GetAttributeObsolete">
            <summary>
            Returns instance of ObsoleteAttribute for this MemberCore
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.CheckObsoleteness(Mono.CSharp.Location)">
            <summary>
            Checks for ObsoleteAttribute presence. It's used for testing of all non-types elements
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.IsClsComplianceRequired">
            <summary>
            Analyze whether CLS-Compliant verification must be execute for this MemberCore.
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.IsExposedFromAssembly">
            <summary>
            Returns true when MemberCore is exposed from assembly.
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.EnableOverloadChecks(Mono.CSharp.MemberCore)">
            <summary>
            Returns true when a member supports multiple overloads (methods, indexers, etc)
            </summary>
        </member>
        <member name="M:Mono.CSharp.MemberCore.VerifyClsCompliance">
            <summary>
            The main virtual method for CLS-Compliant verifications.
            The method returns true if member is CLS-Compliant and false if member is not
            CLS-Compliant which means that CLS-Compliant tests are not necessary. A descendants override it
            and add their extra verifications.
            </summary>
        </member>
        <member name="P:Mono.CSharp.MemberCore.Location">
            <summary>
              Location where this declaration happens
            </summary>
        </member>
        <member name="P:Mono.CSharp.MemberCore.DocCommentHeader">
            <summary>
              Represents header string for documentation comment 
              for each member types.
            </summary>
        </member>
        <member name="P:Mono.CSharp.MemberCore.CLSAttributeValue">
            <summary>
            Goes through class hierarchy and gets value of first found CLSCompliantAttribute.
            If no is attribute exists then assembly CLSCompliantAttribute is returned.
            </summary>
        </member>
        <member name="P:Mono.CSharp.MemberCore.HasClsCompliantAttribute">
            <summary>
            Returns true if MemberCore is explicitly marked with CLSCompliantAttribute
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "F:Mono.CSharp.TypeDefinition.pending" -->
        <member name="M:Mono.CSharp.TypeDefinition.AddIndexer(Mono.CSharp.Indexer)">
            <summary>
            Indexer has special handling in constrast to other AddXXX because the name can be driven by IndexerNameAttribute
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeDefinition.ResolveBaseTypes(Mono.CSharp.FullNamedExpression@)">
            <summary>
              This function computes the Base class and also the
              list of interfaces that the class or struct @c implements.
              
              The return value is an array (might be null) of
              interfaces implemented (as Types).
              
              The @base_class argument is set to the base object or null
              if this is `System.Object'. 
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeDefinition.Define">
            <summary>
              Populates our TypeBuilder with fields and methods
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeDefinition.VerifyImplements(Mono.CSharp.InterfaceMemberBase)">
            <summary>
              Performs checks for an explicit interface implementation.  First it
              checks whether the `interface_type' is a base inteface implementation.
              Then it checks whether `name' exists in the interface type.
            </summary>
        </member>
        <member name="P:Mono.CSharp.TypeDefinition.HasEquals">
            <summary>
            Method container contains Equals method
            </summary>
        </member>
        <member name="P:Mono.CSharp.TypeDefinition.HasGetHashCode">
            <summary>
            Method container contains GetHashCode method
            </summary>
        </member>
        <member name="M:Mono.CSharp.ClassOrStruct.DefineDefaultConstructor(System.Boolean)">
            <summary>
            Defines the default constructors 
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "M:Mono.CSharp.Statement.Resolve(Mono.CSharp.BlockContext)" -->
        <member name="M:Mono.CSharp.Statement.ResolveUnreachable(Mono.CSharp.BlockContext,System.Boolean)">
            <summary>
              We already know that the statement is unreachable, but we still
              need to resolve it to catch errors.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Statement.DoEmit(Mono.CSharp.EmitContext)">
            <summary>
              Return value indicates whether all code paths emitted return.
            </summary>
        </member>
        <member name="T:Mono.CSharp.Expression">
            <remarks>
              Base class for expressions
            </remarks>
        </member>
        <member name="M:Mono.CSharp.Expression.DoResolve(Mono.CSharp.ResolveContext)">
             <summary>
               Performs semantic analysis on the Expression
             </summary>
            
             <remarks>
               The Resolve method is invoked to perform the semantic analysis
               on the node.
            
               The return value is an expression (it can be the
               same expression in some cases) or a new
               expression that better represents this node.
               
               For example, optimizations of Unary (LiteralInt)
               would return a new LiteralInt with a negated
               value.
               
               If there is an error during semantic analysis,
               then an error should be reported (using Report)
               and a null value should be returned.
               
               There are two side effects expected from calling
               Resolve(): the the field variable "eclass" should
               be set to any value of the enumeration
               `ExprClass' and the type variable should be set
               to a valid type (this is the type of the
               expression).
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Expression.Resolve(Mono.CSharp.ResolveContext,Mono.CSharp.ResolveFlags)">
             <summary>
               Resolves an expression and performs semantic analysis on it.
             </summary>
            
             <remarks>
               Currently Resolve wraps DoResolve to perform sanity
               checking and assertion checking on what we expect from Resolve.
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Expression.Resolve(Mono.CSharp.ResolveContext)">
            <summary>
              Resolves an expression and performs semantic analysis on it.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Expression.ResolveLValue(Mono.CSharp.ResolveContext,Mono.CSharp.Expression)">
             <summary>
               Resolves an expression for LValue assignment
             </summary>
            
             <remarks>
               Currently ResolveLValue wraps DoResolveLValue to perform sanity
               checking and assertion checking on what we expect from Resolve
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Expression.Emit(Mono.CSharp.EmitContext)">
             <summary>
               Emits the code for the expression
             </summary>
            
             <remarks>
               The Emit method is invoked to generate the code
               for the expression.  
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Expression.#ctor">
            <summary>
              Protected constructor.  Only derivate types should
              be able to be created
            </summary>
        </member>
        <member name="M:Mono.CSharp.Expression.ExprClassFromMemberInfo(Mono.CSharp.MemberSpec,Mono.CSharp.Location)">
            <summary>
              Returns a fully formed expression after a MemberLookup
            </summary>
            
        </member>
        <member name="M:Mono.CSharp.Expression.GetOperatorTrue(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.Location)">
            <summary>
              Returns an expression that can be used to invoke operator true
              on the expression if it exists.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Expression.GetOperatorFalse(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.Location)">
            <summary>
              Returns an expression that can be used to invoke operator false
              on the expression if it exists.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Expression.Error_UnexpectedKind(Mono.CSharp.IMemberContext,Mono.CSharp.Expression,System.String,System.String,Mono.CSharp.Location)">
            <summary>
              Reports that we were expecting `expr' to be of class `expected'
            </summary>
        </member>
        <member name="T:Mono.CSharp.Assign">
            <summary>
              The Assign node takes care of assigning the value of source into
              the expression represented by target.
            </summary>
        </member>
        <member name="T:Mono.CSharp.ExpressionStatement">
            <summary>
              This is just a base class for expressions that can
              appear on statements (invocations, object creation,
              assignments, post/pre increment and decrement).  The idea
              being that they would support an extra Emition interface that
              does not leave a result on the stack.
            </summary>
        </member>
        <member name="M:Mono.CSharp.ExpressionStatement.EmitStatement(Mono.CSharp.EmitContext)">
            <summary>
              Requests the expression to be emitted in a `statement'
              context.  This means that no new value is left on the
              stack after invoking this method (constrasted with
              Emit that will always leave a value on the stack).
            </summary>
        </member>
        <member name="M:Mono.CSharp.InterfaceMemberBase.FindBaseMember(Mono.CSharp.MemberSpec@,System.Boolean@)">
            <summary>
            Gets base method and its return type
            </summary>
        </member>
        <member name="T:Mono.CSharp.IMethodData">
            <summary>
            Interface for MethodData class. Holds links to parent members to avoid member duplication.
            </summary>
        </member>
        <member name="M:Mono.CSharp.MethodOrOperator.ConditionalConditions">
            <summary>
            Returns true if method has conditional attribute and the conditions is not defined (method is excluded).
            </summary>
        </member>
        <member name="T:Mono.CSharp.IAssignMethod">
             <summary>
               This interface is implemented by expressions that can be assigned to.
             </summary>
             <remarks>
               This interface is implemented by Expressions whose values can not
               store the result on the top of the stack.
            
               Expressions implementing this (Properties, Indexers and Arrays) would
               perform an assignment of the Expression "source" into its final
               location.
            
               No values on the top of the stack are expected to be left by
               invoking this method.
             </remarks>
        </member>
        <member name="T:Mono.CSharp.LocalTemporary">
             <summary>
               An Expression to hold a temporary value.
             </summary>
             <remarks>
               The LocalTemporary class is used to hold temporary values of a given
               type to "simulate" the expression semantics. The local variable is
               never captured.
            
               The local temporary is used to alter the normal flow of code generation
               basically it creates a local variable, and its emit instruction generates
               code to access this value, return its address or save its value.
            
               If `is_address' is true, then the value that we store is the address to the
               real value, and not the value itself.
            
               This is needed for a value type, because otherwise you just end up making a
               copy of the value on the stack and modifying it. You really need a pointer
               to the origional value so that you can modify it in that location. This
               Does not happen with a class because a class is a pointer -- so you always
               get the indirection.
            
             </remarks>
        </member>
        <member name="T:Mono.CSharp.IMemoryLocation">
            <summary>
              This interface is implemented by variables
            </summary>
        </member>
        <member name="M:Mono.CSharp.IMemoryLocation.AddressOf(Mono.CSharp.EmitContext,Mono.CSharp.AddressOp)">
             <summary>
               The AddressOf method should generate code that loads
               the address of the object and leaves it on the stack.
            
               The `mode' argument is used to notify the expression
               of whether this will be used to read from the address or
               write to the address.
            
               This is just a hint that can be used to provide good error
               reporting, and should have no other side effects. 
             </summary>
        </member>
        <member name="F:Mono.CSharp.ResolveContext.Switch">
            <summary>
              If this is non-null, points to the current switch statement
            </summary>
        </member>
        <member name="F:Mono.CSharp.ResolveContext.Options.CheckedScope">
             <summary>
               This flag tracks the `checked' state of the compilation,
               it controls whether we should generate code that does overflow
               checking, or if we generate code that ignores overflows.
            
               The default setting comes from the command line option to generate
               checked or unchecked code plus any source code changes using the
               checked/unchecked statements or expressions.   Contrast this with
               the ConstantCheckState flag.
             </summary>
        </member>
        <member name="F:Mono.CSharp.ResolveContext.Options.ConstantCheckState">
            <summary>
              The constant check state is always set to `true' and cant be changed
              from the command line.  The source code can change this setting with
              the `checked' and `unchecked' statements and expressions. 
            </summary>
        </member>
        <member name="F:Mono.CSharp.ResolveContext.Options.DoFlowAnalysis">
            <summary>
              Whether control flow analysis is enabled
            </summary>
        </member>
        <member name="F:Mono.CSharp.ResolveContext.Options.OmitStructFlowAnalysis">
            <summary>
              Whether control flow analysis is disabled on structs
              (only meaningful when DoFlowAnalysis is set)
            </summary>
        </member>
        <member name="F:Mono.CSharp.ResolveContext.Options.ProbingMode">
            
             Indicates the current context is in probing mode, no errors are reported. 
            
        </member>
        <member name="T:Mono.CSharp.MemberAccess">
            <summary>
              Implements the member access expression
            </summary>
        </member>
        <member name="T:Mono.CSharp.FullNamedExpression">
            <summary>
              Represents a namespace or a type.  The name of the class was inspired by
              section 10.8.1 (Fully Qualified Names).
            </summary>
        </member>
        <member name="T:Mono.CSharp.Invocation">
            <summary>
              Invocation of methods or delegates.
            </summary>
        </member>
        <member name="T:Mono.CSharp.MemberExpr">
            <summary>
              This class denotes an expression which evaluates to a member
              of a struct or a class.
            </summary>
        </member>
        <member name="M:Mono.CSharp.OverloadResolver.BetterFunction(Mono.CSharp.ResolveContext,Mono.CSharp.Arguments,Mono.CSharp.MemberSpec,Mono.CSharp.AParametersCollection,System.Boolean,Mono.CSharp.MemberSpec,Mono.CSharp.AParametersCollection,System.Boolean)">
            <summary>
              Determines "Better function" between candidate
              and the current best match
            </summary>
            <remarks>
               Returns a boolean indicating :
                false if candidate ain't better
                true  if candidate is better than the current best match
            </remarks>
        </member>
        <member name="P:Mono.CSharp.MemberExpr.Name">
            <summary>
              The name of this member.
            </summary>
        </member>
        <member name="P:Mono.CSharp.MemberExpr.IsInstance">
            <summary>
              Whether this is an instance member.
            </summary>
        </member>
        <member name="P:Mono.CSharp.MemberExpr.IsStatic">
            <summary>
              Whether this is a static member.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.Error_AttributeEmitError(System.String)">
            <summary>
            This is rather hack. We report many emit attribute error with same error to be compatible with
            csc. But because csc has to report them this way because error came from ilasm we needn't.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.ResolveAttributeType(System.Boolean)">
            <summary>
              Tries to resolve the type of the attribute. Flags an error if it can't, and complain is true.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.GetValidTargets">
            <summary>
              Get a string containing a list of valid targets for the attribute 'attr'
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.GetIndexerAttributeValue">
            <summary>
            Returns custom name of indexer
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.GetConditionalAttributeValue">
            <summary>
            Returns condition of ConditionalAttribute
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.GetObsoleteAttribute">
            <summary>
            Creates the instance of ObsoleteAttribute from this attribute instance
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.GetClsCompliantAttributeValue">
            <summary>
            Returns value of CLSCompliantAttribute contructor parameter but because the method can be called
            before ApplyAttribute. We need to resolve the arguments.
            This situation occurs when class deps is differs from Emit order.  
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.IsSecurityActionValid">
            <summary>
            Tests permitted SecurityAction for assembly or other types
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attribute.ExtractSecurityPermissionSet(Mono.CSharp.MethodSpec,System.Collections.Generic.Dictionary{System.Security.Permissions.SecurityAction,System.Security.PermissionSet}@)">
            <summary>
            Creates instance of SecurityAttribute class and add result of CreatePermission method to permission table.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Mono.CSharp.Attribute.Emit(System.Collections.Generic.Dictionary{Mono.CSharp.Attribute,System.Collections.Generic.List{Mono.CSharp.Attribute}})">
            <summary>
            Emit attribute for Attributable symbol
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attributes.CheckTargets">
            <summary>
            Checks whether attribute target is valid for the current element
            </summary>
        </member>
        <member name="M:Mono.CSharp.Attributes.SearchMulti(Mono.CSharp.PredefinedAttribute)">
            <summary>
            Returns all attributes of type 't'. Use it when attribute is AllowMultiple = true
            </summary>
        </member>
        <member name="T:Mono.CSharp.AttributeTester">
            <summary>
            Helper class for attribute verification routine.
            </summary>
        </member>
        <member name="M:Mono.CSharp.AttributeTester.Report_ObsoleteMessage(System.ObsoleteAttribute,System.String,Mono.CSharp.Location,Mono.CSharp.Report)">
            <summary>
            Common method for Obsolete error/warning reporting.
            </summary>
        </member>
        <member name="M:Mono.CSharp.ConstantFold.BinaryFold(Mono.CSharp.ResolveContext,Mono.CSharp.Binary.Operator,Mono.CSharp.Constant,Mono.CSharp.Constant,Mono.CSharp.Location)">
             <summary>
               Constant expression folder for binary operations.
            
               Returns null if the expression can not be folded.
             </summary>
        </member>
        <member name="M:Mono.CSharp.Class.ConditionalConditions">
            Search for at least one defined condition in ConditionalAttribute of attribute class
            Valid only for attribute classes.
        </member>
        <member name="T:Mono.CSharp.Interface">
            <summary>
              Interfaces
            </summary>
        </member>
        <member name="F:Mono.CSharp.Interface.AllowedModifiers">
            <summary>
              Modifiers allowed in a class declaration
            </summary>
        </member>
        <member name="T:Mono.CSharp.EmitContext">
            <summary>
              An Emit Context is created for each body of code (from methods,
              properties bodies, indexer bodies or constructor bodies)
            </summary>
        </member>
        <member name="F:Mono.CSharp.BuilderContext.Options.CheckedScope">
             <summary>
               This flag tracks the `checked' state of the compilation,
               it controls whether we should generate code that does overflow
               checking, or if we generate code that ignores overflows.
            
               The default setting comes from the command line option to generate
               checked or unchecked code plus any source code changes using the
               checked/unchecked statements or expressions.   Contrast this with
               the ConstantCheckState flag.
             </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.return_type">
            <summary>
              The value that is allowed to be returned or NULL if there is no
              return type.
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.temporary_storage">
            <summary>
              Keeps track of the Type to LocalBuilder temporary storage created
              to store structures (used to compute the address of the structure
              value on structure method invocations)
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.return_value">
            <summary>
              The location where we store the return value.
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.LoopBegin">
            <summary>
              Current loop begin and end labels.
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.LoopEnd">
            <summary>
              Current loop begin and end labels.
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.DefaultTarget">
            <summary>
              Default target in a switch statement.   Only valid if
              InSwitch is true
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.Switch">
            <summary>
              If this is non-null, points to the current switch statement
            </summary>
        </member>
        <member name="F:Mono.CSharp.EmitContext.CurrentAnonymousMethod">
            <summary>
             Whether we are inside an anonymous method.
            </summary>
        </member>
        <member name="M:Mono.CSharp.EmitContext.Mark(Mono.CSharp.Location)">
            <summary>
              This is called immediately before emitting an IL opcode to tell the symbol
              writer to which source line this opcode belongs.
            </summary>
        </member>
        <member name="M:Mono.CSharp.EmitContext.GetTemporaryLocal(Mono.CSharp.TypeSpec)">
            <summary>
              Returns a temporary storage for a variable of type t as 
              a local variable in the current body.
            </summary>
        </member>
        <member name="M:Mono.CSharp.EmitContext.TemporaryReturn">
             <summary>
               ReturnValue creates on demand the LocalBuilder for the
               return value from the function.  By default this is not
               used.  This is only required when returns are found inside
               Try or Catch statements.
            
               This method is typically invoked from the Emit phase, so
               we allow the creation of a return label if it was not
               requested during the resolution phase.   Could be cleaned
               up, but it would replicate a lot of logic in the Emit phase
               of the code that uses it.
             </summary>
        </member>
        <member name="M:Mono.CSharp.Const.Define">
            <summary>
              Defines the constant in the @parent
            </summary>
        </member>
        <member name="M:Mono.CSharp.Const.Emit">
            <summary>
             Emits the field value by evaluating the expression
            </summary>
        </member>
        <member name="T:Mono.CSharp.Constant">
            <summary>
              Base class for constants and literals.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Constant.GetValue">
            <summary>
             This is used to obtain the actual value of the literal
             cast into an object.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Constant.ConvertExplicitly(System.Boolean,Mono.CSharp.TypeSpec)">
            <summary>
            Maybe ConvertTo name is better. It tries to convert `this' constant to target_type.
            It throws OverflowException 
            </summary>
        </member>
        <member name="M:Mono.CSharp.Constant.IsDefaultInitializer(Mono.CSharp.TypeSpec)">
            <summary>
            Need to pass type as the constant can require a boxing
            and in such case no optimization is possible
            </summary>
        </member>
        <member name="M:Mono.CSharp.IntConstant.TryImplicitIntConversion(Mono.CSharp.TypeSpec)">
            <summary>
              Attempts to perform an implicit constant conversion of the IntConstant
              into a different data type using casts (See Implicit Constant
              Expression Conversions)
            </summary>
        </member>
        <member name="T:Mono.CSharp.SideEffectConstant">
            <summary>
              The value is constant, but when emitted has a side effect.  This is
              used by BitwiseAnd to ensure that the second expression is invoked
              regardless of the value of the left side.  
            </summary>
        </member>
        <member name="M:Mono.CSharp.CloneContext.RemapBlockCopy(Mono.CSharp.Block)">
            
             Remaps block to cloned copy if one exists.
            
        </member>
        <member name="M:Mono.CSharp.Convert.ImplicitNumericConversion(Mono.CSharp.Expression,Mono.CSharp.TypeSpec)">
             <summary>
               Implicit Numeric Conversions.
            
               expr is the expression to convert, returns a new expression of type
               target_type or null if an implicit conversion is not possible.
             </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.FindMostEncompassedType(System.Collections.Generic.IList{Mono.CSharp.TypeSpec})">
            <summary>
             Finds "most encompassed type" according to the spec (13.4.2)
             amongst the methods in the MethodGroupExpr
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.FindMostSpecificTarget(System.Collections.Generic.IList{Mono.CSharp.MethodSpec},Mono.CSharp.TypeSpec,System.Boolean)">
            <summary>
             Finds the most specific target Tx according to section 13.4.4
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ImplicitUserConversion(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
             User-defined Implicit conversions
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitUserConversion(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
             User-defined Explicit conversions
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ImplicitConversion(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
              Converts implicitly the resolved expression `expr' into the
              `target_type'.  It returns a new expression that can be used
              in a context that expects a `target_type'.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ImplicitConversionStandard(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
             <summary>
               Attempts to apply the `Standard Implicit
               Conversion' rules to the expression `expr' into
               the `target_type'.  It returns a new expression
               that can be used in a context that expects a
               `target_type'.
            
               This is different from `ImplicitConversion' in that the
               user defined implicit conversions are excluded.
             </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ImplicitConversionRequired(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
              Attempts to implicitly convert `source' into `target_type', using
              ImplicitConversion.  If there is no implicit conversion, then
              an error is signaled
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitNumericConversion(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec)">
             <summary>
               Performs the explicit numeric conversions
            
             There are a few conversions that are not part of the C# standard,
             they were interim hacks in the C# compiler that were supposed to
             become explicit operators in the UIntPtr class and IntPtr class,
             but for historical reasons it did not happen, so the C# compiler
             ended up with these special hacks.
            
             See bug 59800 for details.
            
             The conversion are:
               UIntPtr->SByte
               UIntPtr->Int16
               UIntPtr->Int32
               IntPtr->UInt64
               UInt64->IntPtr
               SByte->UIntPtr
               Int16->UIntPtr
            
             </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitReferenceConversionExists(Mono.CSharp.TypeSpec,Mono.CSharp.TypeSpec)">
            <summary>
             Returns whether an explicit reference conversion can be performed
             from source_type to target_type
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitReferenceConversion(Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.TypeSpec)">
            <summary>
              Implements Explicit Reference conversions
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitConversionCore(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
              Performs an explicit conversion of the expression `expr' whose
              type is expr.Type to `target_type'.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitConversionStandard(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
              Same as ExplicitConversion, only it doesn't include user defined conversions
            </summary>
        </member>
        <member name="M:Mono.CSharp.Convert.ExplicitConversion(Mono.CSharp.ResolveContext,Mono.CSharp.Expression,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
              Performs an explicit conversion of the expression `expr' whose
              type is expr.Type to `target_type'.
            </summary>
        </member>
        <member name="T:Mono.CSharp.CSharpParser">
            <summary>
               The C# Parser
            </summary>
        </member>
        <member name="F:Mono.CSharp.CSharpParser.yyFinal">
            debugging support, requires the package jay.yydebug.
                  Set to null to suppress debugging messages.
        </member>
        <member name="F:Mono.CSharp.CSharpParser.current_block">
            <summary>
              Current block is used to add statements as we find
              them.  
            </summary>
        </member>
        <member name="F:Mono.CSharp.CSharpParser.current_local_parameters">
            <summary>
              This is used by the unary_expression code to resolve
              a name against a parameter.  
            </summary>
        </member>
        <member name="F:Mono.CSharp.CSharpParser.oob_stack">
            
             An out-of-band stack.
            
        </member>
        <member name="F:Mono.CSharp.CSharpParser.yacc_verbose_flag">
            
             Controls the verbosity of the errors produced by the parser
            
        </member>
        <member name="F:Mono.CSharp.CSharpParser.UnexpectedEOF">
             
             Used by the interactive shell, flags whether EOF was reached
             and an error was produced
            
        </member>
        <member name="F:Mono.CSharp.CSharpParser.file">
            
             The current file.
            
        </member>
        <member name="F:Mono.CSharp.CSharpParser.tmpComment">
            
             Temporary Xml documentation cache.
             For enum types, we need one more temporary store.
            
        </member>
        <member name="F:Mono.CSharp.CSharpParser.current_attr_target">
            Current attribute target
        </member>
        <member name="F:Mono.CSharp.CSharpParser.InteractiveResult">
            When using the interactive parser, this holds the
            resulting expression
        </member>
        <member name="F:Mono.CSharp.CSharpParser.ErrorOutput">
            error output stream.
                  It should be changeable.
        </member>
        <member name="M:Mono.CSharp.CSharpParser.yyerror(System.String)">
            simplified error message.
                  @see <a href="#yyerror(java.lang.String, java.lang.String[])">yyerror</a>
        </member>
        <member name="M:Mono.CSharp.CSharpParser.yyerror(System.String,System.String[])">
            (syntax) error message.
                  Can be overwritten to control message format.
                  @param message text to be displayed.
                  @param expected vector of acceptable tokens, if available.
        </member>
        <member name="F:Mono.CSharp.CSharpParser.yyExpectingState">
            index-checked interface to yyNames[].
                  @param token single character or %token value.
                  @return token name or [illegal] or [unknown].
        </member>
        <member name="M:Mono.CSharp.CSharpParser.yyExpectingTokens(System.Int32)">
            computes list of expected tokens on error by tracing the tables.
                  @param state for which to compute the list.
                  @return list of token names.
        </member>
        <member name="M:Mono.CSharp.CSharpParser.yyparse(Mono.CSharp.yyParser.yyInput,System.Object)">
            the generated parser, with debugging messages.
                  Maintains a state and a value stack, currently with fixed maximum size.
                  @param yyLex scanner.
                  @param yydebug debug message writer implementing yyDebug, or null.
                  @return result of the last reduction, if any.
                  @throws yyException on irrecoverable parse error.
        </member>
        <member name="F:Mono.CSharp.CSharpParser.yyMax">
            initial size and increment of the state/value stack [default 256].
                  This is not final so that it can be overwritten outside of invocations
                  of yyparse().
        </member>
        <member name="M:Mono.CSharp.CSharpParser.yyDefault(System.Object)">
            executed at the beginning of a reduce action.
                  Used as $$ = yyDefault($1), prior to the user-specified action, if any.
                  Can be overwritten to provide deep copy, etc.
                  @param first value for $1, or null.
                  @return first.
        </member>
        <member name="M:Mono.CSharp.CSharpParser.yyparse(Mono.CSharp.yyParser.yyInput)">
            the generated parser.
                  Maintains a state and a value stack, currently with fixed maximum size.
                  @param yyLex scanner.
                  @return result of the last reduction, if any.
                  @throws yyException on irrecoverable parse error.
        </member>
        <member name="T:Mono.CSharp.yyParser.yyException">
            thrown for irrecoverable syntax errors and stack overflow.
        </member>
        <member name="T:Mono.CSharp.yyParser.yyInput">
            must be implemented by a scanner object to supply input to the parser.
        </member>
        <member name="M:Mono.CSharp.yyParser.yyInput.advance">
            move on to next token.
                    @return false if positioned beyond tokens.
                    @throws IOException on input error.
        </member>
        <member name="M:Mono.CSharp.yyParser.yyInput.token">
            classifies current token.
                    Should not be called if advance() returned false.
                    @return current %token or single character.
        </member>
        <member name="M:Mono.CSharp.yyParser.yyInput.value">
            associated with current token.
                    Should not be called if advance() returned false.
                    @return value for token().
        </member>
        <member name="T:Mono.CSharp.Tokenizer">
            <summary>
               Tokenizer for C# source code. 
            </summary>
        </member>
        <member name="M:Mono.CSharp.Tokenizer.ParsePragmaDirective(System.String)">
            <summary>
            Handles #pragma directive
            </summary>
        </member>
        <member name="T:Mono.CSharp.Driver">
            <summary>
               The compiler driver.
            </summary>
        </member>
        <member name="T:Mono.CSharp.TypeExpr">
            <summary>
              Expression that evaluates to a type
            </summary>
        </member>
        <member name="T:Mono.CSharp.EnumConstant">
            <summary>
             This class is used to wrap literals which belong inside Enums
            </summary>
        </member>
        <member name="T:Mono.CSharp.ExprClass">
            <remarks>
              The ExprClass class contains the is used to pass the 
              classification of an expression (value, variable, namespace,
              type, method group, property access, event access, indexer access,
              nothing).
            </remarks>
        </member>
        <member name="T:Mono.CSharp.ResolveFlags">
            <remarks>
              This is used to tell Resolve in which types of expressions we're
              interested.
            </remarks>
        </member>
        <member name="T:Mono.CSharp.TypeCast">
             <summary>
               This kind of cast is used to encapsulate the child
               whose type is child.Type into an expression that is
               reported to return "return_type".  This is used to encapsulate
               expressions which have compatible types, but need to be dealt
               at higher levels with.
            
               For example, a "byte" expression could be encapsulated in one
               of these as an "unsigned int".  The type for the expression
               would be "unsigned int".
            
             </summary>
        </member>
        <member name="T:Mono.CSharp.BoxedCast">
             <summary>
               This kind of cast is used to encapsulate Value Types in objects.
            
               The effect of it is to box the value type emitted by the previous
               operation.
             </summary>
        </member>
        <member name="T:Mono.CSharp.ConvCast">
             <summary>
               This is used to perform explicit numeric conversions.
            
               Explicit numeric conversions might trigger exceptions in a checked
               context, so they should generate the conv.ovf opcodes instead of
               conv opcodes.
             </summary>
        </member>
        <member name="T:Mono.CSharp.ClassCast">
            <summary>
              This kind of cast is used to encapsulate a child and cast it
              to the class requested
            </summary>
        </member>
        <member name="T:Mono.CSharp.SimpleName">
            <summary>
              SimpleName expressions are formed of a single word and only happen at the beginning 
              of a dotted-name.
            </summary>
        </member>
        <member name="T:Mono.CSharp.TypeExpression">
            <summary>
              Fully resolved Expression that already evaluated to a type
            </summary>
        </member>
        <member name="T:Mono.CSharp.MethodGroupExpr">
            <summary>
              MethodGroupExpr represents a group of method candidates which
              can be resolved to the best method overload
            </summary>
        </member>
        <member name="M:Mono.CSharp.MethodGroupExpr.OverloadResolve(Mono.CSharp.ResolveContext,Mono.CSharp.Arguments@,Mono.CSharp.OverloadResolver.IErrorHandler,Mono.CSharp.OverloadResolver.Restrictions)">
             <summary>
               Find the Applicable Function Members (7.4.2.1)
            
               me: Method Group expression with the members to select.
                   it might contain constructors or methods (or anything
                   that maps to a method).
            
               Arguments: ArrayList containing resolved Argument objects.
            
               loc: The location if we want an error to be reported, or a Null
                    location for "probing" purposes.
            
               Returns: The MethodBase (either a ConstructorInfo or a MethodInfo)
                        that is the best match of me on Arguments.
            
             </summary>
        </member>
        <member name="T:Mono.CSharp.EventExpr">
            <summary>
              Fully resolved expression that evaluates to an Event
            </summary>
        </member>
        <member name="T:Mono.CSharp.VarExpr">
            
            Handles `var' contextual keyword; var becomes a keyword only
            if no type called var exists in a variable scope
            
        </member>
        <member name="T:Mono.CSharp.Enum">
            <summary>
              Enumeration container
            </summary>
        </member>
        <member name="T:Mono.CSharp.Evaluator">
             <summary>
               Evaluator: provides an API to evaluate C# statements and
               expressions dynamically.
             </summary>
             <remarks>
               This class exposes static methods to evaluate expressions in the
               current program.
            
               To initialize the evaluator with a number of compiler
               options call the Init(string[]args) method with a set of
               command line options that the compiler recognizes.
            
               To interrupt execution of a statement, you can invoke the
               Evaluator.Interrupt method.
             </remarks>
        </member>
        <member name="F:Mono.CSharp.Evaluator.DescribeTypeExpressions">
            <summary>
              If true, turns type expressions into valid expressions
              and calls the describe method on it
            </summary>
        </member>
        <member name="F:Mono.CSharp.Evaluator.Terse">
            <summary>
              Whether the evaluator will use terse syntax, and the semicolons at the end are optional
            </summary>
        </member>
        <member name="M:Mono.CSharp.Evaluator.Interrupt">
            <summary>
              Interrupts the evaluation of an expression executing in Evaluate.
            </summary>
            <remarks>
              Use this method to interrupt long-running invocations.
            </remarks>
        </member>
        <member name="M:Mono.CSharp.Evaluator.Compile(System.String,Mono.CSharp.CompiledMethod@)">
             <summary>
               Compiles the input string and returns a delegate that represents the compiled code.
             </summary>
             <remarks>
            
               Compiles the input string as a C# expression or
               statement, unlike the Evaluate method, the
               resulting delegate can be invoked multiple times
               without incurring in the compilation overhead.
            
               If the return value of this function is null,
               this indicates that the parsing was complete.
               If the return value is a string it indicates
               that the input string was partial and that the
               invoking code should provide more code before
               the code can be successfully compiled.
            
               If you know that you will always get full expressions or
               statements and do not care about partial input, you can use
               the other Compile overload. 
            
               On success, in addition to returning null, the
               compiled parameter will be set to the delegate
               that can be invoked to execute the code.
            
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Evaluator.Compile(System.String)">
             <summary>
               Compiles the input string and returns a delegate that represents the compiled code.
             </summary>
             <remarks>
            
               Compiles the input string as a C# expression or
               statement, unlike the Evaluate method, the
               resulting delegate can be invoked multiple times
               without incurring in the compilation overhead.
            
               This method can only deal with fully formed input
               strings and does not provide a completion mechanism.
               If you must deal with partial input (for example for
               interactive use) use the other overload. 
            
               On success, a delegate is returned that can be used
               to invoke the method.
            
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Evaluator.Evaluate(System.String,System.Object@,System.Boolean@)">
             <summary>
               Evaluates and expression or statement and returns any result values.
             </summary>
             <remarks>
               Evaluates the input string as a C# expression or
               statement.  If the input string is an expression
               the result will be stored in the result variable
               and the result_set variable will be set to true.
            
               It is necessary to use the result/result_set
               pair to identify when a result was set (for
               example, execution of user-provided input can be
               an expression, a statement or others, and
               result_set would only be set if the input was an
               expression.
            
               If the return value of this function is null,
               this indicates that the parsing was complete.
               If the return value is a string, it indicates
               that the input is partial and that the user
               should provide an updated string.
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Evaluator.Run(System.String)">
            <summary>
              Executes the given expression or statement.
            </summary>
            <remarks>
               Executes the provided statement, returns true
               on success, false on parsing errors.  Exceptions
               might be thrown by the called code.
            </remarks>
        </member>
        <member name="M:Mono.CSharp.Evaluator.Evaluate(System.String)">
             <summary>
               Evaluates and expression or statement and returns the result.
             </summary>
             <remarks>
               Evaluates the input string as a C# expression or
               statement and returns the value.   
            
               This method will throw an exception if there is a syntax error,
               of if the provided input is not an expression but a statement.
             </remarks>
        </member>
        <member name="M:Mono.CSharp.Evaluator.LoadAssembly(System.String)">
            <summary>
               Loads the given assembly and exposes the API to the user.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Evaluator.ReferenceAssembly(System.Reflection.Assembly)">
            <summary>
               Exposes the API of the given assembly to the Evaluator
            </summary>
        </member>
        <member name="P:Mono.CSharp.Evaluator.InteractiveBaseClass">
             <summary>
               The base class for the classes that host the user generated code
             </summary>
             <remarks>
            
               This is the base class that will host the code
               executed by the Evaluator.  By default
               this is the Mono.CSharp.InteractiveBase class
               which is useful for interactive use.
            
               By changing this property you can control the
               base class and the static members that are
               available to your evaluated code.
             </remarks>
        </member>
        <member name="T:Mono.CSharp.Evaluator.QuitValue">
            <summary>
              A sentinel value used to indicate that no value was
              was set by the compiled function.   This is used to
              differentiate between a function not returning a
              value and null.
            </summary>
        </member>
        <member name="T:Mono.CSharp.CompiledMethod">
            <summary>
              A delegate that can be used to invoke the
              compiled expression or statement.
            </summary>
            <remarks>
              Since the Compile methods will compile
              statements and expressions into the same
              delegate, you can tell if a value was returned
              by checking whether the returned value is of type
              NoValueSet.   
            </remarks>
        </member>
        <member name="T:Mono.CSharp.InteractiveBase">
            <summary>
              The default base class for every interaction line
            </summary>
            <remarks>
              The expressions and statements behave as if they were
              a static method of this class.   The InteractiveBase class
              contains a number of useful methods, but can be overwritten
              by setting the InteractiveBaseType property in the Evaluator
            </remarks>
        </member>
        <member name="F:Mono.CSharp.InteractiveBase.Output">
            <summary>
              Determines where the standard output of methods in this class will go. 
            </summary>
        </member>
        <member name="F:Mono.CSharp.InteractiveBase.Error">
            <summary>
              Determines where the standard error of methods in this class will go. 
            </summary>
        </member>
        <member name="F:Mono.CSharp.InteractiveBase.Prompt">
            <summary>
              The primary prompt used for interactive use.
            </summary>
        </member>
        <member name="F:Mono.CSharp.InteractiveBase.ContinuationPrompt">
            <summary>
              The secondary prompt used for interactive use (used when
              an expression is incomplete).
            </summary>
        </member>
        <member name="F:Mono.CSharp.InteractiveBase.QuitRequested">
            <summary>
              Used to signal that the user has invoked the  `quit' statement.
            </summary>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.ShowVars">
            <summary>
              Shows all the variables defined so far.
            </summary>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.ShowUsing">
            <summary>
              Displays the using statements in effect at this point. 
            </summary>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.Time(System.Action)">
            <summary>
              Times the execution of the given delegate
            </summary>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.LoadPackage(System.String)">
            <summary>
              Loads the assemblies from a package
            </summary>
            <remarks>
              Loads the assemblies from a package.   This is equivalent
              to passing the -pkg: command line flag to the C# compiler
              on the command line. 
            </remarks>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.LoadAssembly(System.String)">
            <summary>
              Loads the assembly
            </summary>
            <remarks>
              Loads the specified assembly and makes its types
              available to the evaluator.  This is equivalent
              to passing the -pkg: command line flag to the C#
              compiler on the command line.
            </remarks>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.Quit">
            <summary>
              Same as quit - useful in script scenerios
            </summary>
        </member>
        <member name="M:Mono.CSharp.InteractiveBase.Describe(System.Object)">
            <summary>
              Describes an object or a type.
            </summary>
            <remarks>
              This method will show a textual representation
              of the object's type.  If the object is a
              System.Type it renders the type directly,
              otherwise it renders the type returned by
              invoking GetType on the object.
            </remarks>
        </member>
        <member name="P:Mono.CSharp.InteractiveBase.help">
            <summary>
              Returns a list of available static methods. 
            </summary>
        </member>
        <member name="P:Mono.CSharp.InteractiveBase.quit">
            <summary>
              Indicates to the read-eval-print-loop that the interaction should be finished. 
            </summary>
        </member>
        <member name="T:Mono.CSharp.OptionalAssign">
             <summary>
                A class used to assign values if the source expression is not void
            
                Used by the interactive shell to allow it to call this code to set
                the return value for an invocation.
             </summary>
        </member>
        <member name="T:Mono.CSharp.UnaryMutator">
             <summary>
               Unary Mutator expressions (pre and post ++ and --)
             </summary>
            
             <remarks>
               UnaryMutator implements ++ and -- expressions.   It derives from
               ExpressionStatement becuase the pre/post increment/decrement
               operators can be used in a statement context.
            
             FIXME: Idea, we could split this up in two classes, one simpler
             for the common case, and one with the extra fields for more complex
             classes (indexers require temporary access;  overloaded require method)
            
             </remarks>
        </member>
        <member name="T:Mono.CSharp.Is">
            <summary>
              Implementation of the `is' operator.
            </summary>
        </member>
        <member name="T:Mono.CSharp.As">
            <summary>
              Implementation of the `as' operator.
            </summary>
        </member>
        <member name="T:Mono.CSharp.Binary">
            <summary>
              Binary operators
            </summary>
        </member>
        <member name="M:Mono.CSharp.Binary.OperName(Mono.CSharp.Binary.Operator)">
            <summary>
              Returns a stringified representation of the Operator
            </summary>
        </member>
        <member name="M:Mono.CSharp.Binary.EmitBranchable(Mono.CSharp.EmitContext,System.Reflection.Emit.Label,System.Boolean)">
             <remarks>
               EmitBranchable is called from Statement.EmitBoolExpression in the
               context of a conditional bool expression.  This function will return
               false if it is was possible to use EmitBranchable, or true if it was.
            
               The expression's code is generated, and we will generate a branch to `target'
               if the resulting expression value is equal to isTrue
             </remarks>
        </member>
        <member name="T:Mono.CSharp.Conditional">
            <summary>
              Implements the ternary conditional operator (?:)
            </summary>
        </member>
        <member name="T:Mono.CSharp.ParameterReference">
            <summary>
              This represents a reference to a parameter in the intermediate
              representation.
            </summary>
        </member>
        <member name="M:Mono.CSharp.New.Constantify(Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
            Converts complex core type syntax like 'new int ()' to simple constant
            </summary>
        </member>
        <member name="T:Mono.CSharp.ArrayCreation">
             <summary>
               14.5.10.2: Represents an array creation expression.
             </summary>
            
             <remarks>
               There are two possible scenarios here: one is an array creation
               expression that specifies the dimensions and optionally the
               initialization data and the other which does not need dimensions
               specified but where initialization data is mandatory.
             </remarks>
        </member>
        <member name="T:Mono.CSharp.This">
            <summary>
              Represents the `this' construct
            </summary>
        </member>
        <member name="T:Mono.CSharp.ArglistAccess">
            <summary>
              Represents the `__arglist' construct
            </summary>
        </member>
        <member name="T:Mono.CSharp.Arglist">
            <summary>
              Represents the `__arglist (....)' construct
            </summary>
        </member>
        <member name="T:Mono.CSharp.TypeOf">
            <summary>
              Implements the typeof operator
            </summary>
        </member>
        <member name="T:Mono.CSharp.SizeOf">
            <summary>
              Implements the sizeof expression
            </summary>
        </member>
        <member name="T:Mono.CSharp.QualifiedAliasMember">
            <summary>
              Implements the qualified-alias-member (::) expression.
            </summary>
        </member>
        <member name="T:Mono.CSharp.CheckedExpr">
            <summary>
              Implements checked expressions
            </summary>
        </member>
        <member name="T:Mono.CSharp.UnCheckedExpr">
            <summary>
              Implements the unchecked expression
            </summary>
        </member>
        <member name="T:Mono.CSharp.ElementAccess">
             <summary>
               An Element Access expression.
            
               During semantic analysis these are transformed into 
               IndexerAccess, ArrayAccess or a PointerArithmetic.
             </summary>
        </member>
        <member name="T:Mono.CSharp.ArrayAccess">
            <summary>
              Implements array access 
            </summary>
        </member>
        <member name="T:Mono.CSharp.EmptyExpression">
             <summary>
               This class exists solely to pass the Type around and to be a dummy
               that can be passed to the conversion functions (this is used by
               foreach implementation to typecast the object return value from
               get_Current into the proper type.  All code has been generated and
               we only care about the side effect conversions to be performed
            
               This is also now used as a placeholder where a no-action expression
               is needed (the `New' class).
             </summary>
        </member>
        <member name="T:Mono.CSharp.FixedField">
            <summary>
            Fixed buffer implementation
            </summary>
        </member>
        <member name="T:Mono.CSharp.TypeParameterExpr">
            <summary>
              A TypeExpr which already resolved to a type parameter.
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeArguments.Resolve(Mono.CSharp.IMemberContext)">
            <summary>
              Resolve the type arguments.
            </summary>
        </member>
        <member name="P:Mono.CSharp.TypeArguments.Arguments">
            <summary>
              We may only be used after Resolve() is called and return the fully
              resolved types.
            </summary>
        </member>
        <member name="M:Mono.CSharp.GenericTypeExpr.#ctor(Mono.CSharp.TypeSpec,Mono.CSharp.TypeArguments,Mono.CSharp.Location)">
            <summary>
              Instantiate the generic type `t' with the type arguments `args'.
              Use this constructor if you already know the fully resolved
              generic type.
            </summary>		
        </member>
        <member name="M:Mono.CSharp.TypeManager.CSharpName(Mono.CSharp.TypeSpec)">
            <summary>
              Returns the C# name of a type if possible, or the full type name otherwise
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeManager.HasElementType(Mono.CSharp.TypeSpec)">
            <summary>
            This method is not implemented by MS runtime for dynamic types
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeManager.VerifyUnmanaged(Mono.CSharp.ModuleContainer,Mono.CSharp.TypeSpec,Mono.CSharp.Location)">
            <summary>
              Utility function that can be used to probe whether a type
              is managed or not.  
            </summary>
        </member>
        <member name="M:Mono.CSharp.TypeManager.IsInstantiationOfSameGenericType(Mono.CSharp.TypeSpec,Mono.CSharp.TypeSpec)">
            <summary>
              Check whether `type' and `parent' are both instantiations of the same
              generic type.  Note that we do not check the type parameters here.
            </summary>
        </member>
        <member name="T:Mono.CSharp.Return">
            <summary>
              Implements the return statement
            </summary>
        </member>
        <member name="T:Mono.CSharp.Block">
             <summary>
               Block represents a C# block.
             </summary>
            
             <remarks>
               This class is used in a number of places: either to represent
               explicit blocks that the programmer places or implicit blocks.
            
               Implicit blocks are used as labels or to introduce variable
               declarations.
            
               Top-level blocks derive from Block, and they are called ToplevelBlock
               they contain extra information that is not necessary on normal blocks.
             </remarks>
        </member>
        <member name="T:Mono.CSharp.ParameterBase">
            <summary>
              Abstract Base class for parameters of a method.
            </summary>
        </member>
        <member name="T:Mono.CSharp.Location">
             <summary>
               Keeps track of the location in the program
             </summary>
            
             <remarks>
               This uses a compact representation and a couple of auxiliary
               structures to keep track of tokens to (file,line and column) 
               mappings. The usage of the bits is:
               
                 - 16 bits for "checkpoint" which is a mixed concept of
                   file and "line segment"
                 - 8 bits for line delta (offset) from the line segment
                 - 8 bits for column number.
            
               http://lists.ximian.com/pipermail/mono-devel-list/2004-December/009508.html
             </remarks>
        </member>
        <member name="P:Mono.CSharp.Location.IsNull">
            <summary>
              Whether the Location is Null
            </summary>
        </member>
        <member name="M:Mono.CSharp.MethodData.DefineMethodBuilder(Mono.CSharp.TypeDefinition,System.String,Mono.CSharp.ParametersCompiled)">
            <summary>
            Create the MethodBuilder for the method 
            </summary>
        </member>
        <member name="M:Mono.CSharp.Namespace.#ctor(Mono.CSharp.Namespace,System.String)">
            <summary>
              Constructor Takes the current namespace and the
              name.  This is bootstrapped with parent == null
              and name = ""
            </summary>
        </member>
        <member name="P:Mono.CSharp.Namespace.Name">
            <summary>
              The qualified name of the current namespace
            </summary>
        </member>
        <member name="P:Mono.CSharp.Namespace.Parent">
            <summary>
              The parent of this namespace, used by the parser to "Pop"
              the current namespace declaration
            </summary>
        </member>
        <member name="T:Mono.CSharp.ReturnParameter">
            <summary>
            Class for applying custom attributes on the return type
            </summary>
        </member>
        <member name="P:Mono.CSharp.ReturnParameter.ValidAttributeTargets">
            <summary>
            Is never called
            </summary>
        </member>
        <member name="T:Mono.CSharp.ParametersCompiled">
            <summary>
              Represents the methods parameters
            </summary>
        </member>
        <member name="F:Mono.CSharp.PendingImplementation.container">
            <summary>
              The container for this PendingImplementation
            </summary>
        </member>
        <member name="F:Mono.CSharp.PendingImplementation.pending_implementations">
            <summary>
              This is the array of TypeAndMethods that describes the pending implementations
              (both interfaces and abstract methods in base class)
            </summary>
        </member>
        <member name="M:Mono.CSharp.PendingImplementation.IsInterfaceMethod(Mono.CSharp.MemberName,Mono.CSharp.TypeSpec,Mono.CSharp.MethodData,Mono.CSharp.MethodSpec@,System.Boolean@)">
            <summary>
              Whether the specified method is an interface method implementation
            </summary>
        </member>
        <member name="M:Mono.CSharp.PendingImplementation.InterfaceMethod(Mono.CSharp.MemberName,Mono.CSharp.TypeSpec,Mono.CSharp.MethodData,Mono.CSharp.PendingImplementation.Operation,Mono.CSharp.MethodSpec@,System.Boolean@)">
             <remarks>
               If a method in Type `t' (or null to look in all interfaces
               and the base abstract class) with name `Name', return type `ret_type' and
               arguments `args' implements an interface, this method will
               return the MethodInfo that this method implements.
            
               If `name' is null, we operate solely on the method's signature.  This is for
               instance used when implementing indexers.
            
               The `Operation op' controls whether to lookup, clear the pending bit, or clear
               all the methods with the given signature.
            
               The `MethodInfo need_proxy' is used when we're implementing an interface's
               indexer in a class.  If the new indexer's IndexerName does not match the one
               that was used in the interface, then we always need to create a proxy for it.
            
             </remarks>
        </member>
        <member name="M:Mono.CSharp.PendingImplementation.DefineProxy(Mono.CSharp.TypeSpec,Mono.CSharp.MethodSpec,Mono.CSharp.MethodSpec)">
             <summary>
               C# allows this kind of scenarios:
               interface I { void M (); }
               class X { public void M (); }
               class Y : X, I { }
            
               For that case, we create an explicit implementation function
               I.M in Y.
             </summary>
        </member>
        <member name="M:Mono.CSharp.PendingImplementation.BaseImplements(Mono.CSharp.TypeSpec,Mono.CSharp.MethodSpec,Mono.CSharp.MethodSpec@)">
            <summary>
              This function tells whether one of our base classes implements
              the given method (which turns out, it is valid to have an interface
              implementation in a base
            </summary>
        </member>
        <member name="M:Mono.CSharp.PendingImplementation.VerifyPendingMethods">
            <summary>
              Verifies that any pending abstract methods or interface methods
              were implemented.
            </summary>
        </member>
        <member name="T:Mono.CSharp.EventProperty">
            <summary>
            For case when event is declared like property (with add and remove accessors).
            </summary>
        </member>
        <member name="T:Mono.CSharp.EventField">
            <summary>
            Event is declared like field.
            </summary>
        </member>
        <member name="F:Mono.CSharp.Report.extra_information">
            <summary>
            List of symbols related to reported error/warning. You have to fill it before error/warning is reported.
            </summary>
        </member>
        <member name="M:Mono.CSharp.Report.SymbolRelatedToPreviousError(Mono.CSharp.Location,System.String)">
            <summary>
            In most error cases is very useful to have information about symbol that caused the error.
            Call this method before you call Report.Error when it makes sense.
            </summary>
        </member>
        <member name="T:Mono.CSharp.WarningRegions">
            <summary>
            Handles #pragma warning
            </summary>
        </member>
        <member name="T:Mono.CSharp.GotoDefault">
            <summary>
              `goto default' statement
            </summary>
        </member>
        <member name="T:Mono.CSharp.GotoCase">
            <summary>
              `goto case' statement
            </summary>
        </member>
        <member name="F:Mono.CSharp.Switch.SwitchType">
            <summary>
              The governing switch type
            </summary>
        </member>
        <member name="T:Mono.CSharp.Foreach">
            <summary>
              Implementation of the foreach C# statement
            </summary>
        </member>
        <member name="T:Mono.CSharp.CompletionResult">
            <summary>
              An exception used to terminate the compiler resolution phase and provide completions
            </summary>
            <remarks>
              This is thrown when we want to return the completions or
              terminate the completion process by AST nodes used in
              the completion process.
            </remarks>
        </member>
        <member name="M:Mono.CSharp.TypeSpecComparer.Unify.MayBecomeEqualGenericTypes(Mono.CSharp.TypeSpec,Mono.CSharp.TypeSpec)">
            <summary>
              Check whether `a' and `b' may become equal generic types.
              The algorithm to do that is a little bit complicated.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.QueryExpressionExpansionResult.RangeVariables">
            <summary>
            Maps original range variables to some node in the new tree that represents them.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.QueryExpressionExpansionResult.Expressions">
            <summary>
            Maps clauses to method calls. The keys will always be either a <see cref="T:ICSharpCode.NRefactory.CSharp.QueryClause"/> or a <see cref="T:ICSharpCode.NRefactory.CSharp.QueryOrdering"/>
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.QueryExpressionExpander.ExpandQueryExpressions(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Expands all occurances of query patterns in the specified node. Returns a clone of the node with all query patterns expanded, or null if there was no query pattern to expand.
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.AddUsingAction">
            <summary>
            1) When a type cannot be resolved, offers to add a using declaration
            or to replace it with the fully qualified type name.
            2) When an extension method cannot be resolved, offers to add a using declaration.
            3) When the caret is on a namespace name, offers to add a using declaration
            and simplify the type references to use the new shorter option.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.ConvertAsToCastAction">
            <summary>
            Converts an 'as' expression to a cast expression
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.SpecializedCodeAction`1">
            <summary>
            A specialized code action creates a code action assoziated with one special type of ast nodes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.SpecializedCodeAction`1.GetAction(ICSharpCode.NRefactory.CSharp.Refactoring.RefactoringContext,`0)">
            <summary>
            Gets the action for the specified ast node.
            </summary>
            <returns>
            The code action. May return <c>null</c>, if no action can be provided.
            </returns>
            <param name='context'>
            The refactoring conext.
            </param>
            <param name='node'>
            The AstNode it's ensured that the node is always != null, if called.
            </param>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.ConvertCastToAsAction">
            <summary>
            Converts a cast expression to an 'as' expression
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.ICodeIssueProvider">
            <summary>
            The code issue provider gets a list of all code issues in a syntax tree.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.ICodeIssueProvider.GetIssues(ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext)">
            <summary>
            Gets all code issues inside a syntax tree.
            </summary>
            <param name='context'>
            The refactoring context of the issues to get.
            </param>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.GatherVisitorBase">
            <summary>
            A base class for writing issue provider visitor implementations.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.GatherVisitorBase.#ctor(ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.CSharp.GatherVisitorBase"/> class.
            </summary>
            <param name="ctx">
            The refactoring context.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.GatherVisitorBase.GetIssues">
            <summary>
            Gets all the issues using the context root node as base.
            </summary>
            <returns>
            The issues.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.MultipleEnumerationIssue.GatherVisitor.SplitNode(ICSharpCode.NRefactory.CSharp.Refactoring.VariableReferenceNode)">
            <summary>
            split references in the specified node into sub nodes according to the value they uses
            </summary>
            <param name="node">node to split</param>
            <returns>list of sub nodes</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.MultipleEnumerationIssue.GatherVisitor.GetAssignmentUsageGraph(ICSharpCode.NRefactory.CSharp.Refactoring.VariableReferenceNode)">
            <summary>
            convert a variable reference graph starting from the specified node to an assignment usage graph,
            in which nodes are connect if and only if they contains references using the same assigned value
            </summary>
            <param name="startNode">starting node of the variable reference graph</param>
            <returns>
            list of VariableReferenceNode, each of which is a starting node of a sub-graph in which references all
            use the same assigned value
            </returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.DocumentScript">
            <summary>
            Script implementation based on IDocument.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.Script">
            <summary>
            Class for creating change scripts.
            'Original document' = document without the change script applied.
            'Current document' = document with the change script (as far as it is already created) applies.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.GetCurrentOffset(System.Int32)">
            <summary>
            Given an offset in the original document (at the start of script execution),
            returns the offset in the current document.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.GetCurrentOffset(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Given an offset in the original document (at the start of script execution),
            returns the offset in the current document.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.CreateTrackedSegment(System.Int32,System.Int32)">
            <summary>
            Creates a tracked segment for the specified (offset,length)-segment.
            Offset is interpreted to be an offset in the current document.
            </summary>
            <returns>
            A segment that initially has the specified values, and updates
            on every <see cref="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.Replace(System.Int32,System.Int32,System.String)"/> call.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.Replace(System.Int32,System.Int32,System.String)">
            <summary>
            Replaces text.
            </summary>
            <param name="offset">The starting offset of the text to be replaced.</param>
            <param name="length">The length of the text to be replaced.</param>
            <param name="newText">The new text.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.Rename(ICSharpCode.NRefactory.TypeSystem.IEntity,System.String)">
            <summary>
            Renames the specified entity.
            </summary>
            <param name='entity'>
            The Entity to rename
            </param>
            <param name='name'>
            The new name, if null the user is prompted for a new name.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.RenameTypeParameter(ICSharpCode.NRefactory.TypeSystem.IType,System.String)">
            <summary>
            Renames the specified entity.
            </summary>
            <param name='type'>
            The Entity to rename
            </param>
            <param name='name'>
            The new name, if null the user is prompted for a new name.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.Rename(ICSharpCode.NRefactory.TypeSystem.IVariable,System.String)">
            <summary>
            Renames the specified variable.
            </summary>
            <param name='variable'>
            The Variable to rename
            </param>
            <param name='name'>
            The new name, if null the user is prompted for a new name.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.Script.CreateNewType(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.CSharp.Refactoring.Script.NewTypeContext)">
            <summary>
            Creates a new file containing the type, namespace and correct usings.
            (Note: Should take care of IDE specific things, file headers, add to project, correct name).
            </summary>
            <param name='newType'>
            New type to be created.
            </param>
            <param name='context'>
            The Context in which the new type should be created.
            </param>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.Script.NewTypeContext.CurrentNamespace">
            <summary>
            The class should be placed in a new file to the current namespace.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.Script.NewTypeContext.UnitTests">
            <summary>
            The class should be placed in the unit tests. (not implemented atm.)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.UsingHelper">
            <summary>
            Helper methods for managing using declarations.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.UsingHelper.InsertUsingAndRemoveRedundantNamespaceUsage(ICSharpCode.NRefactory.CSharp.Refactoring.RefactoringContext,ICSharpCode.NRefactory.CSharp.Refactoring.Script,System.String)">
            <summary>
            Inserts 'using ns;' in the current scope, and then removes all explicit
            usages of ns that were made redundant by the new using.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.UsingHelper.InsertUsing(ICSharpCode.NRefactory.CSharp.Refactoring.RefactoringContext,ICSharpCode.NRefactory.CSharp.Refactoring.Script,ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Inserts 'newUsing' in the current scope.
            This method will try to insert new usings in the correct position (depending on
            where the existing usings are; and maintaining the sort order).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.UsingHelper.SortUsingBlock(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.AstNode},ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext)">
            <summary>
            Sorts the specified usings.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.PatternHelper">
            <summary>
            Helper class for constructing pattern ASTs.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.PatternHelper.CommutativeOperator(ICSharpCode.NRefactory.CSharp.Expression,ICSharpCode.NRefactory.CSharp.BinaryOperatorType,ICSharpCode.NRefactory.CSharp.Expression)">
            <summary>
            Produces a choice pattern for <c>expr1 op expr2</c> or <c>expr2 op expr1</c>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.RefactoringAstHelper">
            <summary>
            Helper methods for constructing ASTs for refactoring.
            These helpers work with frozen ASTs, i.e. they clone input nodes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.RefactoringAstHelper.RemoveTarget(ICSharpCode.NRefactory.CSharp.MemberReferenceExpression)">
            <summary>
            Removes the target from a member reference while preserving the identifier and type arguments.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.RefactoringAstHelper.RemoveTarget(ICSharpCode.NRefactory.CSharp.MemberType)">
            <summary>
            Removes the target from a member reference while preserving the identifier and type arguments.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.CreateDefiniteAssignmentAnalysis(ICSharpCode.NRefactory.CSharp.Statement)">
            <summary>
            Creates a new definite assignment analysis object with a given root statement.
            </summary>
            <returns>
            The definite assignment analysis object.
            </returns>
            <param name='root'>
            The root statement.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.CreateReachabilityAnalysis(ICSharpCode.NRefactory.CSharp.Statement)">
            <summary>
            Creates a new reachability analysis object with a given statement.
            </summary>
            <param name="statement">
            The statement to start the analysis.
            </param>
            <returns>
            The reachability analysis object.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.ParseFormatString(System.String)">
            <summary>
            Parses a composite format string.
            </summary>
            <returns>
            The format string parsing result.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.TranslateString(System.String)">
            <summary>
            Translates the english input string to the context language.
            </summary>
            <returns>
            The translated string.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.GetService(System.Type)">
            <summary>
            Retrieves a service from the refactoring context.
            If the service is not found in the <see cref="P:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.Services"/> container.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.UseExplicitTypes">
            <summary>
            Gets a value indicating if 'var' keyword should be used or explicit types.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.BaseRefactoringContext.Services">
            <summary>
            Gets a service container used to associate services with this context.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder">
            <summary>
            Converts from type system to the C# AST.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.#ctor(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver)">
            <summary>
            Creates a new TypeSystemAstBuilder.
            </summary>
            <param name="resolver">
            A resolver initialized for the position where the type will be inserted.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.#ctor">
            <summary>
            Creates a new TypeSystemAstBuilder.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.TypeMatches(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.ITypeDefinition,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType})">
            <summary>
            Gets whether 'type' is the same as 'typeDef' parameterized with the given type arguments.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.AddTypeArguments(ICSharpCode.NRefactory.CSharp.AstType,ICSharpCode.NRefactory.TypeSystem.ITypeDefinition,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Int32,System.Int32)">
            <summary>
            Adds type arguments to the result type.
            </summary>
            <param name="result">The result AST node (a SimpleType or MemberType)</param>
            <param name="typeDef">The type definition that owns the type parameters</param>
            <param name="typeArguments">The list of type arguments</param>
            <param name="startIndex">Index of first type argument to add</param>
            <param name="endIndex">Index after last type argument to add</param>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.AddAnnotations">
            <summary>
            Specifies whether the ast builder should add annotations to type references.
            The default value is <c>false</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowAccessibility">
            <summary>
            Controls the accessibility modifiers are shown.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowModifiers">
            <summary>
            Controls the non-accessibility modifiers are shown.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowBaseTypes">
            <summary>
            Controls whether base type references are shown.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowTypeParameters">
            <summary>
            Controls whether type parameter declarations are shown.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowTypeParameterConstraints">
            <summary>
            Controls whether constraints on type parameter declarations are shown.
            Has no effect if ShowTypeParameters is false.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowParameterNames">
            <summary>
            Controls whether the names of parameters are shown.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ShowConstantValues">
            <summary>
            Controls whether to show default values of optional parameters, and the values of constant fields.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.AlwaysUseShortTypeNames">
            <summary>
            Controls whether to use fully-qualified type names or short type names.
            The default value is <c>false</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.GenerateBody">
            <summary>
            Controls whether to generate a body that throws a <c>System.NotImplementedException</c>.
            The default value is <c>false</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.UseCustomEvents">
            <summary>
            Controls whether to generate custom events.
            The default value is <c>false</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.ConvertUnboundTypeArguments">
            <summary>
            Controls if unbound type argument names are inserted in the ast or not.
            The default value is <c>false</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.TypeSystemAstBuilder.UseAliases">
            <summary>
            Controls if aliases should be used inside the type name or not.
            The default value is <c>true</c>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator">
            <summary>
            Allows controlling which nodes are resolved by the resolve visitor.
            </summary>
            <seealso cref="T:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor"/>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator.Scan(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Asks the navigator whether to scan, skip, or resolve a node.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator.Resolved(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Notifies the navigator that a node was resolved.
            </summary>
            <param name="node">The node that was resolved</param>
            <param name="result">Resolve result</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator.ProcessConversion(ICSharpCode.NRefactory.CSharp.Expression,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.Conversion,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Notifies the navigator that a conversion was applied.
            </summary>
            <param name="expression">The expression that was resolved.</param>
            <param name="result">The resolve result of the expression.</param>
            <param name="conversion">The conversion applied to the expressed.</param>
            <param name="targetType">The target type of the conversion.</param>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.AwaitResolveResult">
            <summary>
            Represents the result of an await expression.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.AwaitResolveResult.GetAwaiterInvocation">
            <summary>
            The method representing the GetAwaiter() call. Can be an <see cref="T:ICSharpCode.NRefactory.Semantics.InvocationResolveResult"/> or a <see cref="T:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult"/>.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.AwaitResolveResult.AwaiterType">
            <summary>
            Awaiter type. Will not be null (but can be UnknownType).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.AwaitResolveResult.IsCompletedProperty">
            <summary>
            Property representing the IsCompleted property on the awaiter type. Can be null if the awaiter type or the property was not found, or when awaiting a dynamic expression.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.AwaitResolveResult.OnCompletedMethod">
            <summary>
            Method representing the OnCompleted method on the awaiter type. Can be null if the awaiter type or the method was not found, or when awaiting a dynamic expression.
            This can also refer to an UnsafeOnCompleted method, if the awaiter type implements <c>System.Runtime.CompilerServices.ICriticalNotifyCompletion</c>.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.AwaitResolveResult.GetResultMethod">
            <summary>
            Method representing the GetResult method on the awaiter type. Can be null if the awaiter type or the method was not found, or when awaiting a dynamic expression.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationType.Invocation">
            <summary>
            The invocation is a normal invocation ( 'a(b)' ).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationType.Indexing">
            <summary>
            The invocation is an indexing ( 'a[b]' ).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationType.ObjectCreation">
            <summary>
            The invocation is an object creation ( 'new a(b)' ). Also used when invoking a base constructor ( ' : base(a) ' ) and chaining constructors ( ' : this(a) ').
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult">
            <summary>
            Represents the result of an invocation of a member of a dynamic object.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult.Target">
            <summary>
            Target of the invocation. Can be a dynamic expression or a <see cref="T:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult"/>.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult.InvocationType">
            <summary>
            Type of the invocation.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult.Arguments">
            <summary>
            Arguments for the call. Named arguments will be instances of <see cref="T:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult"/>.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult.InitializerStatements">
            <summary>
            Gets the list of initializer statements that are appplied to the result of this invocation.
            This is used to represent object and collection initializers.
            With the initializer statements, the <see cref="T:ICSharpCode.NRefactory.Semantics.InitializedObjectResolveResult"/> is used
            to refer to the result of this invocation.
            Initializer statements can only exist if the <see cref="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationResolveResult.InvocationType"/> is <see cref="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicInvocationType.ObjectCreation"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.DynamicMemberResolveResult">
            <summary>
            Represents the result of an access to a member of a dynamic object.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicMemberResolveResult.Target">
            <summary>
            Target of the member access (a dynamic object).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.DynamicMemberResolveResult.Member">
            <summary>
            Name of the accessed member.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions">
            <summary>
            Contains logic that determines whether an implicit conversion exists between two types.
            </summary>
            <remarks>
            This class is thread-safe.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.Get(ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Gets the Conversions instance for the specified <see cref="T:ICSharpCode.NRefactory.TypeSystem.ICompilation"/>.
            This will make use of the context's cache manager to reuse the Conversions instance.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.IsConstraintConvertible(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether the type 'fromType' is convertible to 'toType'
            using one of the conversions allowed when satisying constraints (§4.4.4)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.IdentityConversion(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether there is an identity conversion from <paramref name="fromType"/> to <paramref name="toType"/>
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.UnpackGenericArrayInterface(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            For IList{T}, ICollection{T}, IEnumerable{T} and IReadOnlyList{T}, returns T.
            Otherwise, returns null.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.ImplicitTypeParameterConversion(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Implicit conversions involving type parameters.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.IsEncompassedBy(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether type A is encompassed by type B.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.IsDelegateCompatible(ICSharpCode.NRefactory.TypeSystem.IMethod,ICSharpCode.NRefactory.TypeSystem.IMethod,System.Boolean)">
            <summary>
            Gets whether a method <paramref name="m"/> is compatible with a delegate type.
            §15.2 Delegate compatibility
            </summary>
            <param name="m">The method to test for compatibility</param>
            <param name="invoke">The invoke method of the delegate</param>
            <param name="isExtensionMethodInvocation">Gets whether m is accessed using extension method syntax.
            If this parameter is true, the first parameter of <paramref name="m"/> will be ignored.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.BetterConversion(ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the better conversion (C# 4.0 spec, §7.5.3.3)
            </summary>
            <returns>0 = neither is better; 1 = t1 is better; 2 = t2 is better</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.UnpackTask(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Unpacks the generic Task[T]. Returns null if the input is not Task[T].
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.BetterConversion(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the better conversion (C# 4.0 spec, §7.5.3.4)
            </summary>
            <returns>0 = neither is better; 1 = t1 is better; 2 = t2 is better</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions.BetterConversionTarget(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the better conversion target (C# 4.0 spec, §7.5.3.5)
            </summary>
            <returns>0 = neither is better; 1 = t1 is better; 2 = t2 is better</returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver">
            <summary>
            Resolves C# AST nodes.
            </summary>
            <remarks>This class is thread-safe.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.#ctor(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.SyntaxTree,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile)">
            <summary>
            Creates a new C# AST resolver.
            Use this overload if you are resolving within a complete C# file.
            </summary>
            <param name="compilation">The current compilation.</param>
            <param name="syntaxTree">The syntax tree to be resolved.</param>
            <param name="unresolvedFile">
            Optional: Result of <see cref="M:ICSharpCode.NRefactory.CSharp.SyntaxTree.ToTypeSystem"/> for the file being resolved.
            <para>
            This is used for setting up the context on the resolver. The unresolved file must be registered in the compilation.
            </para>
            <para>
            When a unresolvedFile is specified, the resolver will use the member's StartLocation/EndLocation to identify
            member declarations in the AST with members in the type system.
            When no unresolvedFile is specified (<c>null</c> value for this parameter), the resolver will instead compare the
            member's signature in the AST with the signature in the type system.
            </para>
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.#ctor(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver,ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile)">
            <summary>
            Creates a new C# AST resolver.
            Use this overload if you are resolving code snippets (not necessarily complete files).
            </summary>
            <param name="resolver">The resolver state at the root node (to be more precise: just outside the root node).</param>
            <param name="rootNode">The root node of the tree to be resolved.</param>
            <param name="unresolvedFile">
            Optional: Result of <see cref="M:ICSharpCode.NRefactory.CSharp.SyntaxTree.ToTypeSystem"/> for the file being resolved.
            <para>
            This is used for setting up the context on the resolver. The unresolved file must be registered in the compilation.
            </para>
            <para>
            When a unresolvedFile is specified, the resolver will use the member's StartLocation/EndLocation to identify
            member declarations in the AST with members in the type system.
            When no unresolvedFile is specified (<c>null</c> value for this parameter), the resolver will instead compare the
            member's signature in the AST with the signature in the type system.
            </para>
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.ApplyNavigator(ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator,System.Threading.CancellationToken)">
            <summary>
            Applies a resolver navigator. This will resolve the nodes requested by the navigator, and will inform the
            navigator of the results.
            This method must be called as the first operation on the CSharpAstResolver, it is invalid to apply a navigator
            after a portion of the file was already resolved.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.Resolve(ICSharpCode.NRefactory.CSharp.AstNode,System.Threading.CancellationToken)">
            <summary>
            Resolves the specified node.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.GetResolverStateBefore(ICSharpCode.NRefactory.CSharp.AstNode,System.Threading.CancellationToken)">
            <summary>
            Gets the resolver state immediately before the specified node.
            That is, if the node is a variable declaration, the returned state will not contain the newly declared variable.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.GetResolverStateAfter(ICSharpCode.NRefactory.CSharp.AstNode,System.Threading.CancellationToken)">
            <summary>
            Gets the resolver state immediately after the specified node.
            That is, if the node is a variable declaration, the returned state will include the newly declared variable.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.GetExpectedType(ICSharpCode.NRefactory.CSharp.Expression,System.Threading.CancellationToken)">
            <summary>
            Gets the expected type for the specified node. This is the type being that a node is being converted to.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.GetConversion(ICSharpCode.NRefactory.CSharp.Expression,System.Threading.CancellationToken)">
            <summary>
            Gets the conversion that is being applied to the specified expression.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.IsUnresolvableNode(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Gets whether the specified node is unresolvable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.TypeResolveContext">
            <summary>
            Gets the type resolve context for the root resolver.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.Compilation">
            <summary>
            Gets the compilation for this resolver.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.RootNode">
            <summary>
            Gets the root node for which this CSharpAstResolver was created.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpAstResolver.UnresolvedFile">
            <summary>
            Gets the unresolved file used by this CSharpAstResolver.
            Can return null.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.CSharpInvocationResolveResult">
            <summary>
            Represents the result of a method, constructor or indexer invocation.
            Provides additional C#-specific information for InvocationResolveResult.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.CSharpInvocationResolveResult.IsExtensionMethodInvocation">
            <summary>
            Gets whether this invocation is calling an extension method using extension method syntax.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.CSharpInvocationResolveResult.IsDelegateInvocation">
            <summary>
            Gets whether this invocation is calling a delegate (without explicitly calling ".Invoke()").
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.CSharpInvocationResolveResult.IsExpandedForm">
            <summary>
            Gets whether a params-Array is being used in its expanded form.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpInvocationResolveResult.GetArgumentToParameterMap">
            <summary>
            Gets an array that maps argument indices to parameter indices.
            For arguments that could not be mapped to any parameter, the value will be -1.
            
            parameterIndex = ArgumentToParameterMap[argumentIndex]
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpOperators.Get(ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Gets the CSharpOperators instance for the specified <see cref="T:ICSharpCode.NRefactory.TypeSystem.ICompilation"/>.
            This will make use of the context's cache manager (if available) to reuse the CSharpOperators instance.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.ILiftedOperator">
            <summary>
            Implement this interface to give overload resolution a hint that the member represents a lifted operator,
            which is used in the tie-breaking rules.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution">
            <summary>
            C# overload resolution (C# 4.0 spec: §7.5).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.AddCandidate(ICSharpCode.NRefactory.TypeSystem.IParameterizedMember)">
            <summary>
            Adds a candidate to overload resolution.
            </summary>
            <param name="member">The candidate member to add.</param>
            <returns>The errors that prevent the member from being applicable, if any.
            Note: this method does not return errors that do not affect applicability.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.AddCandidate(ICSharpCode.NRefactory.TypeSystem.IParameterizedMember,ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors)">
            <summary>
            Adds a candidate to overload resolution.
            </summary>
            <param name="member">The candidate member to add.</param>
            <param name="additionalErrors">Additional errors that apply to the candidate.
            This is used to represent errors during member lookup (e.g. OverloadResolutionErrors.Inaccessible)
            in overload resolution.</param>
            <returns>The errors that prevent the member from being applicable, if any.
            Note: this method does not return errors that do not affect applicability.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.CalculateCandidate(ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate)">
            <summary>
            Calculates applicability etc. for the candidate.
            </summary>
            <returns>True if the calculation was successful, false if the candidate should be removed without reporting an error</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.AddMethodLists(System.Collections.Generic.IList{ICSharpCode.NRefactory.CSharp.Resolver.MethodListWithDeclaringType})">
            <summary>
            Adds all candidates from the method lists.
            
            This method implements the logic that causes applicable methods in derived types to hide
            all methods in base types.
            </summary>
            <param name="methodLists">The methods, grouped by declaring type. Base types must come first in the list.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.ValidateConstraints(ICSharpCode.NRefactory.TypeSystem.ITypeParameter,ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.TypeVisitor)">
            <summary>
            Validates whether the given type argument satisfies the constraints for the given type parameter.
            </summary>
            <param name="typeParameter">The type parameter.</param>
            <param name="typeArgument">The type argument.</param>
            <param name="substitution">The substitution that defines how type parameters are replaced with type arguments.
            The substitution is used to check constraints that depend on other type parameters (or recursively on the same type parameter).
            May be null if no substitution should be used.</param>
            <returns>True if the constraints are satisfied; false otherwise.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.IsApplicable(ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors)">
            <summary>
            Returns whether a candidate with the given errors is still considered to be applicable.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.BetterFunctionMember(ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate,ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate)">
            <summary>
            Returns 1 if c1 is better than c2; 2 if c2 is better than c1; or 0 if neither is better.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.GetArgumentToParameterMap">
            <summary>
            Gets an array that maps argument indices to parameter indices.
            For arguments that could not be mapped to any parameter, the value will be -1.
            
            parameterIndex = GetArgumentToParameterMap()[argumentIndex]
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.GetArgumentsWithConversions">
            <summary>
            Returns the arguments for the method call in the order they were provided (not in the order of the parameters).
            Arguments are wrapped in a <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/> if an implicit conversion is being applied
            to them when calling the method.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.GetArgumentsWithConversionsAndNames">
            <summary>
            Returns the arguments for the method call in the order they were provided (not in the order of the parameters).
            Arguments are wrapped in a <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/> if an implicit conversion is being applied
            to them when calling the method.
            For arguments where an explicit argument name was provided, the argument will
            be wrapped in a <see cref="T:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult"/>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.CreateResolveResult(ICSharpCode.NRefactory.Semantics.ResolveResult,System.Collections.Generic.IList{ICSharpCode.NRefactory.Semantics.ResolveResult})">
            <summary>
            Creates a ResolveResult representing the result of overload resolution.
            </summary>
            <param name="targetResolveResult">
            The target expression of the call. May be <c>null</c> for static methods/constructors.
            </param>
            <param name="initializerStatements">
            Statements for Objects/Collections initializer.
            <see cref="F:ICSharpCode.NRefactory.Semantics.InvocationResolveResult.InitializerStatements"/>
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.IsExtensionMethodInvocation">
            <summary>
            Gets/Sets whether the methods are extension methods that are being called using extension method syntax.
            </summary>
            <remarks>
            Setting this property to true restricts the possible conversions on the first argument to
            implicit identity, reference, or boxing conversions.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.AllowExpandingParams">
            <summary>
            Gets/Sets whether expanding 'params' into individual elements is allowed.
            The default value is true.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.AllowOptionalParameters">
            <summary>
            Gets/Sets whether optional parameters may be left at their default value.
            The default value is true.
            If this property is set to false, optional parameters will be treated like regular parameters.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.CheckForOverflow">
            <summary>
            Gets/Sets whether ConversionResolveResults created by this OverloadResolution
            instance apply overflow checking.
            The default value is false.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Arguments">
            <summary>
            Gets the arguments for which this OverloadResolution instance was created.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.BestCandidateErrors">
            <summary>
            Returns the errors that apply to the best candidate.
            This includes additional errors that do not affect applicability (e.g. AmbiguousMatch, MethodConstraintsNotSatisfied)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.ArgumentConversions">
            <summary>
            Gets the implicit conversions that are being applied to the arguments.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate.IsExpandedForm">
            <summary>
            Returns the normal form candidate, if this is an expanded candidate.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate.ParameterTypes">
            <summary>
            Gets the parameter types. In the first step, these are the types without any substition.
            After type inference, substitutions will be performed.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate.ArgumentToParameterMap">
            <summary>
            argument index -> parameter index; -1 for arguments that could not be mapped
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate.Parameters">
            <summary>
            Gets the original member parameters (before any substitution!)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate.TypeParameters">
            <summary>
            Gets the original method type parameters (before any substitution!)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.Candidate.ArgumentConversions">
            <summary>
            Conversions applied to the arguments.
            This field is set by the CheckApplicability step.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolution.ILiftedOperator">
            <summary>
            Implement this interface to give overload resolution a hint that the member represents a lifted operator,
            which is used in the tie-breaking rules.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver">
            <summary>
            Contains the main resolver logic.
            </summary>
            <remarks>
            This class is thread-safe.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.WithCheckForOverflow(System.Boolean)">
            <summary>
            Sets whether the current context is <c>checked</c>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.WithIsWithinLambdaExpression(System.Boolean)">
            <summary>
            Sets whether the resolver is currently within a lambda expression.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.WithCurrentMember(ICSharpCode.NRefactory.TypeSystem.IMember)">
            <summary>
            Sets the current member definition.
            </summary>
            <remarks>Don't forget to also set CurrentTypeDefinition when setting CurrentMember;
            setting one of the properties does not automatically set the other.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.WithCurrentUsingScope(ICSharpCode.NRefactory.CSharp.TypeSystem.ResolvedUsingScope)">
            <summary>
            Sets the current using scope that is used to look up identifiers as class names.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.WithCurrentTypeDefinition(ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Sets the current type definition.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.PushBlock">
            <summary>
            Opens a new scope for local variables.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.PopBlock">
            <summary>
            Closes the current scope for local variables; removing all variables in that scope.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.AddVariable(ICSharpCode.NRefactory.TypeSystem.IVariable)">
            <summary>
            Adds a new variable or lambda parameter to the current block.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.PopLastVariable">
            <summary>
            Removes the variable that was just added.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.PushObjectInitializer(ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Pushes the type of the object that is currently being initialized.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.Clone">
            <summary>
            Creates a copy of this CSharp resolver.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.HandleEnumComparison(ICSharpCode.NRefactory.CSharp.BinaryOperatorType,ICSharpCode.NRefactory.TypeSystem.IType,System.Boolean,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Handle the case where an enum value is compared with another enum value
            bool operator op(E x, E y);
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.HandleEnumSubtraction(System.Boolean,ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Handle the case where an enum value is subtracted from another enum value
            U operator –(E x, E y);
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.HandleEnumOperator(System.Boolean,ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.CSharp.BinaryOperatorType,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Handle the following enum operators:
            E operator +(E x, U y);
            E operator +(U x, E y);
            E operator –(E x, U y);
            E operator &amp;(E x, E y);
            E operator |(E x, E y);
            E operator ^(E x, E y);
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveAlias(System.String)">
            <summary>
            Looks up an alias (identifier in front of :: operator)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CreateMemberLookup">
            <summary>
            Creates a MemberLookup instance using this resolver's settings.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CreateMemberLookup(ICSharpCode.NRefactory.CSharp.NameLookupMode)">
            <summary>
            Creates a MemberLookup instance using this resolver's settings.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.GetExtensionMethods(System.String,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType})">
            <summary>
            Gets all extension methods that are available in the current context.
            </summary>
            <param name="name">Name of the extension method. Pass null to retrieve all extension methods.</param>
            <param name="typeArguments">Explicitly provided type arguments.
            An empty list will return all matching extension method definitions;
            a non-empty list will return <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/>s for all extension methods
            with the matching number of type parameters.</param>
            <remarks>
            The results are stored in nested lists because they are grouped by using scope.
            That is, for "using SomeExtensions; namespace X { using MoreExtensions; ... }",
            the return value will be
            new List {
               new List { all extensions from MoreExtensions },
               new List { all extensions from SomeExtensions }
            }
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.GetExtensionMethods(ICSharpCode.NRefactory.TypeSystem.IType,System.String,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Boolean)">
            <summary>
            Gets the extension methods that are called 'name'
            and are applicable with a first argument type of 'targetType'.
            </summary>
            <param name="targetType">Type of the 'this' argument</param>
            <param name="name">Name of the extension method. Pass null to retrieve all extension methods.</param>
            <param name="typeArguments">Explicitly provided type arguments.
            An empty list will return all matching extension method definitions;
            a non-empty list will return <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/>s for all extension methods
            with the matching number of type parameters.</param>
            <param name="substituteInferredTypes">
            Specifies whether to produce a <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/>
            when type arguments could be inferred from <paramref name="targetType"/>. This parameter
            is only used for inferred types and has no effect if <paramref name="typeArguments"/> is non-empty.
            </param>
            <remarks>
            The results are stored in nested lists because they are grouped by using scope.
            That is, for "using SomeExtensions; namespace X { using MoreExtensions; ... }",
            the return value will be
            new List {
               new List { all extensions from MoreExtensions },
               new List { all extensions from SomeExtensions }
            }
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.IsEligibleExtensionMethod(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IMethod,System.Boolean,ICSharpCode.NRefactory.TypeSystem.IType[]@)">
            <summary>
            Checks whether the specified extension method is eligible on the target type.
            </summary>
            <param name="targetType">Target type that is passed as first argument to the extension method.</param>
            <param name="method">The extension method.</param>
            <param name="useTypeInference">Whether to perform type inference for the method.
            Use <c>false</c> if <paramref name="method"/> is already specialized (e.g. when type arguments were given explicitly).
            Otherwise, use <c>true</c>.
            </param>
            <param name="outInferredTypes">If the method is generic and <paramref name="useTypeInference"/> is <c>true</c>,
            and at least some of the type arguments could be inferred, this parameter receives the inferred type arguments.
            Since only the type for the first parameter is considered, not all type arguments may be inferred.
            If an array is returned, any slot with an uninferred type argument will be set to the method's
            corresponding type parameter.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.GetAllExtensionMethods">
            <summary>
            Gets all extension methods available in the current using scope.
            This list includes unaccessible
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveInvocation(ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.ResolveResult[],System.String[])">
            <summary>
            Resolves an invocation.
            </summary>
            <param name="target">The target of the invocation. Usually a MethodGroupResolveResult.</param>
            <param name="arguments">
            Arguments passed to the method.
            The resolver may mutate this array to wrap elements in <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/>s!
            </param>
            <param name="argumentNames">
            The argument names. Pass the null string for positional arguments.
            </param>
            <returns>InvocationResolveResult or UnknownMethodResolveResult</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveIndexer(ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.ResolveResult[],System.String[])">
            <summary>
            Resolves an indexer access.
            </summary>
            <param name="target">Target expression.</param>
            <param name="arguments">
            Arguments passed to the indexer.
            The resolver may mutate this array to wrap elements in <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/>s!
            </param>
            <param name="argumentNames">
            The argument names. Pass the null string for positional arguments.
            </param>
            <returns>ArrayAccessResolveResult, InvocationResolveResult, or ErrorResolveResult</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.AdjustArrayAccessArguments(ICSharpCode.NRefactory.Semantics.ResolveResult[])">
            <summary>
            Converts all arguments to int,uint,long or ulong.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveObjectCreation(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.Semantics.ResolveResult[],System.String[],System.Boolean,System.Collections.Generic.IList{ICSharpCode.NRefactory.Semantics.ResolveResult})">
            <summary>
            Resolves an object creation.
            </summary>
            <param name="type">Type of the object to create.</param>
            <param name="arguments">
            Arguments passed to the constructor.
            The resolver may mutate this array to wrap elements in <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/>s!
            </param>
            <param name="argumentNames">
            The argument names. Pass the null string for positional arguments.
            </param>
            <param name="allowProtectedAccess">
            Whether to allow calling protected constructors.
            This should be false except when resolving constructor initializers.
            </param>
            <param name="initializerStatements">
            Statements for Objects/Collections initializer.
            <see cref="F:ICSharpCode.NRefactory.Semantics.InvocationResolveResult.InitializerStatements"/>
            </param>
            <returns>InvocationResolveResult or ErrorResolveResult</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveSizeOf(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Resolves 'sizeof(type)'.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveThisReference">
            <summary>
            Resolves 'this'.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveBaseReference">
            <summary>
            Resolves 'base'.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveCondition(ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Converts the input to <c>bool</c> using the rules for boolean expressions.
            That is, <c>operator true</c> is used if a regular conversion to <c>bool</c> is not possible.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveConditionFalse(ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Converts the negated input to <c>bool</c> using the rules for boolean expressions.
            Computes <c>!(bool)input</c> if the implicit cast to bool is valid; otherwise
            computes <c>input.operator false()</c>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveArrayCreation(ICSharpCode.NRefactory.TypeSystem.IType,System.Int32[],ICSharpCode.NRefactory.Semantics.ResolveResult[])">
            <summary>
            Resolves an array creation.
            </summary>
            <param name="elementType">
            The array element type.
            Pass null to resolve an implicitly-typed array creation.
            </param>
            <param name="sizeArguments">
            The size arguments.
            The length of this array will be used as the number of dimensions of the array type.
            Negative values will be treated as errors.
            </param>
            <param name="initializerElements">
            The initializer elements. May be null if no array initializer was specified.
            The resolver may mutate this array to wrap elements in <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/>s!
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.ResolveArrayCreation(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.Semantics.ResolveResult[],ICSharpCode.NRefactory.Semantics.ResolveResult[])">
            <summary>
            Resolves an array creation.
            </summary>
            <param name="elementType">
            The array element type.
            Pass null to resolve an implicitly-typed array creation.
            </param>
            <param name="sizeArguments">
            The size arguments.
            The length of this array will be used as the number of dimensions of the array type.
            The resolver may mutate this array to wrap elements in <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/>s!
            </param>
            <param name="initializerElements">
            The initializer elements. May be null if no array initializer was specified.
            The resolver may mutate this array to wrap elements in <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/>s!
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.Compilation">
            <summary>
            Gets the compilation used by the resolver.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CurrentTypeResolveContext">
            <summary>
            Gets the current type resolve context.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CheckForOverflow">
            <summary>
            Gets whether the current context is <c>checked</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.IsWithinLambdaExpression">
            <summary>
            Gets whether the resolver is currently within a lambda expression.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CurrentMember">
            <summary>
            Gets the current member definition that is used to look up identifiers as parameters
            or type parameters.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CurrentUsingScope">
            <summary>
            Gets the current using scope that is used to look up identifiers as class names.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CurrentTypeDefinition">
            <summary>
            Gets the current type definition.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.LocalVariables">
            <summary>
            Gets all currently visible local variables and lambda parameters.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.IsInObjectInitializer">
            <summary>
            Gets whether this context is within an object initializer.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CurrentObjectInitializer">
            <summary>
            Gets the current object initializer. This usually is an <see cref="T:ICSharpCode.NRefactory.Semantics.InitializedObjectResolveResult"/>
            or (for nested initializers) a semantic tree based on an <see cref="T:ICSharpCode.NRefactory.Semantics.InitializedObjectResolveResult"/>.
            Returns ErrorResolveResult if there is no object initializer.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver.CurrentObjectInitializerType">
            <summary>
            Gets the type of the object currently being initialized.
            Returns SharedTypes.Unknown if no object initializer is currently open (or if the object initializer
            has unknown type).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.DetectSkippableNodesNavigator">
            <summary>
            When an <see cref="T:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator"/> is searching for specific nodes
            (e.g. all IdentifierExpressions), it has to scan the whole syntax tree for those nodes.
            However, scanning in the ResolveVisitor is expensive (e.g. any lambda that is scanned must be resolved),
            so it makes sense to detect when a whole subtree is scan-only, and skip that tree instead.
            
            The DetectSkippableNodesNavigator performs this job by running the input IResolveVisitorNavigator
            over the whole AST, and detecting subtrees that are scan-only, and replaces them with Skip.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.DetectSkippableNodesNavigator.Scan(ICSharpCode.NRefactory.CSharp.AstNode)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.DetectSkippableNodesNavigator.Resolved(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.DetectSkippableNodesNavigator.ProcessConversion(ICSharpCode.NRefactory.CSharp.Expression,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.Conversion,ICSharpCode.NRefactory.TypeSystem.IType)">
            <inheritdoc/>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.FindReferencedEntities">
            <summary>
            Find all entities that are referenced in the scanned AST.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferencedEntities.#ctor(System.Action{ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.TypeSystem.IEntity})">
            <summary>
            Creates a new FindReferencedEntities instance that
            looks for entity definitions.
            The visitor will report type definitions and member definitions (not specialized members).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferencedEntities.#ctor(System.Action{ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.TypeSystem.IType},System.Action{ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.TypeSystem.IMember})">
            <summary>
            Creates a new FindReferencedEntities instance that
            looks for types and members.
            The visitor will report parameterized types and potentially specialized members.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences">
            <summary>
            'Find references' implementation.
            </summary>
            <remarks>
            This class is thread-safe.
            The intended multi-threaded usage is to call GetSearchScopes() once, and then
            call FindReferencesInFile() concurrently on multiple threads (parallel foreach over all interesting files).
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.GetEffectiveAccessibility(ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Gets the effective accessibility of the specified entity -
            that is, the accessibility viewed from the top level.
            </summary>
            <remarks>
            internal member in public class -> internal
            public member in internal class -> internal
            protected member in public class -> protected
            protected member in internal class -> protected and internal
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.GetInterestingFiles(ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope,ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Gets the file names that possibly contain references to the element being searched for.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindReferencesInFile(ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile,ICSharpCode.NRefactory.CSharp.SyntaxTree,ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.Resolver.FoundReferenceCallback,System.Threading.CancellationToken)">
            <summary>
            Finds all references in the given file.
            </summary>
            <param name="searchScope">The search scope for which to look.</param>
            <param name="unresolvedFile">The type system representation of the file being searched.</param>
            <param name="syntaxTree">The syntax tree of the file being searched.</param>
            <param name="compilation">The compilation for the project that contains the file.</param>
            <param name="callback">Callback used to report the references that were found.</param>
            <param name="cancellationToken">CancellationToken that may be used to cancel the operation.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindReferencesInFile(System.Collections.Generic.IList{ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope},ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile,ICSharpCode.NRefactory.CSharp.SyntaxTree,ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.Resolver.FoundReferenceCallback,System.Threading.CancellationToken)">
            <summary>
            Finds all references in the given file.
            </summary>
            <param name="searchScopes">The search scopes for which to look.</param>
            <param name="unresolvedFile">The type system representation of the file being searched.</param>
            <param name="syntaxTree">The syntax tree of the file being searched.</param>
            <param name="compilation">The compilation for the project that contains the file.</param>
            <param name="callback">Callback used to report the references that were found.</param>
            <param name="cancellationToken">CancellationToken that may be used to cancel the operation.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindLocalReferences(ICSharpCode.NRefactory.TypeSystem.IVariable,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile,ICSharpCode.NRefactory.CSharp.SyntaxTree,ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.Resolver.FoundReferenceCallback,System.Threading.CancellationToken)">
            <summary>
            Finds all references of a given variable.
            </summary>
            <param name="variable">The variable for which to look.</param>
            <param name="unresolvedFile">The type system representation of the file being searched.</param>
            <param name="syntaxTree">The syntax tree of the file being searched.</param>
            <param name="compilation">The compilation.</param>
            <param name="callback">Callback used to report the references that were found.</param>
            <param name="cancellationToken">Cancellation token that may be used to cancel the operation.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindTypeParameterReferences(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile,ICSharpCode.NRefactory.CSharp.SyntaxTree,ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.Resolver.FoundReferenceCallback,System.Threading.CancellationToken)">
            <summary>
            Finds all references of a given type parameter.
            </summary>
            <param name="typeParameter">The type parameter for which to look.</param>
            <param name="unresolvedFile">The type system representation of the file being searched.</param>
            <param name="syntaxTree">The syntax tree of the file being searched.</param>
            <param name="compilation">The compilation.</param>
            <param name="callback">Callback used to report the references that were found.</param>
            <param name="cancellationToken">Cancellation token that may be used to cancel the operation.</param>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindTypeReferencesEvenIfAliased">
            <summary>
            Specifies whether to find type references even if an alias is being used.
            Aliases may be <c>var</c> or <c>using Alias = ...;</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindOnlySpecializedReferences">
            <summary>
            Specifies whether find references should only look for specialized matches
            with equal type parameter substitution to the member we are searching for.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindCallsThroughVirtualBaseMethod">
            <summary>
            If this option is enabled, find references on a overridden member
            will find calls to the base member.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.FindCallsThroughInterface">
            <summary>
            If this option is enabled, find references on a member implementing
            an interface will also find calls to the interface.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.WholeVirtualSlot">
            <summary>
            If this option is enabled, find references will look for all references
            to the virtual method slot.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.FindReferences.SearchInDocumentationComments">
            <summary>
            Specifies whether to look for references in documentation comments.
            This will find entity references in <c>cref</c> attributes and
            parameter references in <c>&lt;param&gt;</c> and <c>&lt;paramref&gt;</c> tags.
            TODO: implement this feature.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope">
            <summary>
            Represents a scope in which references are searched.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope.GetNavigator(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.CSharp.Resolver.FoundReferenceCallback)">
            <summary>
            Creates a navigator that can find references to this entity and reports
            them to the specified callback.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope.Compilation">
            <summary>
            Gets the compilation in which the entity being search for was defined.
            This is not necessarily the same compilation as is being searched in.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope.SearchTerm">
            <summary>
            Gets the search term. Only files that contain this identifier need to be parsed.
            Can return null if all files need to be parsed.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope.Accessibility">
            <summary>
            Gets the accessibility that defines the search scope.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.IFindReferenceSearchScope.TopLevelTypeDefinition">
            <summary>
            Gets the top-level entity that defines the search scope.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitorNavigationMode">
            <summary>
            Represents the operation mode of the resolve visitor.
            </summary>
            <seealso cref="T:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitorNavigationMode.Scan">
            <summary>
            Scan into the children of the current node, without resolving the current node.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitorNavigationMode.Skip">
            <summary>
            Skip the current node - do not scan into it; do not resolve it.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitorNavigationMode.Resolve">
            <summary>
            Resolve the current node.
            Subnodes which are not required for resolving the current node
            will ask the navigator again whether they should be resolved.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult">
            <summary>
            Represents an anonymous method or lambda expression.
            Note: the lambda has no type.
            To retrieve the delegate type, look at the anonymous function conversion.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.GetInferredReturnType(ICSharpCode.NRefactory.TypeSystem.IType[])">
            <summary>
            Gets the return type inferred when the parameter types are inferred to be <paramref name="parameterTypes"/>
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.IsValid(ICSharpCode.NRefactory.TypeSystem.IType[],ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.CSharp.Resolver.CSharpConversions)">
            <summary>
            Gets whether the lambda body is valid for the given parameter types and return type.
            </summary>
            <returns>
            Produces a conversion with <see cref="P:ICSharpCode.NRefactory.Semantics.Conversion.IsAnonymousFunctionConversion"/>=<c>true</c> if the lambda is valid;
            otherwise returns <see cref="F:ICSharpCode.NRefactory.Semantics.Conversion.None"/>.
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.HasParameterList">
            <summary>
            Gets whether there is a parameter list.
            This property always returns true for C# 3.0-lambdas, but may return false
            for C# 2.0 anonymous methods.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.IsAnonymousMethod">
            <summary>
            Gets whether this lambda is using the C# 2.0 anonymous method syntax.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.IsImplicitlyTyped">
            <summary>
            Gets whether the lambda parameters are implicitly typed.
            </summary>
            <remarks>This property returns false for anonymous methods without parameter list.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.IsAsync">
            <summary>
            Gets whether the lambda is async.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.Parameters">
            <summary>
            Gets the list of parameters.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.LambdaResolveResult.Body">
            <summary>
            Gets the resolve result for the lambda body.
            Returns a resolve result for 'void' for statement lambdas.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.Log">
            <summary>
            Resolver logging helper.
            Wraps System.Diagnostics.Debug so that resolver-specific logging can be enabled/disabled on demand.
            (it's a huge amount of debug spew and slows down the resolver quite a bit)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup">
            <summary>
            Implementation of member lookup (C# 4.0 spec, §7.4).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.IsInvocable(ICSharpCode.NRefactory.TypeSystem.IMember)">
            <summary>
            Gets whether the member is considered to be invocable.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.IsProtectedAccessAllowed(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether access to protected instance members of the target type is possible.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.IsAccessible(ICSharpCode.NRefactory.TypeSystem.IEntity,System.Boolean)">
            <summary>
            Gets whether <paramref name="entity"/> is accessible in the current class.
            </summary>
            <param name="entity">The entity to test</param>
            <param name="allowProtectedAccess">
            Whether protected access to instance members is allowed.
            True if the type of the reference is derived from the current class.
            Protected static members may be accessibe even if false is passed for this parameter.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.GetAccessibleMembers(ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Retrieves all members that are accessible and not hidden (by being overridden or shadowed).
            Returns both members and nested type definitions. Does not include extension methods.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.Lookup(ICSharpCode.NRefactory.Semantics.ResolveResult,System.String,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Boolean)">
            <summary>
            Performs a member lookup.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.LookupIndexers(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Looks up the indexers on the target type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.AddNestedTypes(ICSharpCode.NRefactory.TypeSystem.IType,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IType},System.Int32,System.Collections.Generic.List{ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.LookupGroup},System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IType}@,System.Collections.Generic.List{ICSharpCode.NRefactory.TypeSystem.IType}@)">
            <summary>
            Adds the nested types to 'newNestedTypes' and removes any hidden members from the existing lookup groups.
            </summary>
            <param name="type">Declaring type of the nested types</param>
            <param name="nestedTypes">List of nested types to add.</param>
            <param name="typeArgumentCount">The number of type arguments - used for hiding types from the base class</param>
            <param name="lookupGroups">List of existing lookup groups</param>
            <param name="typeBaseTypes">The base types of 'type' (initialized on demand)</param>
            <param name="newNestedTypes">The target list (created on demand).</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.AddMembers(ICSharpCode.NRefactory.TypeSystem.IType,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IMember},System.Boolean,System.Collections.Generic.List{ICSharpCode.NRefactory.CSharp.Resolver.MemberLookup.LookupGroup},System.Boolean,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IType}@,System.Collections.Generic.List{ICSharpCode.NRefactory.TypeSystem.IParameterizedMember}@,ICSharpCode.NRefactory.TypeSystem.IMember@)">
            <summary>
            Adds members to 'newMethods'/'newNonMethod'.
            Removes any members in the existing lookup groups that were hidden by added members.
            Substitutes 'virtual' members in the existing lookup groups for added 'override' members.
            </summary>
            <param name="type">Declaring type of the members</param>
            <param name="members">List of members to add.</param>
            <param name="allowProtectedAccess">Whether protected members are accessible</param>
            <param name="lookupGroups">List of existing lookup groups</param>
            <param name="treatAllParameterizedMembersAsMethods">Whether to treat properties as methods</param>
            <param name="typeBaseTypes">The base types of 'type' (initialized on demand)</param>
            <param name="newMethods">The target list for methods (created on demand).</param>
            <param name="newNonMethod">The target variable for non-method members.</param>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.MethodListWithDeclaringType">
            <summary>
            A method list that belongs to a declaring type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodListWithDeclaringType.DeclaringType">
            <summary>
            The declaring type.
            </summary>
            <remarks>
            Not all methods in this list necessarily have this as their declaring type.
            For example, this program:
            <code>
             class Base {
               public virtual void M() {}
             }
             class Derived : Base {
               public override void M() {}
               public void M(int i) {}
             }
            </code>
            results in two lists:
             <c>new MethodListWithDeclaringType(Base) { Derived.M() }</c>,
             <c>new MethodListWithDeclaringType(Derived) { Derived.M(int) }</c>
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult">
            <summary>
            Represents a group of methods.
            A method reference used to create a delegate is resolved to a MethodGroupResolveResult.
            The MethodGroupResolveResult has no type.
            To retrieve the delegate type or the chosen overload, look at the method group conversion.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.extensionMethods">
            <summary>
            List of extension methods, used to avoid re-calculating it in ResolveInvocation() when it was already
            calculated by ResolveMemberAccess().
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.GetExtensionMethods">
            <summary>
            Gets all candidate extension methods.
            Note: this includes candidates that are not eligible due to an inapplicable
            this argument.
            The candidates will only be specialized if the type arguments were provided explicitly.
            </summary>
            <remarks>
            The results are stored in nested lists because they are grouped by using scope.
            That is, for "using SomeExtensions; namespace X { using MoreExtensions; ... }",
            the return value will be
            new List {
               new List { all extensions from MoreExtensions },
               new List { all extensions from SomeExtensions }
            }
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.GetEligibleExtensionMethods(System.Boolean)">
            <summary>
            Gets the eligible extension methods.
            </summary>
            <param name="substituteInferredTypes">
            Specifies whether to produce a <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/>
            when type arguments could be inferred from <see cref="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.TargetType"/>.
            This setting is only used for inferred types and has no effect if the type parameters are
            specified explicitly.
            </param>
            <remarks>
            The results are stored in nested lists because they are grouped by using scope.
            That is, for "using SomeExtensions; namespace X { using MoreExtensions; ... }",
            the return value will be
            new List {
               new List { all extensions from MoreExtensions },
               new List { all extensions from SomeExtensions }
            }
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.TargetResult">
            <summary>
            Gets the resolve result for the target object.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.TargetType">
            <summary>
            Gets the type of the reference to the target object.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.MethodName">
            <summary>
            Gets the name of the methods in this group.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.Methods">
            <summary>
            Gets the methods that were found.
            This list does not include extension methods.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.MethodsGroupedByDeclaringType">
            <summary>
            Gets the methods that were found, grouped by their declaring type.
            This list does not include extension methods.
            Base types come first in the list.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.MethodGroupResolveResult.TypeArguments">
            <summary>
            Gets the type arguments that were explicitly provided.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.NodeListResolveVisitorNavigator">
            <summary>
            <see cref="T:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator"/> implementation that resolves a list of nodes.
            We will skip all nodes which are not the target nodes or ancestors of the target nodes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.NodeListResolveVisitorNavigator.#ctor(ICSharpCode.NRefactory.CSharp.AstNode[])">
            <summary>
            Creates a new NodeListResolveVisitorNavigator that resolves the specified nodes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.NodeListResolveVisitorNavigator.#ctor(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.AstNode},System.Boolean)">
            <summary>
            Creates a new NodeListResolveVisitorNavigator that resolves the specified nodes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.NodeListResolveVisitorNavigator.Scan(ICSharpCode.NRefactory.CSharp.AstNode)">
            <inheritdoc/>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.TooManyPositionalArguments">
            <summary>
            Too many positional arguments (some could not be mapped to any parameter).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.NoParameterFoundForNamedArgument">
            <summary>
            A named argument could not be mapped to any parameter
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.TypeInferenceFailed">
            <summary>
            Type inference failed for a generic method.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.WrongNumberOfTypeArguments">
            <summary>
            Type arguments were explicitly specified, but did not match the number of type parameters.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.ConstructedTypeDoesNotSatisfyConstraint">
            <summary>
            After substituting type parameters with the inferred types; a constructed type within the formal parameters
            does not satisfy its constraint.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.MissingArgumentForRequiredParameter">
            <summary>
            No argument was mapped to a non-optional parameter
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.MultipleArgumentsForSingleParameter">
            <summary>
            Several arguments were mapped to a single (non-params-array) parameter
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.ParameterPassingModeMismatch">
            <summary>
            'ref'/'out' passing mode doesn't match for at least 1 parameter
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.ArgumentTypeMismatch">
            <summary>
            Argument type cannot be converted to parameter type
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.AmbiguousMatch">
            <summary>
            There is no unique best overload.
            This error does not apply to any single candidate, but only to the overall result of overload resolution.
            </summary>
            <remarks>
            This error does not prevent a candidate from being applicable.
            </remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.Inaccessible">
            <summary>
            The member is not accessible.
            </summary>
            <remarks>
            This error is generated by member lookup; not by overload resolution.
            </remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.OverloadResolutionErrors.MethodConstraintsNotSatisfied">
            <summary>
            A generic method 
            </summary>
            <remarks>
            This error does not prevent a candidate from being applicable.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.ResolveAtLocation">
            <summary>
            Helper class that resolves the node at a specified location.
            Can be used for implementing tool tips.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor">
            <summary>
            Traverses the DOM and resolves expressions.
            </summary>
            <remarks>
            The ResolveVisitor does two jobs at the same time: it tracks the resolve context (properties on CSharpResolver)
            and it resolves the expressions visited.
            To allow using the context tracking without having to resolve every expression in the file (e.g. when you want to resolve
            only a single node deep within the DOM), you can use the <see cref="T:ICSharpCode.NRefactory.CSharp.Resolver.IResolveVisitorNavigator"/> interface.
            The navigator allows you to switch the between scanning mode and resolving mode.
            In scanning mode, the context is tracked (local variables registered etc.), but nodes are not resolved.
            While scanning, the navigator will get asked about every node that the resolve visitor is about to enter.
            This allows the navigator whether to keep scanning, whether switch to resolving mode, or whether to completely skip the
            subtree rooted at that node.
            
            In resolving mode, the context is tracked and nodes will be resolved.
            The resolve visitor may decide that it needs to resolve other nodes as well in order to resolve the current node.
            In this case, those nodes will be resolved automatically, without asking the navigator interface.
            For child nodes that are not essential to resolving, the resolve visitor will switch back to scanning mode (and thus will
            ask the navigator for further instructions).
            
            Moreover, there is the <c>ResolveAll</c> mode - it works similar to resolving mode, but will not switch back to scanning mode.
            The whole subtree will be resolved without notifying the navigator.
            </remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.currentQueryResult">
            <summary>Resolve result of the current LINQ query.</summary>
            <remarks>We do not have to put this into the stored state (resolver) because
            query expressions are always resolved in a single operation.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.#ctor(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile)">
            <summary>
            Creates a new ResolveVisitor instance.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.ResetContext(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver,System.Action)">
            <summary>
            Resets the visitor to the stored position, runs the action, and then reverts the visitor to the previous position.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.Scan(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Scans the AST rooted at the given node.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.Resolve(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Equivalent to 'Scan', but also resolves the node at the same time.
            This method should be only used if the CSharpResolver passed to the ResolveVisitor was manually set
            to the correct state.
            Otherwise, use <c>resolver.Scan(syntaxTree); var result = resolver.GetResolveResult(node);</c>
            instead.
            --
            This method now is internal, because it is difficult to use correctly.
            Users of the public API should use Scan()+GetResolveResult() instead.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.ProcessConversion(ICSharpCode.NRefactory.CSharp.Expression,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.Conversion,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Convert 'rr' to the target type using the specified conversion.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.ProcessConversion(ICSharpCode.NRefactory.CSharp.Expression,ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Convert 'rr' to the target type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.ResolveAndProcessConversion(ICSharpCode.NRefactory.CSharp.Expression,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Resolves the specified expression and processes the conversion to targetType.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.GetResolveResult(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Gets the resolve result for the specified node.
            If the node was not resolved by the navigator, this method will resolve it.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.GetResolverStateBefore(ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Gets the resolver state in front of the specified node.
            If the node was not visited by a previous scanning process, the
            AST will be scanned again to determine the state.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.GetArguments(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Expression},System.String[]@)">
            <summary>
            Gets and resolves the arguments; unpacking any NamedArgumentExpressions.
            </summary>
            <remarks>
            Callers of GetArguments must also call either ProcessConversionsInInvocation or MarkUnknownNamedArguments
            to ensure the named arguments get resolved.
            Also, as named arguments get resolved by the parent node, the parent node must not scan
            into the argument list without being resolved - see NeedsResolvingDueToNamedArguments().
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.IsStaticResult(ICSharpCode.NRefactory.Semantics.ResolveResult,ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Gets whether 'rr' is considered a static access on the target identifier.
            </summary>
            <param name="rr">Resolve Result of the MemberReferenceExpression</param>
            <param name="invocationRR">Resolve Result of the InvocationExpression</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.UnpackTask(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the T in Task&lt;T&gt;.
            Returns void for non-generic Task.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.IsTask(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether the specified type is Task or Task&lt;T&gt;.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.WrapResult(ICSharpCode.NRefactory.Semantics.ResolveResult)">
            <summary>
            Wraps the result in an identity conversion.
            This is necessary so that '$from x in variable$ select x*2' does not resolve
            to the LocalResolveResult for the variable, which would confuse find references.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.GetSingleRangeVariable(ICSharpCode.NRefactory.CSharp.QueryExpression)">
            <summary>
            Gets the name of the range variable in the specified query.
            If the query has multiple range variables, this method returns null.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.ImplicitlyTypedLambda.GetAnyHypothesis">
            <summary>
            Get any hypothesis for this lambda.
            This method is used as fallback if the lambda isn't merged the normal way (AnonymousFunctionConversion)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.ResolveVisitor.LambdaTypeHypothesis">
            <summary>
            Every possible set of parameter types gets its own 'hypothetical world'.
            It uses a nested ResolveVisitor that has its own resolve cache, so that resolve results cannot leave the hypothetical world.
            
            Only after overload resolution is applied and the actual parameter types are known, the winning hypothesis will be merged
            with the parent ResolveVisitor.
            This is done when the AnonymousFunctionConversion is applied on the parent visitor.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.TypeInferenceAlgorithm.CSharp4">
            <summary>
            C# 4.0 type inference.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.TypeInferenceAlgorithm.Improved">
            <summary>
            Improved algorithm (not part of any specification) using FindTypeInBounds for fixing.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Resolver.TypeInferenceAlgorithm.ImprovedReturnAllResults">
            <summary>
            Improved algorithm (not part of any specification) using FindTypeInBounds for fixing;
            uses <see cref="T:ICSharpCode.NRefactory.TypeSystem.IntersectionType"/> to report all results (in case of ambiguities).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference">
            <summary>
            Implements C# 4.0 Type Inference (§7.5.2).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.InferTypeArguments(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.ITypeParameter},System.Collections.Generic.IList{ICSharpCode.NRefactory.Semantics.ResolveResult},System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Boolean@,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType})">
            <summary>
            Performs type inference.
            </summary>
            <param name="typeParameters">The method type parameters that should be inferred.</param>
            <param name="arguments">The arguments passed to the method.</param>
            <param name="parameterTypes">The parameter types of the method.</param>
            <param name="success">Out: whether type inference was successful</param>
            <param name="classTypeArguments">
            Class type arguments. These are substituted for class type parameters in the formal parameter types
            when inferring a method group or lambda.
            </param>
            <returns>The inferred type arguments.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.InferTypeArgumentsFromBounds(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.ITypeParameter},ICSharpCode.NRefactory.TypeSystem.IType,System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Boolean@)">
            <summary>
            Infers type arguments for the <paramref name="typeParameters"/> occurring in the <paramref name="targetType"/>
            so that the resulting type (after substition) satisfies the given bounds.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.MakeExactInference(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Make exact inference from U to V.
            C# 4.0 spec: §7.5.2.8 Exact inferences
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.MakeLowerBoundInference(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Make lower bound inference from U to V.
            C# 4.0 spec: §7.5.2.9 Lower-bound inferences
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.MakeUpperBoundInference(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Make upper bound inference from U to V.
            C# 4.0 spec: §7.5.2.10 Upper-bound inferences
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.GetBestCommonType(System.Collections.Generic.IList{ICSharpCode.NRefactory.Semantics.ResolveResult},System.Boolean@)">
            <summary>
            Gets the best common type (C# 4.0 spec: §7.5.2.14) of a set of expressions.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.FindTypeInBounds(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType})">
            <summary>
            Finds a type that satisfies the given lower and upper bounds.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Resolver.TypeInference.Algorithm">
            <summary>
            Gets/Sets the type inference algorithm used.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Completion.ICompletionDataFactory.CreateMemberCompletionData(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Creates the member completion data. 
            Form: Type.Member
            Used for generating enum members Foo.A, Foo.B where the enum 'Foo' is valid.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Completion.ICompletionDataFactory.CreateLiteralCompletionData(System.String,System.String,System.String)">
            <summary>
            Creates a generic completion data.
            </summary>
            <param name='title'>
            The title of the completion data
            </param>
            <param name='description'>
            The description of the literal.
            </param>
            <param name='insertText'>
            The insert text. If null, title is taken.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Completion.ICompletionDataFactory.CreateImportCompletionData(ICSharpCode.NRefactory.TypeSystem.IType,System.Boolean)">
            <summary>
            Creates a completion data that adds the required using for the created type.
            </summary>
            <param name="type">The type to import</param>
            <param name="useFullName">If set to true the full name of the type needs to be used.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Completion.IParameterCompletionDataFactory.CreateConstructorProvider(System.Int32,ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.CSharp.AstNode)">
            <summary>
            Creates a constructor provider skipping the parent of thisInitializer.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NameLookupMode.Expression">
            <summary>
            Normal name lookup in expressions
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NameLookupMode.InvocationTarget">
            <summary>
            Name lookup in expression, where the expression is the target of an invocation.
            Such a lookup will only return methods and delegate-typed fields.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NameLookupMode.Type">
            <summary>
            Normal name lookup in type references.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NameLookupMode.TypeInUsingDeclaration">
            <summary>
            Name lookup in the type reference inside a using declaration.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.NameLookupMode.BaseTypeReference">
            <summary>
            Name lookup for base type references.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.AliasNamespaceReference">
            <summary>
            Looks up an alias (identifier in front of :: operator).
            </summary>
            <remarks>
            The member lookup performed by the :: operator is handled
            by <see cref="T:ICSharpCode.NRefactory.CSharp.TypeSystem.MemberTypeOrNamespaceReference"/>.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeOrNamespaceReference">
            <summary>
            Represents a reference which could point to a type or namespace.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeOrNamespaceReference.Resolve(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver)">
            <summary>
            Resolves the reference and returns the ResolveResult.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeOrNamespaceReference.ResolveType(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver)">
            <summary>
            Returns the type that is referenced; or an <c>UnknownType</c> if the type isn't found.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeOrNamespaceReference.ResolveNamespace(ICSharpCode.NRefactory.CSharp.Resolver.CSharpResolver)">
            <summary>
            Returns the namespace that is referenced; or null if no such namespace is found.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.AttributeTypeReference">
            <summary>
            Type reference used within an attribute.
            Looks up both 'withoutSuffix' and 'withSuffix' and returns the type that exists.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.ConstantValues.ErrorConstantValue">
            <summary>
            Used for constants that could not be converted to IConstantValue.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.ConstantValues.IncrementConstantValue">
            <summary>
            Increments an integer <see cref="T:ICSharpCode.NRefactory.TypeSystem.IConstantValue"/> by a fixed amount without changing the type.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.ConstantValues.PrimitiveConstantExpression">
            <summary>
            C#'s equivalent to the SimpleConstantValue.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.ConstantValues.ConstantArrayCreation">
            <summary>
            Represents an array creation (as used within an attribute argument)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpDocumentationComment">
            <summary>
            DocumentationComment with C# cref lookup.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile">
            <summary>
            Represents a file that was parsed and converted for the type system.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.ResolvedUsingScope">
            <summary>
            Resolved version of using scope.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.ResolvedUsingScope.HasAlias(System.String)">
            <summary>
            Gets whether this using scope has an alias (either using or extern)
            with the specified name.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.MemberTypeOrNamespaceReference">
            <summary>
            Reference to a qualified type or namespace name.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.MemberTypeOrNamespaceReference.AddSuffix(System.String)">
            <summary>
            Adds a suffix to the identifier.
            Does not modify the existing type reference, but returns a new one.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.SimpleTypeOrNamespaceReference">
            <summary>
            Represents a simple C# name. (a single non-qualified identifier with an optional list of type arguments)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.SimpleTypeOrNamespaceReference.AddSuffix(System.String)">
            <summary>
            Adds a suffix to the identifier.
            Does not modify the existing type reference, but returns a new one.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor">
            <summary>
            Produces type and member definitions from the DOM.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor.version">
            <summary>
            Version of the C# type system loader.
            Should be incremented when fixing bugs so that project contents cached on disk
            (which might be incorrect due to the bug) are re-created.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor.#ctor(System.String)">
            <summary>
            Creates a new TypeSystemConvertVisitor.
            </summary>
            <param name="fileName">The file name (used for DomRegions).</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor.#ctor(ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedFile,ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope,ICSharpCode.NRefactory.CSharp.TypeSystem.CSharpUnresolvedTypeDefinition)">
            <summary>
            Creates a new TypeSystemConvertVisitor and initializes it with a given context.
            </summary>
            <param name="unresolvedFile">The parsed file to which members should be added.</param>
            <param name="currentUsingScope">The current using scope.</param>
            <param name="currentTypeDefinition">The current type definition.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor.AddDefaultMethodsToDelegate(ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedTypeDefinition,ICSharpCode.NRefactory.TypeSystem.ITypeReference,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter})">
            <summary>
            Adds the 'Invoke', 'BeginInvoke', 'EndInvoke' methods, and a constructor, to the <paramref name="delegateType"/>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor.InterningProvider">
            <summary>
            Gets/Sets the interning provider to use.
            The default value is a new <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SimpleInterningProvider"/> instance.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TypeSystem.TypeSystemConvertVisitor.SkipXmlDocumentation">
            <summary>
            Gets/Sets whether to ignore XML documentation.
            The default value is false.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope">
            <summary>
            Represents a scope that contains "using" statements.
            This is either the file itself, or a namespace declaration.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope.#ctor">
            <summary>
            Creates a new root using scope.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope.#ctor(ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope,System.String)">
            <summary>
            Creates a new nested using scope.
            </summary>
            <param name="parent">The parent using scope.</param>
            <param name="shortName">The short namespace name.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope.HasAlias(System.String)">
            <summary>
            Gets whether this using scope has an alias (either using or extern)
            with the specified name.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.TypeSystem.UsingScope.Resolve(ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Resolves the namespace represented by this using scope.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.PreProcessorDirective.Take">
            <summary>
            For an '#if' directive, specifies whether the condition evaluated to true.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Completion.CSharpCompletionEngineBase">
            <summary>
            Acts as a common base between code completion and parameter completion.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Completion.CSharpCompletionEngine.GetImportCompletionData(System.Int32)">
            <summary>
            Gets the types that needs to be imported via using or full type name.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TokenRole">
            <summary>
            A specific role only used for C# tokens
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TokenRole.Token">
            <summary>
            Gets the token as string. Note that the token Name and Token value may differ.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TokenRole.Length">
            <summary>
            Gets the char length of the token.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue">
            <summary>
            A code issue marks a region of text with an issue and can provide solution actions for this issue.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue.#ctor(System.String,ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation,System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction})">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue"/> class.
            </summary>
            <param name="description">
            The desription of the issue.
            </param>
            <param name="start">
            The issue start location.
            </param>
            <param name="end">
            the issue end location.
            </param>
            <param name="actions">
            A list of potential solutions for the issue.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue.#ctor(System.String,ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue"/> class.
            </summary>
            <param name="description">
            The desription of the issue.
            </param>
            <param name="start">
            The issue start location.
            </param>
            <param name="end">
            the issue end location.
            </param>
            <param name="action">
            A potential solution for the issue.
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue.Description">
            <summary>
            Gets the description of the issue.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue.Start">
            <summary>
            Gets the issue start location.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue.End">
            <summary>
            Gets the issue end location.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CodeIssue.Actions">
            <summary>
            Gets a list of potential solutions for the issue.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction">
            <summary>
            A code action provides a code transformation with a description.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction.#ctor(System.String,System.Action{ICSharpCode.NRefactory.CSharp.Refactoring.Script})">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction"/> class.
            </summary>
            <param name="description">
            The description.
            </param>
            <param name="action">
            The code transformation.
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction.Description">
            <summary>
            Gets the description.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CodeAction.Run">
            <summary>
            Gets the code transformation.
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "P:ICSharpCode.NRefactory.CSharp.ContextActionAttribute.BoundToIssue" -->
        <member name="T:ICSharpCode.NRefactory.CSharp.Severity">
            <summary>
            The severity influences how the task bar reacts on found issues.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Severity.None">
            <summary>
            None means that the task bar doesn't show the issue.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Severity.Error">
            <summary>
            Errors are shown in red and that the task bar is in error state if 1 error is found.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Severity.Warning">
            <summary>
            Warnings are shown in yellow and set the task bar to warning state (if no error is found).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Severity.Suggestion">
            <summary>
            Suggestions are shown in green and doesn't influence the task bar state
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Severity.Hint">
            <summary>
            Hints are shown in blue and doesn't influence the task bar state
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.IssueMarker">
            <summary>
            The issue marker is used to set how an issue should be marked inside the text editor.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.IssueMarker.None">
            <summary>
            The issue is not shown inside the text editor. (But in the task bar)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.IssueMarker.Underline">
            <summary>
            The region is marked as underline in the severity color.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.IssueMarker.GrayOut">
            <summary>
            The text is grayed out.
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "T:ICSharpCode.NRefactory.CSharp.Refactoring.ConditionalToNullCoalescingIssue" -->
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.NotImplementedExceptionIssue">
            <summary>
            This inspector just shows that there is a not implemented exception. It doesn't offer a fix.
            Should only be shown in overview bar, no underlining.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantInternalIssue">
            <summary>
            Finds redundant internal modifiers.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantNamespaceUsageIssue">
            <summary>
            Finds redundant namespace usages.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantPrivateIssue">
            <summary>
            Finds redundant internal modifiers.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantThisIssue">
            <summary>
            Finds redundant namespace usages.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantThisIssue.IgnoreConstructors">
            <summary>
            Specifies whether to ignore redundant 'this' in constructors.
            "this.Name = name;"
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantUsingIssue">
            <summary>
            Finds redundant using declarations.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.RedundantUsingIssue.NamespacesToKeep">
            <summary>
            The list of namespaces that should be kept even if they are not being used.
            Used in SharpDevelop to always keep the "System" namespace around.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.StringIsNullOrEmptyIssue">
            <summary>
            Checks for str == null &amp;&amp; str == " "
            Converts to: string.IsNullOrEmpty (str)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.UseVarKeywordIssue">
            <summary>
            Checks for places where the 'var' keyword can be used. Note that the action is actually done with a context
            action.
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "T:ICSharpCode.NRefactory.CSharp.Refactoring.IntroduceFormatItemAction" -->
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.CreateEventInvocatorAction.UseExplictType">
            <summary>
            If <c>true</c> an explicit type will be used for the handler variable; otherwise, 'var' will be used as type.
            Default value is <c>false</c>
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.ConvertHexToDecAction">
            <summary>
            Convert a hex numer to dec. For example: 0x10 -> 16
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.ConvertForeachToForAction">
            <summary>
            Converts a foreach loop to for.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.ConvertDecToHexAction">
            <summary>
            Convert a dec numer to hex. For example: 16 -> 0x10
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.CheckIfParameterIsNullAction">
            <summary>
            Creates a 'if (param == null) throw new System.ArgumentNullException ();' contruct for a parameter.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.AddAnotherAccessorAction">
            <summary>
            Add another accessor to a property declaration that has only one.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.NamingStyle.PascalCase">
            <summary>
            PascalCase
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.NamingStyle.CamelCase">
            <summary>
            camelCase
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.NamingStyle.AllUpper">
            <summary>
            ALLUPPER
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.NamingStyle.AllLower">
            <summary>
            alllower
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.CSharp.Refactoring.NamingStyle.FirstUpper">
            <summary>
            Firstupper
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.RequiredPrefixes">
            <summary>
            If set, identifiers are required to be prefixed with one of these values.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.AllowedPrefixes">
            <summary>
            If set, identifiers are allowed to be prefixed with one of these values.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.RequiredSuffixes">
            <summary>
            If set, identifiers are required to be suffixed with one of these values.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.ForbiddenPrefixes">
            <summary>
            If set, identifiers cannot be prefixed by any of these values.
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.ForbiddenSuffixes" -->
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.AffectedEntity">
            <summary>
            Gets or sets the affected entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.VisibilityMask">
            <summary>
            Gets or sets the modifiers mask
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "P:ICSharpCode.NRefactory.CSharp.Refactoring.NamingRule.NamingStyle" -->
        <member name="T:ICSharpCode.NRefactory.CSharp.TextEditorOptions">
            <summary>
            The text editor options class holds basic information about the text editor settings that influences code generation and formatting beside
            the CSharpFormattingOptions.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.TabsToSpaces">
            <summary>
            Gets or sets a value indicating if tabs need to be replaced by spaces. If that is true, all indenting will be done with spaces only,
            otherwise the indenting will start with tabs.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.TabSize">
            <summary>
            Gets or sets the size of the tab chacter as spaces.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.IndentSize">
            <summary>
            Gets or sets the size of a single indent as spaces.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.ContinuationIndent">
            <summary>
            Gets or sets the continuation indent. A continuation indent is the indent that will be put after an embedded statement that is no block.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.LabelIndent">
            <summary>
            Gets or sets the label indent. A label indent is the indent that will be put before an label.
            (Note: it may be negative -IndentSize would cause that labels are unindented)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.EolMarker">
            <summary>
            Gets or sets the eol marker.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.IndentBlankLines">
            <summary>
            If true blank lines will be indented up to the indent level, otherwise blank lines will have the length 0.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.CSharp.TextEditorOptions.WrapLineLength">
            <summary>
            Gets or sets the length of the desired line length. The formatting engine will wrap at wrap points set to Wrapping.WrapIfTooLong if the line length is too long.
            0 means do not wrap.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.NewLineNode">
            <summary>
            A New line node represents a line break in the text.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.WhitespaceNode">
            <summary>
            A Whitespace node contains only whitespaces.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.TextNode">
            <summary>
            A text node contains text without syntactic or semantic information.
            (non parseable part of a text)
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory">
            <summary>
            The formatting options factory creates pre defined formatting option styles.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateEmpty">
            <summary>
            Creates empty CSharpFormatting options.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateMono">
            <summary>
            Creates mono indent style CSharpFormatting options.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateSharpDevelop">
            <summary>
            Creates sharp develop indent style CSharpFormatting options.
            </summary>
        </member>
        <!-- Badly formed XML comment ignored for member "M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateKRStyle" -->
        <member name="M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateAllman">
            <summary>
            Creates allman indent style CSharpFormatting options used in Visual Studio.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateWhitesmiths">
            <summary>
            The Whitesmiths style, also called Wishart style to a lesser extent, is less common today than the previous three. It was originally used in the documentation for the first commercial C compiler, the Whitesmiths Compiler.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.FormattingOptionsFactory.CreateGNU">
            <summary>
            Like the Allman and Whitesmiths styles, GNU style puts braces on a line by themselves, indented by 2 spaces,
            except when opening a function definition, where they are not indented.
            In either case, the contained code is indented by 2 spaces from the braces.
            Popularised by Richard Stallman, the layout may be influenced by his background of writing Lisp code.
            In Lisp the equivalent to a block (a progn) 
            is a first class data entity and giving it its own indent level helps to emphasize that,
            whereas in C a block is just syntax.
            Although not directly related to indentation, GNU coding style also includes a space before the bracketed 
            list of arguments to a function.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.NamingHelper.GenerateVariableName(ICSharpCode.NRefactory.CSharp.AstType,System.String)">
            <summary>
            Generates a variable name for a variable of the specified type.
            </summary>
            <returns>
            The variable name.
            </returns>
            <param name='type'>
            The type of the variable.
            </param>
            <param name='baseName'>
            Suggested base name.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.NamingHelper.GenerateVariableName(ICSharpCode.NRefactory.TypeSystem.IType,System.String)">
            <summary>
            Generates a variable name for a variable of the specified type.
            </summary>
            <returns>
            The variable name.
            </returns>
            <param name='type'>
            The type of the variable.
            </param>
            <param name='baseName'>
            Suggested base name.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.ITypeCriterion.SatisfiedBy(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Checks if the given type satisfies the critrion.
            </summary>
            <returns>
            <c>true</c>, if the type satisfies the criterion, <c>false</c> otherwise.
            </returns>
            <param name='type'>
            The type to check.
            </param>
        </member>
        <member name="P:Mono.CSharp.SeekableStreamReader.Position">
            <remarks>
              This value corresponds to the current position in a stream of characters.
              The StreamReader hides its manipulation of the underlying byte stream and all
              character set/decoding issues.  Thus, we cannot use this position to guess at
              the corresponding position in the underlying byte stream even though there is
              a correlation between them.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.CSharp.Refactoring.LocalReferenceFinder">
            <summary>
            Finds references to <see cref="T:ICSharpCode.NRefactory.TypeSystem.IVariable">IVariables</see>.
            </summary>
            <remarks>
            This class is more efficient than <see cref="M:ICSharpCode.NRefactory.CSharp.Refactoring.LocalReferenceFinder.FindReferences(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.TypeSystem.IVariable)"/>
            if there is already a resolved tree or if multiple searches needs
            to be performed.
            </remarks>		
        </member>
        <member name="M:ICSharpCode.NRefactory.CSharp.Refactoring.LocalReferenceFinder.FindReferences(ICSharpCode.NRefactory.CSharp.AstNode,ICSharpCode.NRefactory.TypeSystem.IVariable)">
            <summary>
            Finds the references to <paramref name="variable"/>.
            </summary>
            <param name="rootNode">
            Root node for the search.
            </param>
            <param name="variable">
            The variable to find references for.
            </param>
            <remarks>
            When a single <see cref="T:ICSharpCode.NRefactory.CSharp.Refactoring.LocalReferenceFinder"/> is reused for multiple
            searches, which references outside of <paramref name="rootNode"/> are
            or are not reported is undefined.
            </remarks>
        </member>
    </members>
</doc>
tools\icsharp\ICSharpCode.NRefactory.dll
 
tools\icsharp\ICSharpCode.NRefactory.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>ICSharpCode.NRefactory</name>
    </assembly>
    <members>
        <member name="T:ICSharpCode.NRefactory.Documentation.DocumentationComment">
            <summary>
            Represents a documentation comment.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.DocumentationComment.#ctor(ICSharpCode.NRefactory.Editor.ITextSource,ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Creates a new DocumentationComment.
            </summary>
            <param name="xml">The XML text.</param>
            <param name="context">Context for resolving cref attributes.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.DocumentationComment.#ctor(System.String,ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Creates a new DocumentationComment.
            </summary>
            <param name="xml">The XML text.</param>
            <param name="context">Context for resolving cref attributes.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.DocumentationComment.ResolveCref(System.String)">
            <summary>
            Resolves the given cref value to an entity.
            Returns null if the entity is not found, or if the cref attribute is syntactically invalid.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Documentation.DocumentationComment.Xml">
            <summary>
            Gets the XML code for this documentation comment.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Documentation.GetPotentiallyNestedClassTypeReference">
            <summary>
            A type reference of the form 'Some.Namespace.TopLevelType.NestedType`n'.
            We do not know the boundary between namespace name and top level type, so we have to try
            all possibilities.
            The type parameter count only applies to the innermost type, all outer types must be non-generic.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ITypeReference">
            <summary>
            Represents a reference to a type.
            Must be resolved before it can be used as type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ITypeReference.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves this type reference.
            </summary>
            <param name="context">
            Context to use for resolving this type reference.
            Which kind of context is required depends on the which kind of type reference this is;
            please consult the documentation of the method that was used to create this type reference,
            or that of the class implementing this method.
            </param>
            <returns>
            Returns the resolved type.
            In case of an error, returns an unknown type (<see cref="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Unknown"/>).
            Never returns null.
            </returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.Documentation.IDocumentationProvider">
            <summary>
            Provides XML documentation for entities.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IDocumentationProvider.GetDocumentation(ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Gets the XML documentation for the specified entity.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Documentation.IUnresolvedDocumentationProvider">
            <summary>
            Provides XML documentation for entities.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IUnresolvedDocumentationProvider.GetDocumentation(ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity)">
            <summary>
            Gets the XML documentation for the specified entity.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IUnresolvedDocumentationProvider.GetDocumentation(ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity,ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Gets the XML documentation for the specified entity.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.IDocument">
            <summary>
            A document representing a source code file for refactoring.
            Line and column counting starts at 1.
            Offset counting starts at 0.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.ITextSource">
            <summary>
            A read-only view on a (potentially mutable) text source.
            The IDocument interface derives from this interface.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.CreateSnapshot">
            <summary>
            Creates an immutable snapshot of this text source.
            Unlike all other methods in this interface, this method is thread-safe.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.CreateSnapshot(System.Int32,System.Int32)">
            <summary>
            Creates an immutable snapshot of a part of this text source.
            Unlike all other methods in this interface, this method is thread-safe.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.CreateReader">
            <summary>
            Creates a new TextReader to read from this text source.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.CreateReader(System.Int32,System.Int32)">
            <summary>
            Creates a new TextReader to read from this text source.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.GetCharAt(System.Int32)">
            <summary>
            Gets a character at the specified position in the document.
            </summary>
            <paramref name="offset">The index of the character to get.</paramref>
            <exception cref="T:System.ArgumentOutOfRangeException">Offset is outside the valid range (0 to TextLength-1).</exception>
            <returns>The character at the specified position.</returns>
            <remarks>This is the same as Text[offset], but is more efficient because
             it doesn't require creating a String object.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.GetText(System.Int32,System.Int32)">
            <summary>
            Retrieves the text for a portion of the document.
            </summary>
            <exception cref="T:System.ArgumentOutOfRangeException">offset or length is outside the valid range.</exception>
            <remarks>This is the same as Text.Substring, but is more efficient because
             it doesn't require creating a String object for the whole document.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.GetText(ICSharpCode.NRefactory.Editor.ISegment)">
            <summary>
            Retrieves the text for a portion of the document.
            </summary>
            <exception cref="T:System.ArgumentOutOfRangeException">offset or length is outside the valid range.</exception>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.WriteTextTo(System.IO.TextWriter)">
            <summary>
            Writes the text from this document into the TextWriter.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.WriteTextTo(System.IO.TextWriter,System.Int32,System.Int32)">
            <summary>
            Writes the text from this document into the TextWriter.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.IndexOf(System.Char,System.Int32,System.Int32)">
            <summary>
            Gets the index of the first occurrence of the character in the specified array.
            </summary>
            <param name="c">Character to search for</param>
            <param name="startIndex">Start index of the area to search.</param>
            <param name="count">Length of the area to search.</param>
            <returns>The first index where the character was found; or -1 if no occurrence was found.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.IndexOfAny(System.Char[],System.Int32,System.Int32)">
            <summary>
            Gets the index of the first occurrence of any character in the specified array.
            </summary>
            <param name="anyOf">Characters to search for</param>
            <param name="startIndex">Start index of the area to search.</param>
            <param name="count">Length of the area to search.</param>
            <returns>The first index where any character was found; or -1 if no occurrence was found.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.IndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <summary>
            Gets the index of the first occurrence of the specified search text in this text source.
            </summary>
            <param name="searchText">The search text</param>
            <param name="startIndex">Start index of the area to search.</param>
            <param name="count">Length of the area to search.</param>
            <param name="comparisonType">String comparison to use.</param>
            <returns>The first index where the search term was found; or -1 if no occurrence was found.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.LastIndexOf(System.Char,System.Int32,System.Int32)">
            <summary>
            Gets the index of the last occurrence of the specified character in this text source.
            </summary>
            <param name="c">The search character</param>
            <param name="startIndex">Start index of the area to search.</param>
            <param name="count">Length of the area to search.</param>
            <returns>The last index where the search term was found; or -1 if no occurrence was found.</returns>
            <remarks>The search proceeds backwards from (startIndex+count) to startIndex.
            This is different than the meaning of the parameters on string.LastIndexOf!</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSource.LastIndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <summary>
            Gets the index of the last occurrence of the specified search text in this text source.
            </summary>
            <param name="searchText">The search text</param>
            <param name="startIndex">Start index of the area to search.</param>
            <param name="count">Length of the area to search.</param>
            <param name="comparisonType">String comparison to use.</param>
            <returns>The last index where the search term was found; or -1 if no occurrence was found.</returns>
            <remarks>The search proceeds backwards from (startIndex+count) to startIndex.
            This is different than the meaning of the parameters on string.LastIndexOf!</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextSource.Version">
            <summary>
            Gets a version identifier for this text source.
            Returns null for unversioned text sources.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextSource.TextLength">
            <summary>
            Gets the total text length.
            </summary>
            <returns>The length of the text, in characters.</returns>
            <remarks>This is the same as Text.Length, but is more efficient because
             it doesn't require creating a String object.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextSource.Text">
            <summary>
            Gets the whole text as string.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.CreateDocumentSnapshot">
            <summary>
            Creates an immutable snapshot of this document.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.GetLineByNumber(System.Int32)">
            <summary>
            Gets the document line with the specified number.
            </summary>
            <param name="lineNumber">The number of the line to retrieve. The first line has number 1.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.GetLineByOffset(System.Int32)">
            <summary>
            Gets the document line that contains the specified offset.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.GetOffset(System.Int32,System.Int32)">
            <summary>
            Gets the offset from a text location.
            </summary>
            <seealso cref="M:ICSharpCode.NRefactory.Editor.IDocument.GetLocation(System.Int32)"/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.GetOffset(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the offset from a text location.
            </summary>
            <seealso cref="M:ICSharpCode.NRefactory.Editor.IDocument.GetLocation(System.Int32)"/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.GetLocation(System.Int32)">
            <summary>
            Gets the location from an offset.
            </summary>
            <seealso cref="M:ICSharpCode.NRefactory.Editor.IDocument.GetOffset(ICSharpCode.NRefactory.TextLocation)"/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Insert(System.Int32,System.String)">
            <summary>
            Inserts text.
            </summary>
            <param name="offset">The offset at which the text is inserted.</param>
            <param name="text">The new text.</param>
            <remarks>
            Anchors positioned exactly at the insertion offset will move according to their movement type.
            For AnchorMovementType.Default, they will move behind the inserted text.
            The caret will also move behind the inserted text.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Insert(System.Int32,ICSharpCode.NRefactory.Editor.ITextSource)">
            <summary>
            Inserts text.
            </summary>
            <param name="offset">The offset at which the text is inserted.</param>
            <param name="text">The new text.</param>
            <remarks>
            Anchors positioned exactly at the insertion offset will move according to their movement type.
            For AnchorMovementType.Default, they will move behind the inserted text.
            The caret will also move behind the inserted text.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Insert(System.Int32,System.String,ICSharpCode.NRefactory.Editor.AnchorMovementType)">
            <summary>
            Inserts text.
            </summary>
            <param name="offset">The offset at which the text is inserted.</param>
            <param name="text">The new text.</param>
            <param name="defaultAnchorMovementType">
            Anchors positioned exactly at the insertion offset will move according to the anchor's movement type.
            For AnchorMovementType.Default, they will move according to the movement type specified by this parameter.
            The caret will also move according to the <paramref name="defaultAnchorMovementType"/> parameter.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Insert(System.Int32,ICSharpCode.NRefactory.Editor.ITextSource,ICSharpCode.NRefactory.Editor.AnchorMovementType)">
            <summary>
            Inserts text.
            </summary>
            <param name="offset">The offset at which the text is inserted.</param>
            <param name="text">The new text.</param>
            <param name="defaultAnchorMovementType">
            Anchors positioned exactly at the insertion offset will move according to the anchor's movement type.
            For AnchorMovementType.Default, they will move according to the movement type specified by this parameter.
            The caret will also move according to the <paramref name="defaultAnchorMovementType"/> parameter.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Remove(System.Int32,System.Int32)">
            <summary>
            Removes text.
            </summary>
            <param name="offset">Starting offset of the text to be removed.</param>
            <param name="length">Length of the text to be removed.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Replace(System.Int32,System.Int32,System.String)">
            <summary>
            Replaces text.
            </summary>
            <param name="offset">The starting offset of the text to be replaced.</param>
            <param name="length">The length of the text to be replaced.</param>
            <param name="newText">The new text.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.Replace(System.Int32,System.Int32,ICSharpCode.NRefactory.Editor.ITextSource)">
            <summary>
            Replaces text.
            </summary>
            <param name="offset">The starting offset of the text to be replaced.</param>
            <param name="length">The length of the text to be replaced.</param>
            <param name="newText">The new text.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.StartUndoableAction">
            <summary>
            Make the document combine the following actions into a single
            action for undo purposes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.EndUndoableAction">
            <summary>
            Ends the undoable action started with <see cref="M:ICSharpCode.NRefactory.Editor.IDocument.StartUndoableAction"/>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.OpenUndoGroup">
            <summary>
            Creates an undo group. Dispose the returned value to close the undo group.
            </summary>
            <returns>An object that closes the undo group when Dispose() is called.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.IDocument.CreateAnchor(System.Int32)">
            <summary>
            Creates a new <see cref="T:ICSharpCode.NRefactory.Editor.ITextAnchor"/> at the specified offset.
            </summary>
            <inheritdoc cref="T:ICSharpCode.NRefactory.Editor.ITextAnchor" select="remarks|example"/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocument.Text">
            <summary>
            Gets/Sets the text of the whole document..
            </summary>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.IDocument.TextChanging">
            <summary>
            This event is called directly before a change is applied to the document.
            </summary>
            <remarks>
            It is invalid to modify the document within this event handler.
            Aborting the change (by throwing an exception) is likely to cause corruption of data structures
            that listen to the Changing and Changed events.
            </remarks>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.IDocument.TextChanged">
            <summary>
            This event is called directly after a change is applied to the document.
            </summary>
            <remarks>
            It is invalid to modify the document within this event handler.
            Aborting the event handler (by throwing an exception) is likely to cause corruption of data structures
            that listen to the Changing and Changed events.
            </remarks>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.IDocument.ChangeCompleted">
            <summary>
            This event is called after a group of changes is completed.
            </summary>
            <seealso cref="M:ICSharpCode.NRefactory.Editor.IDocument.EndUndoableAction"/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocument.LineCount">
            <summary>
            Gets the number of lines in the document.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocument.FileName">
            <summary>
            Gets the name of the file the document is stored in.
            Could also be a non-existent dummy file name or null if no name has been set.
            </summary>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.IDocument.FileNameChanged">
            <summary>
            Fired when the file name of the document changes.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.IDocumentLine">
            <summary>
            A line inside a <see cref="T:ICSharpCode.NRefactory.Editor.IDocument"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.ISegment">
            <summary>
            An (Offset,Length)-pair.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ISegment.Offset">
            <summary>
            Gets the start offset of the segment.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ISegment.Length">
            <summary>
            Gets the length of the segment.
            </summary>
            <remarks>For line segments (IDocumentLine), the length does not include the line delimeter.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ISegment.EndOffset">
            <summary>
            Gets the end offset of the segment.
            </summary>
            <remarks>EndOffset = Offset + Length;</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocumentLine.TotalLength">
            <summary>
            Gets the length of this line, including the line delimiter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocumentLine.DelimiterLength">
            <summary>
            Gets the length of the line terminator.
            Returns 1 or 2; or 0 at the end of the document.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocumentLine.LineNumber">
            <summary>
            Gets the number of this line.
            The first line has the number 1.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocumentLine.PreviousLine">
            <summary>
            Gets the previous line. Returns null if this is the first line in the document.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocumentLine.NextLine">
            <summary>
            Gets the next line. Returns null if this is the last line in the document.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.IDocumentLine.IsDeleted">
            <summary>
            Gets whether the line was deleted.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.ISegmentExtensions">
            <summary>
            Extension methods for <see cref="T:ICSharpCode.NRefactory.Editor.ISegment"/>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ISegmentExtensions.Contains(ICSharpCode.NRefactory.Editor.ISegment,System.Int32,System.Int32)">
            <summary>
            Gets whether <paramref name="segment"/> fully contains the specified segment.
            </summary>
            <remarks>
            Use <c>segment.Contains(offset, 0)</c> to detect whether a segment (end inclusive) contains offset;
            use <c>segment.Contains(offset, 1)</c> to detect whether a segment (end exclusive) contains offset.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ISegmentExtensions.Contains(ICSharpCode.NRefactory.Editor.ISegment,ICSharpCode.NRefactory.Editor.ISegment)">
            <summary>
            Gets whether <paramref name="thisSegment"/> fully contains the specified segment.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.ITextAnchor">
            <summary>
            The TextAnchor class references an offset (a position between two characters).
            It automatically updates the offset when text is inserted/removed in front of the anchor.
            </summary>
            <remarks>
            <para>Use the <see cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.Offset"/> property to get the offset from a text anchor.
            Use the <see cref="M:ICSharpCode.NRefactory.Editor.IDocument.CreateAnchor(System.Int32)"/> method to create an anchor from an offset.
            </para>
            <para>
            The document will automatically update all text anchors; and because it uses weak references to do so,
            the garbage collector can simply collect the anchor object when you don't need it anymore.
            </para>
            <para>Moreover, the document is able to efficiently update a large number of anchors without having to look
            at each anchor object individually. Updating the offsets of all anchors usually only takes time logarithmic
            to the number of anchors. Retrieving the <see cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.Offset"/> property also runs in O(lg N).</para>
            </remarks>
            <example>
            Usage:
            <code>TextAnchor anchor = document.CreateAnchor(offset);
            ChangeMyDocument();
            int newOffset = anchor.Offset;
            </code>
            </example>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.Location">
            <summary>
            Gets the text location of this anchor.
            </summary>
            <exception cref="T:System.InvalidOperationException">Thrown when trying to get the Offset from a deleted anchor.</exception>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.Offset">
            <summary>
            Gets the offset of the text anchor.
            </summary>
            <exception cref="T:System.InvalidOperationException">Thrown when trying to get the Offset from a deleted anchor.</exception>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.MovementType">
            <summary>
            Controls how the anchor moves.
            </summary>
            <remarks>Anchor movement is ambiguous if text is inserted exactly at the anchor's location.
            Does the anchor stay before the inserted text, or does it move after it?
            The property <see cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.MovementType"/> will be used to determine which of these two options the anchor will choose.
            The default value is <see cref="F:ICSharpCode.NRefactory.Editor.AnchorMovementType.Default"/>.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.SurviveDeletion">
            <summary>
            <para>
            Specifies whether the anchor survives deletion of the text containing it.
            </para><para>
            <c>false</c>: The anchor is deleted when the a selection that includes the anchor is deleted.
            <c>true</c>: The anchor is not deleted.
            </para>
            </summary>
            <remarks><inheritdoc cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.IsDeleted"/></remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.IsDeleted">
            <summary>
            Gets whether the anchor was deleted.
            </summary>
            <remarks>
            <para>When a piece of text containing an anchor is removed, then that anchor will be deleted.
            First, the <see cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.IsDeleted"/> property is set to true on all deleted anchors,
            then the <see cref="E:ICSharpCode.NRefactory.Editor.ITextAnchor.Deleted"/> events are raised.
            You cannot retrieve the offset from an anchor that has been deleted.</para>
            <para>This deletion behavior might be useful when using anchors for building a bookmark feature,
            but in other cases you want to still be able to use the anchor. For those cases, set <c><see cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.SurviveDeletion"/> = true</c>.</para>
            </remarks>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.ITextAnchor.Deleted">
            <summary>
            Occurs after the anchor was deleted.
            </summary>
            <remarks>
            <inheritdoc cref="P:ICSharpCode.NRefactory.Editor.ITextAnchor.IsDeleted"/>
            <para>Due to the 'weak reference' nature of text anchors, you will receive
            the Deleted event only while your code holds a reference to the TextAnchor object.
            </para>
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.Line">
            <summary>
            Gets the line number of the anchor.
            </summary>
            <exception cref="T:System.InvalidOperationException">Thrown when trying to get the Offset from a deleted anchor.</exception>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ITextAnchor.Column">
            <summary>
            Gets the column number of this anchor.
            </summary>
            <exception cref="T:System.InvalidOperationException">Thrown when trying to get the Offset from a deleted anchor.</exception>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.AnchorMovementType">
            <summary>
            Defines how a text anchor moves.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Editor.AnchorMovementType.Default">
            <summary>
            When text is inserted at the anchor position, the type of the insertion
            determines where the caret moves to. For normal insertions, the anchor will move
            after the inserted text.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Editor.AnchorMovementType.BeforeInsertion">
            <summary>
            Behaves like a start marker - when text is inserted at the anchor position, the anchor will stay
            before the inserted text.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Editor.AnchorMovementType.AfterInsertion">
            <summary>
            Behave like an end marker - when text is insered at the anchor position, the anchor will move
            after the inserted text.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.ITextSourceVersion">
            <summary>
            Represents a version identifier for a text source.
            </summary>
            <remarks>
            Verions can be used to efficiently detect whether a document has changed and needs reparsing;
            or even to implement incremental parsers.
            It is a separate class from ITextSource to allow the GC to collect the text source while
            the version checkpoint is still in use.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSourceVersion.BelongsToSameDocumentAs(ICSharpCode.NRefactory.Editor.ITextSourceVersion)">
            <summary>
            Gets whether this checkpoint belongs to the same document as the other checkpoint.
            </summary>
            <remarks>
            Returns false when given <c>null</c>.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSourceVersion.CompareAge(ICSharpCode.NRefactory.Editor.ITextSourceVersion)">
            <summary>
            Compares the age of this checkpoint to the other checkpoint.
            </summary>
            <remarks>This method is thread-safe.</remarks>
            <exception cref="T:System.ArgumentException">Raised if 'other' belongs to a different document than this version.</exception>
            <returns>-1 if this version is older than <paramref name="other"/>.
            0 if <c>this</c> version instance represents the same version as <paramref name="other"/>.
            1 if this version is newer than <paramref name="other"/>.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSourceVersion.GetChangesTo(ICSharpCode.NRefactory.Editor.ITextSourceVersion)">
            <summary>
            Gets the changes from this checkpoint to the other checkpoint.
            If 'other' is older than this checkpoint, reverse changes are calculated.
            </summary>
            <remarks>This method is thread-safe.</remarks>
            <exception cref="T:System.ArgumentException">Raised if 'other' belongs to a different document than this checkpoint.</exception>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ITextSourceVersion.MoveOffsetTo(ICSharpCode.NRefactory.Editor.ITextSourceVersion,System.Int32,ICSharpCode.NRefactory.Editor.AnchorMovementType)">
            <summary>
            Calculates where the offset has moved in the other buffer version.
            </summary>
            <exception cref="T:System.ArgumentException">Raised if 'other' belongs to a different document than this checkpoint.</exception>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.ReadOnlyDocument">
            <summary>
            Read-only implementation of <see cref="T:ICSharpCode.NRefactory.Editor.IDocument"/>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.#ctor(ICSharpCode.NRefactory.Editor.ITextSource)">
            <summary>
            Creates a new ReadOnlyDocument from the given text source.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.#ctor(System.String)">
            <summary>
            Creates a new ReadOnlyDocument from the given string.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.#ctor(ICSharpCode.NRefactory.Editor.ITextSource,System.String)">
            <summary>
            Creates a new ReadOnlyDocument from the given text source;
            and sets IDocument.FileName to the specified file name.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetLineByNumber(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetLineByOffset(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetOffset(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetOffset(ICSharpCode.NRefactory.TextLocation)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetLocation(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.CreateAnchor(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.CreateSnapshot">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.CreateSnapshot(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.CreateDocumentSnapshot">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.CreateReader">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.CreateReader(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.WriteTextTo(System.IO.TextWriter)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.WriteTextTo(System.IO.TextWriter,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetCharAt(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetText(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.GetText(ICSharpCode.NRefactory.Editor.ISegment)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.IndexOf(System.Char,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.IndexOfAny(System.Char[],System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.IndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.LastIndexOf(System.Char,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.LastIndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.Text">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.LineCount">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.Version">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.TextLength">
            <inheritdoc/>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.FileNameChanged">
            <inheritdoc/>
            <remarks>Will never be raised on <see cref="T:ICSharpCode.NRefactory.Editor.ReadOnlyDocument"/>.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.ReadOnlyDocument.FileName">
            <inheritdoc/>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.StringBuilderDocument">
            <summary>
            Document based on a string builder.
            This class serves as a reference implementation for the IDocument interface.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.#ctor">
            <summary>
            Creates a new StringBuilderDocument.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.#ctor(System.String)">
            <summary>
            Creates a new StringBuilderDocument with the specified initial text.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.#ctor(ICSharpCode.NRefactory.Editor.ITextSource)">
            <summary>
            Creates a new StringBuilderDocument with the initial text copied from the specified text source.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetLineByNumber(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetLineByOffset(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetOffset(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetOffset(ICSharpCode.NRefactory.TextLocation)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetLocation(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Insert(System.Int32,System.String)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Insert(System.Int32,ICSharpCode.NRefactory.Editor.ITextSource)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Insert(System.Int32,System.String,ICSharpCode.NRefactory.Editor.AnchorMovementType)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Insert(System.Int32,ICSharpCode.NRefactory.Editor.ITextSource,ICSharpCode.NRefactory.Editor.AnchorMovementType)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Remove(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Replace(System.Int32,System.Int32,System.String)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Replace(System.Int32,System.Int32,ICSharpCode.NRefactory.Editor.ITextSource)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.StartUndoableAction">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.EndUndoableAction">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.OpenUndoGroup">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.CreateDocumentSnapshot">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.CreateSnapshot">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.CreateSnapshot(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.CreateReader">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.CreateReader(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.WriteTextTo(System.IO.TextWriter)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.WriteTextTo(System.IO.TextWriter,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetCharAt(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetText(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetText(ICSharpCode.NRefactory.Editor.ISegment)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.IndexOf(System.Char,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.IndexOfAny(System.Char[],System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.IndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.LastIndexOf(System.Char,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.LastIndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.CreateAnchor(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringBuilderDocument.GetService(System.Type)">
            <inheritdoc/>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.StringBuilderDocument.TextChanging">
            <inheritdoc/>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.StringBuilderDocument.TextChanged">
            <inheritdoc/>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.StringBuilderDocument.ChangeCompleted">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Version">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringBuilderDocument.LineCount">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringBuilderDocument.Text">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringBuilderDocument.TextLength">
            <inheritdoc/>
        </member>
        <member name="E:ICSharpCode.NRefactory.Editor.StringBuilderDocument.FileNameChanged">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringBuilderDocument.FileName">
            <inheritdoc/>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.TextChangeEventArgs">
            <summary>
            Describes a change of the document text.
            This class is thread-safe.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.#ctor(System.Int32,System.String,System.String)">
            <summary>
            Creates a new TextChangeEventArgs object.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.#ctor(System.Int32,ICSharpCode.NRefactory.Editor.ITextSource,ICSharpCode.NRefactory.Editor.ITextSource)">
            <summary>
            Creates a new TextChangeEventArgs object.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.GetNewOffset(System.Int32,ICSharpCode.NRefactory.Editor.AnchorMovementType)">
            <summary>
            Gets the new offset where the specified offset moves after this document change.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.Invert">
            <summary>
            Creates TextChangeEventArgs for the reverse change.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.Offset">
            <summary>
            The offset at which the change occurs.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.RemovedText">
            <summary>
            The text that was removed.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.RemovalLength">
            <summary>
            The number of characters removed.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.InsertedText">
            <summary>
            The text that was inserted.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.TextChangeEventArgs.InsertionLength">
            <summary>
            The number of characters inserted.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.StringTextSource">
            <summary>
            Implements the ITextSource interface using a string.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Editor.StringTextSource.Empty">
            <summary>
            Gets a text source containing the empty string.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.#ctor(System.String)">
            <summary>
            Creates a new StringTextSource with the given text.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.#ctor(System.String,ICSharpCode.NRefactory.Editor.ITextSourceVersion)">
            <summary>
            Creates a new StringTextSource with the given text.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.CreateSnapshot">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.CreateSnapshot(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.CreateReader">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.CreateReader(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.WriteTextTo(System.IO.TextWriter)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.WriteTextTo(System.IO.TextWriter,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.GetCharAt(System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.GetText(System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.GetText(ICSharpCode.NRefactory.Editor.ISegment)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.IndexOf(System.Char,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.IndexOfAny(System.Char[],System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.IndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.LastIndexOf(System.Char,System.Int32,System.Int32)">
            <inheritdoc/>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.StringTextSource.LastIndexOf(System.String,System.Int32,System.Int32,System.StringComparison)">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringTextSource.Version">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringTextSource.TextLength">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.StringTextSource.Text">
            <inheritdoc/>
        </member>
        <member name="T:ICSharpCode.NRefactory.Editor.TextSourceVersionProvider">
            <summary>
            Provides ITextSourceVersion instances.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Editor.TextSourceVersionProvider.AppendChange(ICSharpCode.NRefactory.Editor.TextChangeEventArgs)">
            <summary>
            Replaces the current version with a new version.
            </summary>
            <param name="change">Change from current version to new version</param>
        </member>
        <member name="P:ICSharpCode.NRefactory.Editor.TextSourceVersionProvider.CurrentVersion">
            <summary>
            Gets the current version.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.IAnnotatable">
            <summary>
            Provides an interface to handle annotations in an object.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.IAnnotatable.Annotation``1">
            <summary>
            Gets the first annotation of the specified type.
            Returns null if no matching annotation exists.
            </summary>
            <typeparam name='T'>
            The type of the annotation.
            </typeparam>
        </member>
        <member name="M:ICSharpCode.NRefactory.IAnnotatable.Annotation(System.Type)">
            <summary>
            Gets the first annotation of the specified type.
            Returns null if no matching annotation exists.
            </summary>
            <param name='type'>
            The type of the annotation.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.IAnnotatable.AddAnnotation(System.Object)">
            <summary>
            Adds an annotation to this instance.
            </summary>
            <param name='annotation'>
            The annotation to add.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.IAnnotatable.RemoveAnnotations``1">
            <summary>
            Removes all annotations of the specified type.
            </summary>
            <typeparam name='T'>
            The type of the annotations to remove.
            </typeparam>
        </member>
        <member name="M:ICSharpCode.NRefactory.IAnnotatable.RemoveAnnotations(System.Type)">
            <summary>
            Removes all annotations of the specified type.
            </summary>
            <param name='type'>
            The type of the annotations to remove.
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.IAnnotatable.Annotations">
            <summary>
            Gets all annotations stored on this IAnnotatable.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.AbstractAnnotatable">
            <summary>
            Base class used to implement the IAnnotatable interface.
            This implementation is thread-safe.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.AbstractAnnotatable.CloneAnnotations">
            <summary>
            Clones all annotations.
            This method is intended to be called by Clone() implementations in derived classes.
            <code>
            AstNode copy = (AstNode)MemberwiseClone();
            copy.CloneAnnotations();
            </code>
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.AbstractAnnotatable.Annotations">
            <summary>
            Gets all annotations stored on this AstNode.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.BacktrackingInfo">
            <summary>
            Container for the backtracking info.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.Choice">
            <summary>
            Matches one of several alternatives.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.Pattern">
            <summary>
            Base class for all patterns.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.INode">
            <summary>
            AST node that supports pattern matching.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.PatternMatching.Pattern.AnyString">
            <summary>
            Gets the string that matches any string.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.AnyNode">
            <summary>
            Matches any node.
            </summary>
            <remarks>Does not match null nodes.</remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.Backreference">
            <summary>
            Matches the last entry in the specified named group.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.PatternMatching.PatternExtensions.Match(ICSharpCode.NRefactory.PatternMatching.INode,ICSharpCode.NRefactory.PatternMatching.INode)">
            <summary>
            Performs a pattern matching operation.
            <c>this</c> is the pattern, <paramref name="other"/> is the AST that is being matched.
            </summary>
            <returns>
            A match object. Check <see cref="P:ICSharpCode.NRefactory.PatternMatching.Match.Success"/> to see whether the match was successful.
            </returns>
            <remarks>
            Patterns are ASTs that contain special pattern nodes (from the PatternMatching namespace).
            However, it is also possible to match two ASTs without any pattern nodes -
            doing so will produce a successful match if the two ASTs are structurally identical.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.Match">
            <summary>
            Represents the result of a pattern matching operation.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.NamedNode">
            <summary>
            Represents a named node within a pattern.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.PatternMatching.Repeat">
            <summary>
            Represents an optional node.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider">
            <summary>
            Provides documentation from an .xml file (as generated by the Microsoft C# compiler).
            </summary>
            <remarks>
            This class first creates an in-memory index of the .xml file, and then uses that to read only the requested members.
            This way, we avoid keeping all the documentation in memory.
            The .xml file is only opened when necessary, the file handle is not kept open all the time.
            If the .xml file is changed, the index will automatically be recreated.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.#ctor(System.String)">
            <summary>
            Creates a new XmlDocumentationProvider.
            </summary>
            <param name="fileName">Name of the .xml file.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.LookupLocalizedXmlDoc(System.String)">
            <summary>
            Given the assembly file name, looks up the XML documentation file name.
            Returns null if no XML documentation file is found.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.GetHashCode(System.String)">
            <summary>
            Hash algorithm used for the index.
            This is a custom implementation so that old index files work correctly
            even when the .NET string.GetHashCode implementation changes
            (e.g. due to .NET 4.5 hash randomization)
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.GetDocumentation(System.String)">
            <summary>
            Get the documentation for the member with the specified documentation key.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.GetDocumentation(ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <inheritdoc/>
        </member>
        <member name="F:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.IndexEntry.HashCode">
            <summary>
            Hash code of the documentation tag
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Documentation.XmlDocumentationProvider.IndexEntry.PositionInFile">
            <summary>
            Position in the .xml file where the documentation starts
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Role">
            <summary>
            Represents the role a node plays within its parent.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Role.IsValid(System.Object)">
            <summary>
            Gets whether the specified node is valid in this role.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Role.GetByIndex(System.UInt32)">
            <summary>
            Gets the role with the specified index.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Role`1">
            <summary>
            Represents the role a node plays within its parent.
            All nodes with this role have type T.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Role`1.NullObject">
            <summary>
            Gets the null object used when there's no node with this role.
            Not every role has a null object; this property returns null for roles without a null object.
            </summary>
            <remarks>
            Roles used for non-collections should always have a null object, so that no AST property returns null.
            However, if a role used for collections only, it may leave out the null object.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.AmbiguousTypeResolveResult">
            <summary>
            Represents an ambiguous type resolve result.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.TypeResolveResult">
            <summary>
            The resolved expression refers to a type name.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ResolveResult">
            <summary>
            Represents the result of resolving an expression.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.AmbiguousMemberResolveResult">
            <summary>
            Represents an ambiguous field/property/event access.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.MemberResolveResult">
            <summary>
            Represents the result of a member invocation.
            Used for field/property/event access.
            Also, <see cref="T:ICSharpCode.NRefactory.Semantics.InvocationResolveResult"/> derives from MemberResolveResult.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.MemberResolveResult.Member">
            <summary>
            Gets the member.
            This property never returns null.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.MemberResolveResult.IsVirtualCall">
            <summary>
            Gets whether this MemberResolveResult is a virtual call.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ArrayAccessResolveResult">
            <summary>
            Resolve result representing an array access.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ArrayCreateResolveResult">
            <summary>
            Resolve result representing an array creation.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ArrayCreateResolveResult.SizeArguments">
            <summary>
            Gets the size arguments.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ArrayCreateResolveResult.InitializerElements">
            <summary>
            Gets the initializer elements.
            This field may be null if no initializer was specified.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ByReferenceResolveResult">
            <summary>
            Represents the resolve result of an 'ref x' or 'out x' expression.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ConstantResolveResult">
            <summary>
            ResolveResult representing a compile-time constant.
            Note: this class is mainly used for literals; there may be other ResolveResult classes
            which are compile-time constants as well.
            For example, a reference to a <c>const</c> field results in a <see cref="T:ICSharpCode.NRefactory.Semantics.MemberResolveResult"/>.
            
            Check <see cref="P:ICSharpCode.NRefactory.Semantics.ResolveResult.IsCompileTimeConstant"/> to determine is a resolve result is a constant.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult">
            <summary>
            Represents an implicit or explicit type conversion.
            <c>conversionResolveResult.Input.Type</c> is the source type;
            <c>conversionResolveResult.Type</c> is the target type.
            The <see cref="F:ICSharpCode.NRefactory.Semantics.ConversionResolveResult.Conversion"/> property provides details about the type of conversion.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ConversionResolveResult.CheckForOverflow">
            <summary>
            For numeric conversions, specifies whether overflow checking is enabled.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ErrorResolveResult">
            <summary>
            Represents a resolve error.
            
            Note: some errors are represented by other classes; for example a <see cref="T:ICSharpCode.NRefactory.Semantics.ConversionResolveResult"/> may
            be erroneous if the conversion is invalid.
            </summary>
            <seealso cref="P:ICSharpCode.NRefactory.Semantics.ResolveResult.IsError"/>.
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ErrorResolveResult.UnknownError">
            <summary>
            Gets an ErrorResolveResult instance with <c>Type</c> = <c>SpecialType.UnknownType</c>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.Conversion">
            <summary>
            Holds information about a conversion between two types.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.Conversion.None">
            <summary>
            Not a valid conversion.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.Conversion.IdentityConversion">
            <summary>
            Identity conversion.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.Conversion.ImplicitConstantExpressionConversion">
            <summary>
            The numeric conversion of a constant expression.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.Conversion.TryCast">
            <summary>
            C# 'as' cast.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsValid">
            <summary>
            Gets whether the conversion is valid.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsTryCast">
            <summary>
            Gets whether the conversion is an '<c>as</c>' cast.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsLifted">
            <summary>
            Gets whether this conversion is a lifted version of another conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsDynamicConversion">
            <summary>
            Gets whether the conversion is dynamic.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsReferenceConversion">
            <summary>
            Gets whether the conversion is a reference conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsEnumerationConversion">
            <summary>
            Gets whether the conversion is an enumeration conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsNullableConversion">
            <summary>
            Gets whether the conversion is a nullable conversion
            (conversion between a nullable type and the regular type).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsUserDefined">
            <summary>
            Gets whether this conversion is user-defined (op_Implicit or op_Explicit).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsBoxingConversion">
            <summary>
            Gets whether this conversion is a boxing conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsUnboxingConversion">
            <summary>
            Gets whether this conversion is an unboxing conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsPointerConversion">
            <summary>
            Gets whether this conversion is a pointer conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsMethodGroupConversion">
            <summary>
            Gets whether this conversion is a method group conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsVirtualMethodLookup">
            <summary>
            For method-group conversions, gets whether to perform a virtual method lookup at runtime.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.IsAnonymousFunctionConversion">
            <summary>
            Gets whether this conversion is an anonymous function conversion.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.Conversion.Method">
            <summary>
            Gets the method associated with this conversion.
            For user-defined conversions, this is the method being called.
            For method-group conversions, this is the method that was chosen from the group.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ForEachResolveResult">
            <summary>
            Resolve result representing a 'foreach' loop.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.GetEnumeratorCall">
            <summary>
            Gets the semantic tree for the call to GetEnumerator.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.CollectionType">
            <summary>
            Gets the collection type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.EnumeratorType">
            <summary>
            Gets the enumerator type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.ElementType">
            <summary>
            Gets the element type.
            This is the type that would be inferred for an implicitly-typed element variable.
            For explicitly-typed element variables, this type may differ from <c>ElementVariable.Type</c>.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.ElementVariable">
            <summary>
            Gets the element variable.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.CurrentProperty">
            <summary>
            Gets the Current property on the IEnumerator.
            Returns null if the property is not found.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.ForEachResolveResult.MoveNextMethod">
            <summary>
            Gets the MoveNext() method on the IEnumerator.
            Returns null if the method is not found.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.InitializedObjectResolveResult">
            <summary>
            Refers to the object that is currently being initialized.
            Used within <see cref="F:ICSharpCode.NRefactory.Semantics.InvocationResolveResult.InitializerStatements"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.InvocationResolveResult">
            <summary>
            Represents the result of a method, constructor or indexer invocation.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.InvocationResolveResult.Arguments">
            <summary>
            Gets the arguments that are being passed to the method, in the order the arguments are being evaluated.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.InvocationResolveResult.InitializerStatements">
            <summary>
            Gets the list of initializer statements that are appplied to the result of this invocation.
            This is used to represent object and collection initializers.
            With the initializer statements, the <see cref="T:ICSharpCode.NRefactory.Semantics.InitializedObjectResolveResult"/> is used
            to refer to the result of this invocation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Semantics.InvocationResolveResult.GetArgumentsForCall">
            <summary>
            Gets the arguments in the order they are being passed to the method.
            For parameter arrays (params), this will return an ArrayCreateResolveResult.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.LocalResolveResult">
            <summary>
            Represents a local variable or parameter.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult">
            <summary>
            Represents a named argument.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult.Member">
            <summary>
            Gets the member to which the parameter belongs.
            This field can be null.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult.Parameter">
            <summary>
            Gets the parameter.
            This field can be null.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult.ParameterName">
            <summary>
            Gets the parameter name.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.NamedArgumentResolveResult.Argument">
            <summary>
            Gets the argument passed to the parameter.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.NamespaceResolveResult">
            <summary>
            Represents that an expression resolved to a namespace.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.OperatorResolveResult">
            <summary>
            Represents a unary/binary/ternary operator invocation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.OperatorResolveResult.OperatorType">
            <summary>
            Gets the operator type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.OperatorResolveResult.Operands">
            <summary>
            Gets the operands.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.OperatorResolveResult.UserDefinedOperatorMethod">
            <summary>
            Gets the user defined operator method.
            Returns null if this is a predefined operator.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.OperatorResolveResult.IsLiftedOperator">
            <summary>
            Gets whether this is a lifted operator.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.ThisResolveResult">
            <summary>
            Represents the 'this' reference.
            Also used for the 'base' reference.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.ThisResolveResult.CausesNonVirtualInvocation">
            <summary>
            Gets whether this resolve result causes member invocations to be non-virtual.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.TypeIsResolveResult">
            <summary>
            Resolve result for a C# 'is' expression.
            "Input is TargetType".
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Semantics.TypeIsResolveResult.TargetType">
            <summary>
            Type that is being compared with.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.TypeOfResolveResult">
            <summary>
            Represents the 'typeof'.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.TypeOfResolveResult.ReferencedType">
            <summary>
            The type referenced by the 'typeof'.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.UnknownMemberResolveResult">
            <summary>
            Represents an unknown member.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Semantics.UnknownMemberResolveResult.TargetType">
            <summary>
            The type on which the method is being called.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.UnknownMethodResolveResult">
            <summary>
            Represents an unknown method.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Semantics.UnknownIdentifierResolveResult">
            <summary>
            Represents an unknown identifier.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TextLocation">
            <summary>
            A line/column position.
            Text editor lines/columns are counted started from one.
            </summary>
            <remarks>
            The document provides the methods <see cref="M:ICSharpCode.NRefactory.Editor.IDocument.GetLocation(System.Int32)"/> and
            <see cref="M:ICSharpCode.NRefactory.Editor.IDocument.GetOffset(ICSharpCode.NRefactory.TextLocation)"/> to convert between offsets and TextLocations.
            </remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.TextLocation.MinLine">
            <summary>
            Constant of the minimum line.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TextLocation.MinColumn">
            <summary>
            Constant of the minimum column.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TextLocation.Empty">
            <summary>
            Represents no text location (0, 0).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.#ctor(System.Int32,System.Int32)">
            <summary>
            Creates a TextLocation instance.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.ToString">
            <summary>
            Gets a string representation for debugging purposes.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.GetHashCode">
            <summary>
            Gets a hash code.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.Equals(System.Object)">
            <summary>
            Equality test.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.Equals(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Equality test.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.op_Equality(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Equality test.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.op_Inequality(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Inequality test.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.op_LessThan(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Compares two text locations.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.op_GreaterThan(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Compares two text locations.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.op_LessThanOrEqual(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Compares two text locations.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.op_GreaterThanOrEqual(ICSharpCode.NRefactory.TextLocation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Compares two text locations.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TextLocation.CompareTo(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Compares two text locations.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TextLocation.Line">
            <summary>
            Gets the line number.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TextLocation.Column">
            <summary>
            Gets the column number.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TextLocation.IsEmpty">
            <summary>
            Gets whether the TextLocation instance is empty.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Accessibility">
            <summary>
            Enum that describes the accessibility of an entity.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.None">
            <summary>
            The entity is completely inaccessible. This is used for C# explicit interface implementations.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.Private">
            <summary>
            The entity is only accessible within the same class.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.Public">
            <summary>
            The entity is accessible everywhere.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.Protected">
            <summary>
            The entity is only accessible within the same class and in derived classes.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.Internal">
            <summary>
            The entity is accessible within the same project content.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.ProtectedOrInternal">
            <summary>
            The entity is accessible both everywhere in the project content, and in all derived classes.
            </summary>
            <remarks>This corresponds to C# 'protected internal'.</remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Accessibility.ProtectedAndInternal">
            <summary>
            The entity is accessible in derived classes within the same project content.
            </summary>
            <remarks>C# does not support this accessibility.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.Accessibility">
            <summary>
            Gets the accessibility of this entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.IsPrivate">
            <summary>
            Gets a value indicating whether this instance is private.
            </summary>
            <value>
            <c>true</c> if this instance is private; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.IsPublic">
            <summary>
            Gets a value indicating whether this instance is public.
            </summary>
            <value>
            <c>true</c> if this instance is public; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.IsProtected">
            <summary>
            Gets a value indicating whether this instance is protected.
            </summary>
            <value>
            <c>true</c> if this instance is protected; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.IsInternal">
            <summary>
            Gets a value indicating whether this instance is internal.
            </summary>
            <value>
            <c>true</c> if this instance is internal; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.IsProtectedOrInternal">
            <summary>
            Gets a value indicating whether this instance is protected or internal.
            </summary>
            <value>
            <c>true</c> if this instance is protected or internal; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IHasAccessibility.IsProtectedAndInternal">
            <summary>
            Gets a value indicating whether this instance is protected and internal.
            </summary>
            <value>
            <c>true</c> if this instance is protected and internal; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.AnonymousType">
            <summary>
            Anonymous type.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractType">
            <summary>
            Default implementation for IType interface.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IType">
            <summary>
            This interface represents a resolved type in the type system.
            </summary>
            <remarks>
            <para>
            A type is potentially
            - a type definition (<see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/>, i.e. a class, struct, interface, delegate, or built-in primitive type)
            - a parameterized type (<see cref="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedType"/>, e.g. List&lt;int&gt;)
            - a type parameter (<see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeParameter"/>, e.g. T)
            - an array (<see cref="T:ICSharpCode.NRefactory.TypeSystem.ArrayType"/>)
            - a pointer (<see cref="T:ICSharpCode.NRefactory.TypeSystem.PointerType"/>)
            - a managed reference (<see cref="T:ICSharpCode.NRefactory.TypeSystem.ByReferenceType"/>)
            - one of the special types (<see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/>, <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.NullType"/>,
                 <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.Dynamic"/>, <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnboundTypeArgument"/>)
            
            The <see cref="P:ICSharpCode.NRefactory.TypeSystem.IType.Kind"/> property can be used to switch on the kind of a type.
            </para>
            <para>
            IType uses the null object pattern: <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/> serves as the null object.
            Methods or properties returning IType never return null unless documented otherwise.
            </para>
            <para>
            Types should be compared for equality using the <see cref="M:System.IEquatable`1.Equals(`0)"/> method.
            Identical types do not necessarily use the same object reference.
            </para>
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamedElement.FullName">
            <summary>
            Gets the fully qualified name of the class the return type is pointing to.
            </summary>
            <returns>
            "System.Int32[]" for int[]<br/>
            "System.Collections.Generic.List" for List&lt;string&gt;
            "System.Environment.SpecialFolder" for Environment.SpecialFolder
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamedElement.Name">
            <summary>
            Gets the short name of the class the return type is pointing to.
            </summary>
            <returns>
            "Int32[]" for int[]<br/>
            "List" for List&lt;string&gt;
            "SpecialFolder" for Environment.SpecialFolder
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamedElement.ReflectionName">
            <summary>
            Gets the full reflection name of the element.
            </summary>
            <remarks>
            For types, the reflection name can be parsed back into a ITypeReference by using
            <see cref="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.ParseReflectionName(System.String)"/>.
            </remarks>
            <returns>
            "System.Int32[]" for int[]<br/>
            "System.Int32[][,]" for C# int[,][]<br/>
            "System.Collections.Generic.List`1[[System.String]]" for List&lt;string&gt;
            "System.Environment+SpecialFolder" for Environment.SpecialFolder
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamedElement.Namespace">
            <summary>
            Gets the full name of the namespace containing this entity.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetDefinition">
            <summary>
            Gets the underlying type definition.
            Can return null for types which do not have a type definition (for example arrays, pointers, type parameters).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.AcceptVisitor(ICSharpCode.NRefactory.TypeSystem.TypeVisitor)">
            <summary>
            Calls ITypeVisitor.Visit for this type.
            </summary>
            <returns>The return value of the ITypeVisitor.Visit call</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.VisitChildren(ICSharpCode.NRefactory.TypeSystem.TypeVisitor)">
            <summary>
            Calls ITypeVisitor.Visit for all children of this type, and reconstructs this type with the children based
            on the return values of the visit calls.
            </summary>
            <returns>A copy of this type, with all children replaced by the return value of the corresponding visitor call.
            If the visitor returned the original types for all children (or if there are no children), returns <c>this</c>.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.ToTypeReference">
            <summary>
            Creates a type reference that can be used to look up a type equivalent to this type in another compilation.
            </summary>
            <remarks>
            If this type contains open generics, the resulting type reference will need to be looked up in an appropriate generic context.
            Otherwise, the main resolve context of a compilation is sufficient.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetNestedTypes(System.Predicate{ICSharpCode.NRefactory.TypeSystem.ITypeDefinition},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets inner classes (including inherited inner classes).
            </summary>
            <param name="filter">The filter used to select which types to return.
            The filter is tested on the original type definitions (before parameterization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            <para>
            If the nested type is generic, this method will return a parameterized type,
            where the additional type parameters are set to <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnboundTypeArgument"/>.
            </para>
            <para>
            Type parameters belonging to the outer class will have the value copied from the outer type
            if it is a parameterized type. Otherwise, those existing type parameters will be self-parameterized,
            and thus 'leaked' to the caller in the same way the GetMembers() method does not specialize members
            from an <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> and 'leaks' type parameters in member signatures.
            </para>
            </remarks>
            <example>
            <code>
            class Base&lt;T&gt; {
            	class Nested&lt;X&gt; {}
            }
            class Derived&lt;A, B&gt; : Base&lt;B&gt; {}
            
            Derived[string,int].GetNestedTypes() = { Base`1+Nested`1[int, unbound] }
            Derived.GetNestedTypes() = { Base`1+Nested`1[`1, unbound] }
            Base[`1].GetNestedTypes() = { Base`1+Nested`1[`1, unbound] }
            Base.GetNestedTypes() = { Base`1+Nested`1[`0, unbound] }
            </code>
            </example>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetNestedTypes(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Predicate{ICSharpCode.NRefactory.TypeSystem.ITypeDefinition},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets inner classes (including inherited inner classes)
            that have <c>typeArguments.Count</c> additional type parameters.
            </summary>
            <param name="typeArguments">The type arguments passed to the inner class</param>
            <param name="filter">The filter used to select which types to return.
            The filter is tested on the original type definitions (before parameterization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            Type parameters belonging to the outer class will have the value copied from the outer type
            if it is a parameterized type. Otherwise, those existing type parameters will be self-parameterized,
            and thus 'leaked' to the caller in the same way the GetMembers() method does not specialize members
            from an <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> and 'leaks' type parameters in member signatures.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetConstructors(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all instance constructors for this type.
            </summary>
            <param name="filter">The filter used to select which constructors to return.
            The filter is tested on the original method definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            <para>The result does not include static constructors.
            Constructors in base classes are not returned by default, as GetMemberOptions.IgnoreInheritedMembers is the default value.</para>
            <para>
            For methods on parameterized types, type substitution will be performed on the method signature,
            and the appropriate <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/> will be returned.
            </para>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetMethods(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all methods that can be called on this type.
            </summary>
            <param name="filter">The filter used to select which methods to return.
            The filter is tested on the original method definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            <para>
            The result does not include constructors or accessors.
            </para>
            <para>
            For methods on parameterized types, type substitution will be performed on the method signature,
            and the appropriate <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/> will be returned.
            </para>
            <para>
            If the method being returned is generic, and this type is a parameterized type where the type
            arguments involve another method's type parameters, the resulting specialized signature
            will be ambiguous as to which method a type parameter belongs to.
            For example, "List[[``0]].GetMethods()" will return "ConvertAll(Converter`2[[``0, ``0]])".
            
            If possible, use the other GetMethods() overload to supply type arguments to the method,
            so that both class and method type parameter can be substituted at the same time, so that
            the ambiguity can be avoided.
            </para>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetMethods(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all generic methods that can be called on this type with the specified type arguments.
            </summary>
            <param name="typeArguments">The type arguments used for the method call.</param>
            <param name="filter">The filter used to select which methods to return.
            The filter is tested on the original method definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            <para>The result does not include constructors or accessors.</para>
            <para>
            Type substitution will be performed on the method signature, creating a <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod"/>
            with the specified type arguments.
            </para>
            <para>
            When the list of type arguments is empty, this method acts like the GetMethods() overload without
            the type arguments parameter - that is, it also returns generic methods,
            and the other overload's remarks about ambiguous signatures apply here as well.
            </para>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetProperties(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedProperty},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all properties that can be called on this type.
            </summary>
            <param name="filter">The filter used to select which properties to return.
            The filter is tested on the original property definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            For properties on parameterized types, type substitution will be performed on the property signature,
            and the appropriate <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedProperty"/> will be returned.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetFields(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedField},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all fields that can be accessed on this type.
            </summary>
            <param name="filter">The filter used to select which constructors to return.
            The filter is tested on the original field definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            For fields on parameterized types, type substitution will be performed on the field's return type,
            and the appropriate <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedField"/> will be returned.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetEvents(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedEvent},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all events that can be accessed on this type.
            </summary>
            <param name="filter">The filter used to select which events to return.
            The filter is tested on the original event definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            For fields on parameterized types, type substitution will be performed on the event's return type,
            and the appropriate <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedEvent"/> will be returned.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetMembers(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all members that can be called on this type.
            </summary>
            <param name="filter">The filter used to select which members to return.
            The filter is tested on the original member definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            <para>
            The resulting list is the union of GetFields(), GetProperties(), GetMethods() and GetEvents().
            It does not include constructors.
            For parameterized types, type substitution will be performed.
            </para>
            <para>
            For generic methods, the remarks about ambiguous signatures from the
            <see cref="M:ICSharpCode.NRefactory.TypeSystem.IType.GetMethods(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)"/> method apply here as well.
            </para>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IType.GetAccessors(System.Predicate{ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)">
            <summary>
            Gets all accessors belonging to properties or events on this type.
            </summary>
            <param name="filter">The filter used to select which members to return.
            The filter is tested on the original member definitions (before specialization).</param>
            <param name="options">Specified additional options for the GetMembers() operation.</param>
            <remarks>
            Accessors are not returned by GetMembers() or GetMethods().
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IType.Kind">
            <summary>
            Gets the type kind.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IType.IsReferenceType">
            <summary>
            Gets whether the type is a reference type or value type.
            </summary>
            <returns>
            true, if the type is a reference type.
            false, if the type is a value type.
            null, if the type is not known (e.g. unconstrained generic type parameter or type not found)
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IType.DeclaringType">
            <summary>
            Gets the parent type, if this is a nested type.
            Returns null for top-level types.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IType.TypeParameterCount">
            <summary>
            Gets the number of type parameters.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IType.DirectBaseTypes">
            <summary>
            Gets the direct base types.
            </summary>
            <returns>Returns the direct base types including interfaces</returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractResolvedMember">
            <summary>
            Implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IMember"/> that resolves an unresolved member.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractResolvedEntity">
            <summary>
            Implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IEntity"/> that resolves an unresolved entity.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IEntity">
            <summary>
            Represents a resolved entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilationProvider.Compilation">
            <summary>
            Gets the parent compilation.
            This property never returns null.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.EntityType">
            <summary>
            Gets the entity type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.Region">
            <summary>
            Gets the complete entity region (including header+body)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.BodyRegion">
            <summary>
            Gets the entity body region.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.DeclaringTypeDefinition">
            <summary>
            Gets the declaring class.
            For members, this is the class that contains the member.
            For nested classes, this is the outer class. For top-level entities, this property returns null.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.DeclaringType">
            <summary>
            Gets/Sets the declaring type (incl. type arguments, if any).
            This property never returns null -- for top-level entities, it returns SharedTypes.UnknownType.
            If this is not a specialized member, the value returned is equal to <see cref="P:ICSharpCode.NRefactory.TypeSystem.IEntity.DeclaringTypeDefinition"/>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.ParentAssembly">
            <summary>
            The assembly in which this entity is defined.
            This property never returns null.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.Attributes">
            <summary>
            Gets the attributes on this entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.Documentation">
            <summary>
            Gets the documentation for this entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.IsStatic">
            <summary>
            Gets whether this entity is static.
            Returns true if either the 'static' or the 'const' modifier is set.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.IsAbstract">
            <summary>
            Returns whether this entity is abstract.
            </summary>
            <remarks>Static classes also count as abstract classes.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.IsSealed">
            <summary>
            Returns whether this entity is sealed.
            </summary>
            <remarks>Static classes also count as sealed classes.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.IsShadowing">
            <summary>
            Gets whether this member is declared to be shadowing another member with the same name.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IEntity.IsSynthetic">
            <summary>
            Gets whether this member is generated by a macro/compiler feature.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IMember">
            <summary>
            Method/field/property/event.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IMember.ToMemberReference">
            <summary>
            Creates a member reference that can be used to rediscover this member in another compilation.
            </summary>
            <remarks>
            If this member is specialized using open generic types, the resulting member reference will need to be looked up in an appropriate generic context.
            Otherwise, the main resolve context of a compilation is sufficient.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.MemberDefinition">
            <summary>
            Gets the original member definition for this member.
            Returns <c>this</c> if this is not a specialized member.
            Specialized members are the result of overload resolution with type substitution.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.UnresolvedMember">
            <summary>
            Gets the unresolved member instance from which this member was created.
            This property may return <c>null</c> for special members that do not have a corresponding unresolved member instance.
            </summary>
            <remarks>
            For specialized members, this property returns the unresolved member for the original member definition.
            For partial methods, this property returns the implementing partial method declaration, if one exists, and the
            defining partial method declaration otherwise.
            For the members used to represent the built-in C# operators like "operator +(int, int);", this property returns <c>null</c>.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.ReturnType">
            <summary>
            Gets the return type of this member.
            This property never returns <c>null</c>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.ImplementedInterfaceMembers">
            <summary>
            Gets the interface members implemented by this member (both implicitly and explicitly).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.IsExplicitInterfaceImplementation">
            <summary>
            Gets whether this member is explicitly implementing an interface.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.IsVirtual">
            <summary>
            Gets if the member is virtual. Is true only if the "virtual" modifier was used, but non-virtual
            members can be overridden, too; if they are abstract or overriding a method.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.IsOverride">
            <summary>
            Gets whether this member is overriding another member.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMember.IsOverridable">
            <summary>
            Gets if the member can be overridden. Returns true when the member is "abstract", "virtual" or "override" but not "sealed".
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IProperty">
            <summary>
            Represents a property or indexer.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IParameterizedMember">
            <summary>
            Represents a method or property.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.AnonymousTypeReference">
            <summary>
            Anonymous type reference.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ArrayType">
            <summary>
            Represents an array type.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ISupportsInterning">
            <summary>
            Interface for TypeSystem objects that support interning.
            See <see cref="T:ICSharpCode.NRefactory.TypeSystem.InterningProvider"/> for more information.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ISupportsInterning.GetHashCodeForInterning">
            <summary>
            Gets a hash code for interning.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ISupportsInterning.EqualsForInterning(ICSharpCode.NRefactory.TypeSystem.ISupportsInterning)">
            <summary>
            Equality test for interning.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.CecilLoader">
            <summary>
            Allows loading an IProjectContent from an already compiled assembly.
            </summary>
            <remarks>Instance methods are not thread-safe; you need to create multiple instances of CecilLoader
            if you want to load multiple project contents in parallel.</remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.CecilLoader.cecilLoaderVersion">
            <summary>
            Version number of the cecil loader.
            Should be incremented when fixing bugs in the cecil loader so that project contents cached on disk
            (which might be incorrect due to the bug) are re-created.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.TypeSystem.CecilLoader"/> class.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.#ctor(System.Boolean)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.TypeSystem.CecilLoader"/> class.
            </summary>
            <param name="createCecilReferences">
            If true references to the cecil objects are hold. In this case the cecil loader can do a type system -&gt; cecil mapping.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.#ctor(ICSharpCode.NRefactory.TypeSystem.CecilLoader)">
            <summary>
            Creates a nested CecilLoader for lazy-loading.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.LoadAssembly(Mono.Cecil.AssemblyDefinition)">
            <summary>
            Loads the assembly definition into a project content.
            </summary>
            <returns>IProjectContent that represents the assembly</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.SetCurrentModule(Mono.Cecil.ModuleDefinition)">
            <summary>
            Sets the current module.
            This causes ReadTypeReference() to use <see cref="F:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultAssemblyReference.CurrentAssembly"/> for references
            in that module.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.LoadType(Mono.Cecil.TypeDefinition)">
            <summary>
            Loads a type from Cecil.
            </summary>
            <param name="typeDefinition">The Cecil TypeDefinition.</param>
            <returns>ITypeDefinition representing the Cecil type.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.ReadTypeReference(Mono.Cecil.TypeReference,Mono.Cecil.ICustomAttributeProvider)">
            <summary>
            Reads a type reference.
            </summary>
            <param name="type">The Cecil type reference that should be converted into
            a type system type reference.</param>
            <param name="typeAttributes">Attributes associated with the Cecil type reference.
            This is used to support the 'dynamic' type.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.CecilLoader.ReadSecurityDeclaration(Mono.Cecil.SecurityDeclaration)">
            <summary>
            Reads a security declaration.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.IncludeInternalMembers">
            <summary>
            Specifies whether to include internal members. The default is false.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.LazyLoad">
            <summary>
            Specifies whether to use lazy loading. The default is false.
            If this property is set to true, the CecilLoader will not copy all the relevant information
            out of the Cecil object model, but will maintain references to the Cecil objects.
            This speeds up the loading process and avoids loading unnecessary information, but it causes
            the Cecil objects to stay in memory (which can significantly increase memory usage).
            It also prevents serialization of the Cecil-loaded type system.
            </summary>
            <remarks>
            Because the type system can be used on multiple threads, but Cecil is not
            thread-safe for concurrent read access, the CecilLoader will lock on the <see cref="T:Mono.Cecil.ModuleDefinition"/> instance
            for every delay-loading operation.
            If you access the Cecil objects directly in your application, you may need to take the same lock.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.DocumentationProvider">
            <summary>
            Gets/Sets the documentation provider that is used to retrieve the XML documentation for all members.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.InterningProvider">
            <summary>
            Gets/Sets the interning provider.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.CancellationToken">
            <summary>
            Gets/Sets the cancellation token used by the cecil loader.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.OnEntityLoaded">
            <summary>
            This delegate gets executed whenever an entity was loaded.
            </summary>
            <remarks>
            This callback may be to build a dictionary that maps between
            entities and cecil objects.
            Warning: if delay-loading is used and the type system is accessed by multiple threads,
            the callback may be invoked concurrently on multiple threads.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.CecilLoader.HasCecilReferences">
            <summary>
            Gets a value indicating whether this instance stores references to the cecil objects.
            </summary>
            <value>
            <c>true</c> if this instance has references to the cecil objects; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAssembly">
            <summary>
            Default implementation for <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly"/>.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IFreezable.Freeze">
            <summary>
            Freezes this instance.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IFreezable.IsFrozen">
            <summary>
            Gets if this instance is frozen. Frozen instances are immutable and thus thread-safe.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractFreezable.Freeze">
            <summary>
            Freezes this instance.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractFreezable.IsFrozen">
            <summary>
            Gets if this instance is frozen. Frozen instances are immutable and thus thread-safe.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly">
            <summary>
            Represents an unresolved assembly.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IAssemblyReference.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves this assembly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly.AssemblyName">
            <summary>
            Gets the assembly name (short name).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly.FullAssemblyName">
            <summary>
            Gets the full assembly name (including public key token etc.)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly.Location">
            <summary>
            Gets the path to the assembly location. 
            For projects it is the same as the output path.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly.AssemblyAttributes">
            <summary>
            Gets the list of all assembly attributes in the project.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly.ModuleAttributes">
            <summary>
            Gets the list of all module attributes in the project.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly.TopLevelTypeDefinitions">
            <summary>
            Gets all non-nested types in the assembly.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAssembly.#ctor(System.String)">
            <summary>
            Creates a new unresolved assembly.
            </summary>
            <param name="assemblyName">Full assembly name</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAssembly.AddTypeDefinition(ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition)">
            <summary>
            Adds a new top-level type definition to this assembly.
            </summary>
            <remarks>DefaultUnresolvedAssembly does not support partial classes.
            Adding more than one part of a type will cause an ArgumentException.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAssembly.AddTypeForwarder(ICSharpCode.NRefactory.TypeSystem.TopLevelTypeName,ICSharpCode.NRefactory.TypeSystem.ITypeReference)">
            <summary>
            Adds a type forwarder.
            This adds both an assembly attribute and an internal forwarder entry, which will be used
            by the resolved assembly to provide the forwarded types.
            </summary>
            <param name="typeName">The name of the type.</param>
            <param name="referencedType">The reference used to look up the type in the target assembly.</param>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAssembly.AssemblyName">
            <summary>
            Gets/Sets the short assembly name.
            </summary>
            <remarks>
            This class handles the short and the full name independently;
            if you change the short name, you should also change the full name.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAssembly.FullAssemblyName">
            <summary>
            Gets/Sets the full assembly name.
            </summary>
            <remarks>
            This class handles the short and the full name independently;
            if you change the full name, you should also change the short name.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IConstantValue">
            <summary>
            Represents an unresolved constant value.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IConstantValue.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the value of this constant.
            </summary>
            <param name="context">Context where the constant value will be used.</param>
            <returns>Resolve result representing the constant value.
            This method never returns null; in case of errors, an ErrorResolveResult will be returned.</returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IAssembly">
            <summary>
            Represents an assembly.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IAssembly.InternalsVisibleTo(ICSharpCode.NRefactory.TypeSystem.IAssembly)">
            <summary>
            Gets whether the internals of this assembly are visible in the specified assembly.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IAssembly.GetTypeDefinition(ICSharpCode.NRefactory.TypeSystem.TopLevelTypeName)">
            <summary>
            Gets the type definition for a top-level type.
            </summary>
            <remarks>This method uses ordinal name comparison, not the compilation's name comparer.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.UnresolvedAssembly">
            <summary>
            Gets the original unresolved assembly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.IsMainAssembly">
            <summary>
            Gets whether this assembly is the main assembly of the compilation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.AssemblyName">
            <summary>
            Gets the assembly name (short name).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.FullAssemblyName">
            <summary>
            Gets the full assembly name (including public key token etc.)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.AssemblyAttributes">
            <summary>
            Gets the list of all assembly attributes in the project.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.ModuleAttributes">
            <summary>
            Gets the list of all module attributes in the project.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.RootNamespace">
            <summary>
            Gets the root namespace for this assembly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAssembly.TopLevelTypeDefinitions">
            <summary>
            Gets all non-nested types in the assembly.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.INamespace">
            <summary>
            Represents a resolved namespace.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.INamespace.GetChildNamespace(System.String)">
            <summary>
            Gets a direct child namespace by its short name.
            Returns null when the namespace cannot be found.
            </summary>
            <remarks>
            This method uses the compilation's current string comparer.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.INamespace.GetTypeDefinition(System.String,System.Int32)">
            <summary>
            Gets the type with the specified short name and type parameter count.
            Returns null if the type cannot be found.
            </summary>
            <remarks>
            This method uses the compilation's current string comparer.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.ExternAlias">
            <summary>
            Gets the extern alias for this namespace.
            Returns an empty string for normal namespaces.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.FullName">
            <summary>
            Gets the full name of this namespace. (e.g. "System.Collections")
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.Name">
            <summary>
            Gets the short name of this namespace (e.g. "Collections").
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.ParentNamespace">
            <summary>
            Gets the parent namespace.
            Returns null if this is the root namespace.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.ChildNamespaces">
            <summary>
            Gets the child namespaces in this namespace.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.Types">
            <summary>
            Gets the types in this namespace.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.INamespace.ContributingAssemblies">
            <summary>
            Gets the assemblies that contribute types to this namespace (or to child namespaces).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAttribute">
            <summary>
            Represents an unresolved attribute.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAttribute.CreateResolvedAttribute(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the attribute.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAttribute.Region">
            <summary>
            Gets the code region of this attribute.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IAttribute">
            <summary>
            Represents an attribute.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAttribute.Region">
            <summary>
            Gets the code region of this attribute.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAttribute.AttributeType">
            <summary>
            Gets the type of the attribute.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAttribute.Constructor">
            <summary>
            Gets the constructor being used.
            This property may return null if no matching constructor was found.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAttribute.PositionalArguments">
            <summary>
            Gets the positional arguments.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IAttribute.NamedArguments">
            <summary>
            Gets the named arguments passed to the attribute.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractUnresolvedEntity">
            <summary>
            Base class for <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity"/> implementations.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity">
            <summary>
            Represents an unresolved entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.EntityType">
            <summary>
            Gets the entity type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.Region">
            <summary>
            Gets the complete entity region (including header+body)
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.BodyRegion">
            <summary>
            Gets the entity body region.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.DeclaringTypeDefinition">
            <summary>
            Gets the declaring class.
            For members, this is the class that contains the member.
            For nested classes, this is the outer class. For top-level entities, this property returns null.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.UnresolvedFile">
            <summary>
            Gets the parsed file in which this entity is defined.
            Returns null if this entity wasn't parsed from source code (e.g. loaded from a .dll with CecilLoader).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.Attributes">
            <summary>
            Gets the attributes on this entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.IsStatic">
            <summary>
            Gets whether this entity is static.
            Returns true if either the 'static' or the 'const' modifier is set.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.IsAbstract">
            <summary>
            Returns whether this entity is abstract.
            </summary>
            <remarks>Static classes also count as abstract classes.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.IsSealed">
            <summary>
            Returns whether this entity is sealed.
            </summary>
            <remarks>Static classes also count as sealed classes.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.IsShadowing">
            <summary>
            Gets whether this member is declared to be shadowing another member with the same name.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEntity.IsSynthetic">
            <summary>
            Gets whether this member is generated by a macro/compiler feature.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractUnresolvedEntity.ApplyInterningProvider(ICSharpCode.NRefactory.TypeSystem.InterningProvider)">
            <summary>
            Uses the specified interning provider to intern
            strings and lists in this entity.
            This method does not test arbitrary objects to see if they implement ISupportsInterning;
            instead we assume that those are interned immediately when they are created (before they are added to this entity).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractUnresolvedEntity.Clone">
            <summary>
            Creates a shallow clone of this entity.
            Collections (e.g. a type's member list) will be cloned as well, but the elements
            of said list will not be.
            If this instance is frozen, the clone will be unfrozen.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition">
            <summary>
            Represents an unresolved class, enum, interface, struct, delegate or VB module.
            For partial classes, an unresolved type definition represents only a single part.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Looks up the resolved type definition from the <paramref name="context"/> corresponding to this unresolved
            type definition.
            </summary>
            <param name="context">
            Context for looking up the type. The context must specify the current assembly.
            A <see cref="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext"/> that specifies the current assembly is sufficient.
            </param>
            <returns>
            Returns the resolved type definition.
            In case of an error, returns an <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.UnknownType"/> instance.
            Never returns null.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition.CreateResolveContext(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            This method is used to add language-specific elements like the C# UsingScope
            to the type resolve context.
            </summary>
            <param name="parentContext">The parent context (e.g. the parent assembly),
            including the parent type definition for inner classes.</param>
            <returns>
            The parent context, modified to include language-specific elements (e.g. using scope)
            associated with this type definition.
            </returns>
            <remarks>
            Use <c>unresolvedTypeDef.CreateResolveContext(parentContext).WithTypeDefinition(typeDef)</c> to
            create the context for use within the type definition.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition.HasExtensionMethods">
            <summary>
            Gets whether the type definition contains extension methods.
            Returns null when the type definition needs to be resolved in order to determine whether
            methods are extension methods.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition.AddDefaultConstructorIfRequired">
            <summary>
            Gets whether this unresolved type definition causes the addition of a default constructor
            if no other constructor is present.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ComHelper">
            <summary>
            Helper methods for COM.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ComHelper.IsComImport(ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Gets whether the specified type is imported from COM.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ComHelper.GetCoClass(ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Gets the CoClass of the specified COM interface.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.DefaultSolutionSnapshot">
            <summary>
            Default implementation of ISolutionSnapshot.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ISolutionSnapshot">
            <summary>
            Represents a snapshot of the whole solution (multiple compilations).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ISolutionSnapshot.GetProjectContent(System.String)">
            <summary>
            Gets the project content with the specified file name.
            Returns null if no such project exists in the solution.
            </summary>
            <remarks>
            This method is used by the <see cref="T:ICSharpCode.NRefactory.TypeSystem.ProjectReference"/> class.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ISolutionSnapshot.GetCompilation(ICSharpCode.NRefactory.TypeSystem.IProjectContent)">
            <summary>
            Gets the compilation for the specified project.
            The project must be a part of the solution (passed to the solution snapshot's constructor).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.DefaultSolutionSnapshot.#ctor(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IProjectContent})">
            <summary>
            Creates a new DefaultSolutionSnapshot with the specified projects.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.DefaultSolutionSnapshot.#ctor">
            <summary>
            Creates a new DefaultSolutionSnapshot that does not support <see cref="T:ICSharpCode.NRefactory.TypeSystem.ProjectReference"/>s.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.DomRegion.IsInside(System.Int32,System.Int32)">
            <remarks>
            Returns true, if the given coordinates (line, column) are in the region.
            This method assumes that for an unknown end the end line is == -1
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.DomRegion.EndLine">
            <value>
            if the end line is == -1 the end column is -1 too
            this stands for an unknwon end
            </value>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.DomRegion.EndColumn">
            <value>
            if the end column is == -1 the end line is -1 too
            this stands for an unknown end
            </value>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions">
            <summary>
            Contains extension methods for the type system.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetAllBaseTypes(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets all base types.
            </summary>
            <remarks>This is the reflexive and transitive closure of <see cref="P:ICSharpCode.NRefactory.TypeSystem.IType.DirectBaseTypes"/>.
            Note that this method does not return all supertypes - doing so is impossible due to contravariance
            (and undesirable for covariance as the list could become very large).
            
            The output is ordered so that base types occur before derived types.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetNonInterfaceBaseTypes(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets all non-interface base types.
            </summary>
            <remarks>
            When <paramref name="type"/> is an interface, this method will also return base interfaces (return same output as GetAllBaseTypes()).
            
            The output is ordered so that base types occur before derived types.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetAllBaseTypeDefinitions(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets all base type definitions.
            The output is ordered so that base types occur before derived types.
            </summary>
            <remarks>
            This is equivalent to type.GetAllBaseTypes().Select(t => t.GetDefinition()).Where(d => d != null).Distinct().
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.IsDerivedFrom(ICSharpCode.NRefactory.TypeSystem.ITypeDefinition,ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Gets whether this type definition is derived from the base type definition.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.IsOpen(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether the type is an open type (contains type parameters).
            </summary>
            <example>
            <code>
            class X&lt;T&gt; {
              List&lt;T&gt; open;
              X&lt;X&lt;T[]&gt;&gt; open;
              X&lt;string&gt; closed;
              int closed;
            }
            </code>
            </example>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetTypeParameterOwner(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the entity that owns the type parameters occurring in the specified type.
            If both class and method type parameters are present, the method is returned.
            Returns null if the specified type is closed.
            </summary>
            <seealso cref="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.IsOpen(ICSharpCode.NRefactory.TypeSystem.IType)"/>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.IsUnbound(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether the type is unbound (is a generic type, but no type arguments were provided).
            </summary>
            <remarks>
            In "<c>typeof(List&lt;Dictionary&lt;,&gt;&gt;)</c>", only the Dictionary is unbound, the List is considered
            bound despite containing an unbound type.
            This method returns false for partially parameterized types (<c>Dictionary&lt;string, &gt;</c>).
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.IsKnownType(ICSharpCode.NRefactory.TypeSystem.IType,ICSharpCode.NRefactory.TypeSystem.KnownTypeCode)">
            <summary>
            Gets whether the type is the specified known type.
            For generic known types, this returns true any parameterization of the type (and also for the definition itself).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Imports a type from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Imports a type from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Imports an entity from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IMember)">
            <summary>
            Imports a member from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IMethod)">
            <summary>
            Imports a member from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IField)">
            <summary>
            Imports a member from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IEvent)">
            <summary>
            Imports a member from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IProperty)">
            <summary>
            Imports a member from another compilation.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Import(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.INamespace)">
            <summary>
            Imports a namespace from another compilation.
            </summary>
            <remarks>
            This method may return null if the namespace does not exist in the target compilation.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetDelegateInvokeMethod(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the invoke method for a delegate type.
            </summary>
            <remarks>
            Returns null if the type is not a delegate type; or if the invoke method could not be found.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetAllTypeDefinitions(ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile)">
            <summary>
            Gets all unresolved type definitions from the file.
            For partial classes, each part is returned.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetAllTypeDefinitions(ICSharpCode.NRefactory.TypeSystem.IUnresolvedAssembly)">
            <summary>
            Gets all unresolved type definitions from the assembly.
            For partial classes, each part is returned.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetAllTypeDefinitions(ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Gets all type definitions in the compilation.
            This may include types from referenced assemblies that are not accessible in the main assembly.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetInnermostTypeDefinition(ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile,System.Int32,System.Int32)">
            <summary>
            Gets the type (potentially a nested type) defined at the specified location.
            Returns null if no type is defined at that location.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetMember(ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile,System.Int32,System.Int32)">
            <summary>
            Gets the member defined at the specified location.
            Returns null if no member is defined at that location.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetSubTypeDefinitions(ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Gets all sub type definitions defined in a context.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.FindType(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.FullTypeName)">
            <summary>
            Retrieves the specified type in this compilation.
            Returns an <see cref="T:ICSharpCode.NRefactory.TypeSystem.Implementation.UnknownType"/> if the type cannot be found in this compilation.
            </summary>
            <remarks>
            There can be multiple types with the same full name in a compilation, as a
            full type name is only unique per assembly.
            If there are multiple possible matches, this method will return just one of them.
            When possible, use <see cref="M:ICSharpCode.NRefactory.TypeSystem.IAssembly.GetTypeDefinition(ICSharpCode.NRefactory.TypeSystem.TopLevelTypeName)"/> instead to
            retrieve a type from a specific assembly.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetTypeDefinition(ICSharpCode.NRefactory.TypeSystem.IAssembly,ICSharpCode.NRefactory.TypeSystem.FullTypeName)">
            <summary>
            Gets the type definition for the specified unresolved type.
            Returns null if the unresolved type does not belong to this assembly.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeReference,ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Resolves a type reference in the compilation's main type resolve context.
            Some type references require a more specific type resolve context and will not resolve using this method.
            </summary>
            <returns>
            Returns the resolved type.
            In case of an error, returns <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/>.
            Never returns null.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.TypeSystemExtensions.GetTypeDefinition(ICSharpCode.NRefactory.TypeSystem.IAssembly,System.String,System.String,System.Int32)">
            <summary>
            Gets the type definition for a top-level type.
            </summary>
            <remarks>This method uses ordinal name comparison, not the compilation's name comparer.</remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.TypeVisitor">
            <summary>
            Base class for the visitor pattern on <see cref="T:ICSharpCode.NRefactory.TypeSystem.IType"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.FullTypeName">
            <summary>
            Holds the full name of a type definition.
            A full type name uniquely identifies a type definition within a single assembly.
            </summary>
            <remarks>
            A full type name can only represent type definitions, not arbitrary types.
            It does not include any type arguments, and can not refer to array or pointer types.
            
            A full type name represented as reflection name has the syntax:
            <c>NamespaceName '.' TopLevelTypeName ['`'#] { '+' NestedTypeName ['`'#] }</c>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.#ctor(ICSharpCode.NRefactory.TypeSystem.TopLevelTypeName)">
            <summary>
            Constructs a FullTypeName representing the given top-level type.
            </summary>
            <remarks>
            FullTypeName has an implicit conversion operator from TopLevelTypeName,
            so you can simply write:
            <c>FullTypeName f = new TopLevelTypeName(...);</c>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.#ctor(System.String)">
            <summary>
            Constructs a FullTypeName by parsing the given reflection name.
            Note that FullTypeName can only represent type definition names. If the reflection name
            might refer to a parameterized type or array etc., use
            <see cref="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.ParseReflectionName(System.String)"/> instead.
            </summary>
            <remarks>
            Expected syntax: <c>NamespaceName '.' TopLevelTypeName ['`'#] { '+' NestedTypeName ['`'#] }</c>
            where # are type parameter counts
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.GetNestedTypeName(System.Int32)">
            <summary>
            Gets the name of the nested type at the given level.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.GetNestedTypeAdditionalTypeParameterCount(System.Int32)">
            <summary>
            Gets the number of additional type parameters of the nested type at the given level.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.GetDeclaringType">
            <summary>
            Gets the declaring type name.
            </summary>
            <exception cref="T:System.InvalidOperationException">This is a top-level type name.</exception>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.NestedType(System.String,System.Int32)">
            <summary>
            Gets a nested type name.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.FullTypeName.TopLevelTypeName">
            <summary>
            Gets the top-level type name.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.FullTypeName.IsNested">
            <summary>
            Gets whether this is a nested type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.FullTypeName.NestingLevel">
            <summary>
            Gets the nesting level.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.FullTypeName.Name">
            <summary>
            Gets the name of the type.
            For nested types, this is the name of the innermost type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.FullTypeName.TypeParameterCount">
            <summary>
            Gets the total type parameter count.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.None">
            <summary>
            Convert only the name.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowParameterList">
            <summary>
            Show the parameter list
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowParameterNames">
            <summary>
            Show names for parameters
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowAccessibility">
            <summary>
            Show the accessibility (private, public, etc.)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowDefinitionKeyword">
            <summary>
            Show the definition key word (class, struct, Sub, Function, etc.)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowDeclaringType">
            <summary>
            Show the declaring type for the member
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowModifiers">
            <summary>
            Show modifiers (virtual, override, etc.)
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowReturnType">
            <summary>
            Show the return type
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.UseFullyQualifiedTypeNames">
            <summary>
            Use fully qualified names for types.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowTypeParameterList">
            <summary>
            Show the list of type parameters on method and class declarations.
            Type arguments for parameter/return types are always shown.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.ConversionFlags.ShowBody">
            <summary>
            For fields, events and methods: adds a semicolon at the end.
            For properties: shows "{ get; }" or similar.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ICompilation.GetNamespaceForExternAlias(System.String)">
            <summary>
            Gets the root namespace for a given extern alias.
            </summary>
            <remarks>
            If <paramref name="alias"/> is <c>null</c> or an empty string, this method
            returns the global root namespace.
            If alias with the specified name exists, this method returns null.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilation.MainAssembly">
            <summary>
            Gets the current assembly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilation.TypeResolveContext">
            <summary>
            Gets the type resolve context that specifies this compilation and no current assembly or entity.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilation.Assemblies">
            <summary>
            Gets the list of all assemblies in the compilation.
            </summary>
            <remarks>
            This main assembly is the first entry in the list.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilation.ReferencedAssemblies">
            <summary>
            Gets the referenced assemblies.
            This list does not include the main assembly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilation.RootNamespace">
            <summary>
            Gets the root namespace of this compilation.
            This is a merged version of the root namespaces of all assemblies.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ICompilation.NameComparer">
            <summary>
            Gets the name comparer for the language being compiled.
            This is the string comparer used for the INamespace.GetTypeDefinition method.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember">
            <summary>
            Method/field/property/event.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IMemberReference.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the member.
            </summary>
            <param name="context">
            Context to use for resolving this member reference.
            Which kind of context is required depends on the which kind of member reference this is;
            please consult the documentation of the method that was used to create this member reference,
            or that of the class implementing this method.
            </param>
            <returns>
            Returns the resolved member, or <c>null</c> if the member could not be found.
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMemberReference.DeclaringTypeReference">
            <summary>
            Gets the declaring type reference for the member.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the member.
            </summary>
            <param name="context">
            Context for looking up the member. The context must specify the current assembly.
            A <see cref="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext"/> that specifies the current assembly is sufficient.
            </param>
            <returns>
            Returns the resolved member, or <c>null</c> if the member could not be found.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.CreateResolved(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Creates the resolved member.
            </summary>
            <param name="context">
            The language-specific context that includes the parent type definition.
            <see cref="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeDefinition.CreateResolveContext(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)"/>
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.ReturnType">
            <summary>
            Gets the return type of this member.
            This property never returns null.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.IsExplicitInterfaceImplementation">
            <summary>
            Gets whether this member is explicitly implementing an interface.
            If this property is true, the member can only be called through the interfaces it implements.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.ExplicitInterfaceImplementations">
            <summary>
            Gets the interfaces that are explicitly implemented by this member.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.IsVirtual">
            <summary>
            Gets if the member is virtual. Is true only if the "virtual" modifier was used, but non-virtual
            members can be overridden, too; if they are abstract or overriding a method.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.IsOverride">
            <summary>
            Gets whether this member is overriding another member.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember.IsOverridable">
            <summary>
            Gets if the member can be overridden. Returns true when the member is "abstract", "virtual" or "override" but not "sealed".
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEvent.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the member.
            </summary>
            <param name="context">
            Context for looking up the member. The context must specify the current assembly.
            A <see cref="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext"/> that specifies the current assembly is sufficient.
            </param>
            <returns>
            Returns the resolved member, or <c>null</c> if the member could not be found.
            </returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedField">
            <summary>
            Represents a field or constant.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedField.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the member.
            </summary>
            <param name="context">
            Context for looking up the member. The context must specify the current assembly.
            A <see cref="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext"/> that specifies the current assembly is sufficient.
            </param>
            <returns>
            Returns the resolved member, or <c>null</c> if the member could not be found.
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedField.IsReadOnly">
            <summary>
            Gets whether this field is readonly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedField.IsVolatile">
            <summary>
            Gets whether this field is volatile.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedField.IsConst">
            <summary>
            Gets whether this field is a constant (C#-like const).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IField">
            <summary>
            Represents a field or constant.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IVariable">
            <summary>
            Represents a variable (name/type pair).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IVariable.Name">
            <summary>
            Gets the name of the variable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IVariable.Region">
            <summary>
            Gets the declaration region of the variable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IVariable.Type">
            <summary>
            Gets the type of the variable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IVariable.IsConst">
            <summary>
            Gets whether this variable is a constant (C#-like const).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IVariable.ConstantValue">
            <summary>
            If this field is a constant, retrieves the value.
            For parameters, this is the default value.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IField.Name">
            <summary>
            Gets the name of the field.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IField.Region">
            <summary>
            Gets the region where the field is declared.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IField.IsReadOnly">
            <summary>
            Gets whether this field is readonly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IField.IsVolatile">
            <summary>
            Gets whether this field is volatile.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.InterningProvider">
            <summary>
            Provider used for interning.
            </summary>
            <remarks>
            A simple IInterningProvider implementation could use 3 dictionaries:
             1. using value equality comparer (for certain types known to implement value equality, e.g. string and IType)
             2. using comparer that calls into ISupportsInterning (for types implementing ISupportsInterning)
             3. list comparer (for InternList method)
            
            On the first Intern()-call, the provider tells the object to prepare for interning (ISupportsInterning.PrepareForInterning)
            and stores it into a dictionary. On further Intern() calls, the original object is returned for all equal objects.
            This allows reducing the memory usage by using a single object instance where possible.
            
            Interning provider implementations could also use the interning logic for different purposes:
            for example, it could be used to determine which objects are used jointly between multiple type definitions
            and which are used only within a single type definition. Then a persistent file format could be organized so
            that shared objects are loaded only once, yet non-shared objects get loaded lazily together with the class.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InterningProvider.Intern(ICSharpCode.NRefactory.TypeSystem.ISupportsInterning)">
            <summary>
            Interns the specified object.
            
            If the object is freezable, it will be frozen.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InterningProvider.Intern``1(``0)">
            <summary>
            Interns the specified object.
            
            If the object is freezable, it will be frozen.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InterningProvider.Intern(System.String)">
            <summary>
            Interns the specified string.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InterningProvider.InternValue(System.Object)">
            <summary>
            Inters a boxed value type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InterningProvider.InternList``1(System.Collections.Generic.IList{``0})">
            <summary>
            Interns the given list. Uses reference equality to compare the list elements.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameterizedMember">
            <summary>
            Represents a method or property.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the member.
            </summary>
            <param name="context">
            Context for looking up the member. The context must specify the current assembly.
            A <see cref="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext"/> that specifies the current assembly is sufficient.
            </param>
            <returns>
            Returns the resolved member, or <c>null</c> if the member could not be found.
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.ReturnTypeAttributes">
            <summary>
            Gets the attributes associated with the return type. (e.g. [return: MarshalAs(...)])
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.IsPartial">
            <summary>
            Gets whether the method is a C#-style partial method.
            Check <see cref="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.HasBody"/> to test if it is a partial method declaration or implementation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.IsAsync">
            <summary>
            Gets whether the method is a C#-style async method.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.HasBody">
            <summary>
            Gets whether the method has a body.
            This property returns <c>false</c> for <c>abstract</c> or <c>extern</c> methods,
            or for <c>partial</c> methods without implementation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod.AccessorOwner">
            <summary>
            If this method is an accessor, returns a reference to the corresponding property/event.
            Otherwise, returns null.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IMethod">
            <summary>
            Represents a method, constructor, destructor or operator.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.Parts">
            <summary>
            Gets the unresolved method parts.
            For partial methods, this returns all parts.
            Otherwise, this returns an array with a single element (new[] { UnresolvedMember }).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.ReturnTypeAttributes">
            <summary>
            Gets the attributes associated with the return type. (e.g. [return: MarshalAs(...)])
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.IsPartial">
            <summary>
            Gets whether the method is a C#-style partial method.
            A call to such a method is ignored by the compiler if the partial method has no body.
            </summary>
            <seealso cref="P:ICSharpCode.NRefactory.TypeSystem.IMethod.HasBody"/>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.IsAsync">
            <summary>
            Gets whether the method is a C#-style async method.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.HasBody">
            <summary>
            Gets whether the method has a body.
            This property returns <c>false</c> for <c>abstract</c> or <c>extern</c> methods,
            or for <c>partial</c> methods without implementation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.IsAccessor">
            <summary>
            Gets whether the method is a property/event accessor.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IMethod.AccessorOwner">
            <summary>
            If this method is an accessor, returns the corresponding property/event.
            Otherwise, returns null.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ITypeParameter">
            <summary>
            Type parameter of a generic class/method.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.OwnerType">
            <summary>
            Get the type of this type parameter's owner.
            </summary>
            <returns>EntityType.TypeDefinition or EntityType.Method</returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.Owner">
            <summary>
            Gets the owning method/class.
            This property may return null (for example for the dummy type parameters used by <see cref="M:ICSharpCode.NRefactory.TypeSystem.ParameterListComparer.NormalizeMethodTypeParameters(ICSharpCode.NRefactory.TypeSystem.IType)"/>).
            </summary>
            <remarks>
            For "class Outer&lt;T&gt; { class Inner {} }",
            inner.TypeParameters[0].Owner will be the outer class, because the same
            ITypeParameter instance is used both on Outer`1 and Outer`1+Inner.
            </remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.Index">
            <summary>
            Gets the index of the type parameter in the type parameter list of the owning method/class.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.Attributes">
            <summary>
            Gets the list of attributes declared on this type parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.Variance">
            <summary>
            Gets the variance of this type parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.Region">
            <summary>
            Gets the region where the type parameter is defined.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.EffectiveBaseClass">
            <summary>
            Gets the effective base class of this type parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.EffectiveInterfaceSet">
            <summary>
            Gets the effective interface set of this type parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.HasDefaultConstructorConstraint">
            <summary>
            Gets if the type parameter has the 'new()' constraint.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.HasReferenceTypeConstraint">
            <summary>
            Gets if the type parameter has the 'class' constraint.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeParameter.HasValueTypeConstraint">
            <summary>
            Gets if the type parameter has the 'struct' constraint.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.AbstractUnresolvedMember">
            <summary>
            Base class for <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMember"/> implementations.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.AccessorOwnerMemberReference">
            <summary>
            Given a reference to an accessor, returns the accessor's owner.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.BaseTypeCollector">
            <summary>
            Helper class for the GetAllBaseTypes() implementation.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Implementation.BaseTypeCollector.SkipImplementedInterfaces">
            <summary>
            If this option is enabled, the list will not contain interfaces when retrieving the base types
            of a class.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultAssemblyReference">
            <summary>
            References an existing assembly by name.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultAttribute">
            <summary>
            IAttribute implementation for already-resolved attributes.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultMemberReference">
            <summary>
            References an entity by its type and name.
            This class can be used to refer to all members except for constructors and explicit interface implementations.
            </summary>
            <remarks>
            Resolving a DefaultMemberReference requires a context that provides enough information for resolving the declaring type reference
            and the parameter types references.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultParameter">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IParameter"/>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IParameter.Attributes">
            <summary>
            Gets the list of attributes.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IParameter.IsRef">
            <summary>
            Gets whether this parameter is a C# 'ref' parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IParameter.IsOut">
            <summary>
            Gets whether this parameter is a C# 'out' parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IParameter.IsParams">
            <summary>
            Gets whether this parameter is a C# 'params' parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IParameter.IsOptional">
            <summary>
            Gets whether this parameter is optional.
            The default value is given by the <see cref="P:ICSharpCode.NRefactory.TypeSystem.IVariable.ConstantValue"/> property.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultResolvedMethod">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IMethod"/> that resolves an unresolved method.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultResolvedMethod.GetDummyConstructor(ICSharpCode.NRefactory.TypeSystem.ICompilation)">
            <summary>
            Gets a dummy constructor for the specified compilation.
            </summary>
            <returns>
            A public instance constructor with IsSynthetic=true and no declaring type.
            </returns>
            <seealso cref="P:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedMethod.DummyConstructor"/>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultResolvedMethod.GetDummyConstructor(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets a dummy constructor for the specified type.
            </summary>
            <returns>
            A public instance constructor with IsSynthetic=true and the specified declaring type.
            </returns>
            <seealso cref="P:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedMethod.DummyConstructor"/>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultResolvedTypeDefinition">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition">
            <summary>
            Represents a class, enum, interface, struct, delegate or VB module.
            For partial classes, this represents the whole class.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.GetInterfaceImplementation(ICSharpCode.NRefactory.TypeSystem.IMember)">
            <summary>
            Determines how this type is implementing the specified interface member.
            </summary>
            <returns>
            The method on this type that implements the interface member;
            or null if the type does not implement the interface.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.GetInterfaceImplementation(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IMember})">
            <summary>
            Determines how this type is implementing the specified interface members.
            </summary>
            <returns>
            For each interface member, this method returns the class member 
            that implements the interface member.
            For interface members that are missing an implementation, the
            result collection will contain a null element.
            </returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.Parts">
            <summary>
            Returns all parts that contribute to this type definition.
            Non-partial classes have a single part that represents the whole class.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.KnownTypeCode">
            <summary>
            Gets the known type code for this type definition.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.EnumUnderlyingType">
            <summary>
            For enums: returns the underlying primitive type.
            For all other types: returns <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.FullTypeName">
            <summary>
            Gets the full name of this type.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.DeclaringType">
            <summary>
            Gets/Sets the declaring type (incl. type arguments, if any).
            This property never returns null -- for top-level entities, it returns SharedTypes.UnknownType.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition.HasExtensionMethods">
            <summary>
            Gets whether this type contains extension methods.
            </summary>
            <remarks>This property is used to speed up the search for extension methods.</remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedAttribute">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedAttribute"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedEvent">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedEvent"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedField">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedField"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedMethod">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedMethod"/> interface.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedMethod.DummyConstructor">
            <summary>
            Returns a dummy constructor instance:
            </summary>
            <returns>
            A public instance constructor with IsSynthetic=true and no declaring type.
            </returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedParameter">
            <summary>
            Default implementation for IUnresolvedParameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.Name">
            <summary>
            Gets the name of the variable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.Region">
            <summary>
            Gets the declaration region of the variable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.Type">
            <summary>
            Gets the type of the variable.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.Attributes">
            <summary>
            Gets the list of attributes.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.IsRef">
            <summary>
            Gets whether this parameter is a C# 'ref' parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.IsOut">
            <summary>
            Gets whether this parameter is a C# 'out' parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.IsParams">
            <summary>
            Gets whether this parameter is a C# 'params' parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedParameter.IsOptional">
            <summary>
            Gets whether this parameter is optional.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedProperty">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedProperty"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedProperty">
            <summary>
            Represents a property or indexer.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedProperty.Resolve(ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Resolves the member.
            </summary>
            <param name="context">
            Context for looking up the member. The context must specify the current assembly.
            A <see cref="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext"/> that specifies the current assembly is sufficient.
            </param>
            <returns>
            Returns the resolved member, or <c>null</c> if the member could not be found.
            </returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedTypeDefinition">
            <summary>
            Represents an unresolved type definition.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedTypeParameter">
            <summary>
            Default implementation of <see cref="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter"/>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter">
            <summary>
            Type parameter of a generic class/method.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter.OwnerType">
            <summary>
            Get the type of this type parameter's owner.
            </summary>
            <returns>EntityType.TypeDefinition or EntityType.Method</returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter.Index">
            <summary>
            Gets the index of the type parameter in the type parameter list of the owning method/class.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter.Attributes">
            <summary>
            Gets the list of attributes declared on this type parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter.Variance">
            <summary>
            Gets the variance of this type parameter.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedTypeParameter.Region">
            <summary>
            Gets the region where the type parameter is defined.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DefaultUnresolvedTypeParameter.ApplyInterningProvider(ICSharpCode.NRefactory.TypeSystem.InterningProvider)">
            <summary>
            Uses the specified interning provider to intern
            strings and lists in this entity.
            This method does not test arbitrary objects to see if they implement ISupportsInterning;
            instead we assume that those are interned immediately when they are created (before they are added to this entity).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DummyTypeParameter.NormalizeMethodTypeParameters(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Replaces all occurrences of method type parameters in the given type
            by normalized type parameters. This allows comparing parameter types from different
            generic methods.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DummyTypeParameter.NormalizeClassTypeParameters(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Replaces all occurrences of class type parameters in the given type
            by normalized type parameters. This allows comparing parameter types from different
            generic methods.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.DummyTypeParameter.NormalizeAllTypeParameters(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Replaces all occurrences of class and method type parameters in the given type
            by normalized type parameters. This allows comparing parameter types from different
            generic methods.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.ExplicitInterfaceImplementationMemberReference">
            <summary>
            References a member that is an explicit interface implementation.
            </summary>
            <remarks>
            Resolving an ExplicitInterfaceImplementationMemberReference requires a context
            that provides enough information for resolving the declaring type reference
            and the interface member reference.
            Note that the interface member reference is resolved in '<c>context.WithCurrentTypeDefinition(declaringType.GetDefinition())</c>'
            - this is done to ensure that open generics in the interface member reference resolve to the type parameters of the
            declaring type.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.GetClassTypeReference">
            <summary>
            Type Reference used when the fully qualified type name is known.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.GetClassTypeReference.#ctor(ICSharpCode.NRefactory.TypeSystem.FullTypeName,ICSharpCode.NRefactory.TypeSystem.IAssemblyReference)">
            <summary>
            Creates a new GetClassTypeReference that searches a type definition.
            </summary>
            <param name="fullTypeName">The full name of the type.</param>
            <param name="assembly">A reference to the assembly containing this type.
            If this parameter is null, the GetClassTypeReference will search in all
            assemblies belonging to the compilation.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.GetClassTypeReference.#ctor(System.String,System.String,System.Int32)">
            <summary>
            Creates a new GetClassTypeReference that searches a top-level type in all assemblies.
            </summary>
            <param name="namespaceName">The namespace name containing the type, e.g. "System.Collections.Generic".</param>
            <param name="name">The name of the type, e.g. "List".</param>
            <param name="typeParameterCount">The number of type parameters, (e.g. 1 for List&lt;T&gt;).</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.GetClassTypeReference.#ctor(ICSharpCode.NRefactory.TypeSystem.IAssemblyReference,System.String,System.String,System.Int32)">
            <summary>
            Creates a new GetClassTypeReference that searches a top-level type in the specified assembly.
            </summary>
            <param name="assembly">A reference to the assembly containing this type.
            If this parameter is null, the GetClassTypeReference will search in all assemblies belonging to the ICompilation.</param>
            <param name="namespaceName">The namespace name containing the type, e.g. "System.Collections.Generic".</param>
            <param name="name">The name of the type, e.g. "List".</param>
            <param name="typeParameterCount">The number of type parameters, (e.g. 1 for List&lt;T&gt;).</param>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.GetClassTypeReference.Assembly">
            <summary>
            Gets the assembly reference.
            This property returns null if the GetClassTypeReference is searching in all assemblies
            of the compilation.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.GetClassTypeReference.FullTypeName">
            <summary>
            Gets the full name of the type this reference is searching for.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.GetMembersHelper">
            <summary>
            Provides helper methods for implementing GetMembers() on IType-implementations.
            Note: GetMembersHelper will recursively call back into IType.GetMembers(), but only with
            both GetMemberOptions.IgnoreInheritedMembers and GetMemberOptions.ReturnMemberDefinitions set,
            and only the 'simple' overloads (not taking type arguments).
            
            Ensure that your IType implementation does not use the GetMembersHelper if both flags are set,
            otherwise you'll get a StackOverflowException!
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.KnownTypeCache">
            <summary>
            Cache for KnownTypeReferences.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.MergedNamespace">
            <summary>
            A merged namespace.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.MergedNamespace.#ctor(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.INamespace[],System.String)">
            <summary>
            Creates a new merged root namespace.
            </summary>
            <param name="compilation">The main compilation.</param>
            <param name="namespaces">The individual namespaces being merged.</param>
            <param name="externAlias">The extern alias for this namespace.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.MergedNamespace.#ctor(ICSharpCode.NRefactory.TypeSystem.INamespace,ICSharpCode.NRefactory.TypeSystem.INamespace[])">
            <summary>
            Creates a new merged child namespace.
            </summary>
            <param name="parentNamespace">The parent merged namespace.</param>
            <param name="namespaces">The individual namespaces being merged.</param>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.MinimalCorlib">
            <summary>
            Resolve context represents the minimal mscorlib required for evaluating constants.
            This contains all known types (<see cref="T:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode"/>) and no other types.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.NestedTypeReference">
            <summary>
            Type reference used to reference nested types.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.NestedTypeReference.#ctor(ICSharpCode.NRefactory.TypeSystem.ITypeReference,System.String,System.Int32)">
            <summary>
            Creates a new NestedTypeReference.
            </summary>
            <param name="declaringTypeRef">Reference to the declaring type.</param>
            <param name="name">Name of the nested class</param>
            <param name="additionalTypeParameterCount">Number of type parameters on the inner class (without type parameters on baseTypeRef)</param>
            <remarks>
            <paramref name="declaringTypeRef"/> must be exactly the (unbound) declaring type, not a derived type, not a parameterized type.
            NestedTypeReference thus always resolves to a type definition, never to (partially) parameterized types.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SimpleCompilation">
            <summary>
            Simple compilation implementation.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SimpleConstantValue">
            <summary>
            A simple constant value that is independent of the resolve context.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SimpleInterningProvider">
            <summary>
            Simple interning provider.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedEvent">
            <summary>
            Represents a specialized IEvent (event after type substitution).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMember">
            <summary>
            Represents a SpecializedMember (a member on which type substitution has been performed).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMember.AddSubstitution(ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution)">
            <summary>
            Performs a substitution. This method may only be called by constructors in derived classes.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMember.Substitution">
            <summary>
            Gets the substitution belonging to this specialized member.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedField">
            <summary>
            Represents a specialized IField (field after type substitution).
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod">
            <summary>
            Represents a specialized IMethod (e.g. after type substitution).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedMethod.TypeArguments">
            <summary>
            Gets the type arguments passed to this method.
            If only the type parameters for the class were specified and the generic method
            itself is not specialized yet, this property will return an empty list.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.SpecializedProperty">
            <summary>
            Represents a specialized IProperty (property after type substitution).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterReference.Create(ICSharpCode.NRefactory.TypeSystem.EntityType,System.Int32)">
            <summary>
            Creates a type parameter reference.
            For common type parameter references, this method may return a shared instance.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution">
            <summary>
            Substitues class and method type parameters.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution.Identity">
            <summary>
            The identity function.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution.#ctor(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType},System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType})">
            <summary>
            Creates a new type parameter substitution.
            </summary>
            <param name="classTypeArguments">
            The type arguments to substitute for class type parameters.
            Pass <c>null</c> to keep class type parameters unmodified.
            </param>
            <param name="methodTypeArguments">
            The type arguments to substitute for method type parameters.
            Pass <c>null</c> to keep method type parameters unmodified.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution.Compose(ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution,ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution)">
            <summary>
            Computes a single TypeParameterSubstitution so that for all types <c>t</c>:
            <c>t.AcceptVisitor(Compose(g, f)) equals t.AcceptVisitor(f).AcceptVisitor(g)</c>
            </summary>
            <remarks>If you consider type parameter substitution to be a function, this is function composition.</remarks>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution.ClassTypeArguments">
            <summary>
            Gets the list of class type arguments.
            Returns <c>null</c> if this substitution keeps class type parameters unmodified.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Implementation.TypeParameterSubstitution.MethodTypeArguments">
            <summary>
            Gets the list of method type arguments.
            Returns <c>null</c> if this substitution keeps method type parameters unmodified.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.UnknownType">
            <summary>
            An unknown type where (part) of the name is known.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.UnknownType.#ctor(System.String,System.String,System.Int32)">
            <summary>
            Creates a new unknown type.
            </summary>
            <param name="namespaceName">Namespace name, if known. Can be null if unknown.</param>
            <param name="name">Name of the type, must not be null.</param>
            <param name="typeParameterCount">Type parameter count, zero if unknown.</param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Implementation.UnknownType.#ctor(ICSharpCode.NRefactory.TypeSystem.FullTypeName)">
            <summary>
            Creates a new unknown type.
            </summary>
            <param name="fullTypeName">Full name of the unknown type.</param>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Implementation.VoidTypeDefinition">
            <summary>
            Special type definition for 'void'.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.InheritanceHelper">
            <summary>
            Provides helper methods for inheritance.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InheritanceHelper.GetBaseMember(ICSharpCode.NRefactory.TypeSystem.IMember)">
            <summary>
            Gets the base member that has the same signature.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InheritanceHelper.GetBaseMembers(ICSharpCode.NRefactory.TypeSystem.IMember,System.Boolean)">
            <summary>
            Gets all base members that have the same signature.
            </summary>
            <returns>
            List of base members with the same signature. The member from the derived-most base class is returned first.
            </returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.InheritanceHelper.GetDerivedMember(ICSharpCode.NRefactory.TypeSystem.IMember,ICSharpCode.NRefactory.TypeSystem.ITypeDefinition)">
            <summary>
            Finds the member declared in 'derivedType' that has the same signature (could override) 'baseMember'.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IntersectionType">
            <summary>
            Represents the intersection of several types.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile">
            <summary>
            Represents a single file that was parsed.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.GetTopLevelTypeDefinition(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the top-level type defined at the specified location.
            Returns null if no type is defined at that location.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.GetInnermostTypeDefinition(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the type (potentially a nested type) defined at the specified location.
            Returns null if no type is defined at that location.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.GetMember(ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets the member defined at the specified location.
            Returns null if no member is defined at that location.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.GetTypeResolveContext(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Gets a type resolve context at a given location.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.FileName">
            <summary>
            Returns the full path of the file.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.LastWriteTime">
            <summary>
            Gets the time when the file was last written.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.TopLevelTypeDefinitions">
            <summary>
            Gets all top-level type definitions.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.AssemblyAttributes">
            <summary>
            Gets all assembly attributes that are defined in this file.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.ModuleAttributes">
            <summary>
            Gets all module attributes that are defined in this file.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile.Errors">
            <summary>
            Gets the parser errors.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.IProjectContent">
            <summary>
            Represents an assembly consisting of source code (parsed files).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.GetFile(System.String)">
            <summary>
            Gets a parsed file by its file name.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.CreateCompilation">
            <summary>
            Creates a new <see cref="T:ICSharpCode.NRefactory.TypeSystem.ICompilation"/> that allows resolving within this project.
            </summary>
            <remarks>
            This method does not support <see cref="T:ICSharpCode.NRefactory.TypeSystem.ProjectReference"/>s. When dealing with a solution
            containing multiple projects, consider using <see cref="M:ICSharpCode.NRefactory.TypeSystem.ISolutionSnapshot.GetCompilation(ICSharpCode.NRefactory.TypeSystem.IProjectContent)"/> instead.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.CreateCompilation(ICSharpCode.NRefactory.TypeSystem.ISolutionSnapshot)">
            <summary>
            Creates a new <see cref="T:ICSharpCode.NRefactory.TypeSystem.ICompilation"/> that allows resolving within this project.
            </summary>
            <param name="solutionSnapshot">The parent solution snapshot to use for the compilation.</param>
            <remarks>
            This method is intended to be called by ISolutionSnapshot implementations. Other code should
            call <see cref="M:ICSharpCode.NRefactory.TypeSystem.ISolutionSnapshot.GetCompilation(ICSharpCode.NRefactory.TypeSystem.IProjectContent)"/> instead.
            This method always creates a new compilation, even if the solution snapshot already contains
            one for this project.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.SetAssemblyName(System.String)">
            <summary>
            Changes the assembly name of this project content.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.SetProjectFileName(System.String)">
            <summary>
            Changes the project file name of this project content.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.SetLocation(System.String)">
            <summary>
            Changes the path to the assembly location (the output path where the project compiles to).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.AddAssemblyReferences(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IAssemblyReference})">
            <summary>
            Add assembly references to this project content.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.AddAssemblyReferences(ICSharpCode.NRefactory.TypeSystem.IAssemblyReference[])">
            <summary>
            Add assembly references to this project content.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.RemoveAssemblyReferences(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IAssemblyReference})">
            <summary>
            Removes assembly references from this project content.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.RemoveAssemblyReferences(ICSharpCode.NRefactory.TypeSystem.IAssemblyReference[])">
            <summary>
            Removes assembly references from this project content.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.AddOrUpdateFiles(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile})">
            <summary>
            Adds the specified files to the project content.
            If a file with the same name already exists, updated the existing file.
            </summary>
            <remarks>
            You can create an unresolved file by calling <c>ToTypeSystem()</c> on a syntax tree.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.AddOrUpdateFiles(ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile[])">
            <summary>
            Adds the specified files to the project content.
            If a file with the same name already exists, this method updates the existing file.
            </summary>
            <remarks>
            You can create an unresolved file by calling <c>ToTypeSystem()</c> on a syntax tree.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.RemoveFiles(System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Removes the files with the specified names.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.RemoveFiles(System.String[])">
            <summary>
            Removes the files with the specified names.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.UpdateProjectContent(ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile,ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile)">
            <summary>
            Removes types and attributes from oldFile from the project, and adds those from newFile.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.UpdateProjectContent(System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile},System.Collections.Generic.IEnumerable{ICSharpCode.NRefactory.TypeSystem.IUnresolvedFile})">
            <summary>
            Removes types and attributes from oldFiles from the project, and adds those from newFiles.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.IProjectContent.SetCompilerSettings(System.Object)">
            <summary>
            Sets the compiler settings object.
            The concrete type of the settings object depends on the programming language used to implement this project.
            Using the incorrect type of settings object results in an <see cref="T:System.ArgumentException"/>.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IProjectContent.ProjectFileName">
            <summary>
            Gets the path to the project file (e.g. .csproj).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IProjectContent.Files">
            <summary>
            Gets the list of all files in the project content.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IProjectContent.AssemblyReferences">
            <summary>
            Gets the referenced assemblies.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.IProjectContent.CompilerSettings">
            <summary>
            Gets the compiler settings object.
            The concrete type of the settings object depends on the programming language used to implement this project.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.GetMemberOptions.None">
            <summary>
            No options specified - this is the default.
            Members will be specialized, and inherited members will be included.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.GetMemberOptions.ReturnMemberDefinitions">
            <summary>
            Do not specialize the returned members - directly return the definitions.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.GetMemberOptions.IgnoreInheritedMembers">
            <summary>
            Do not list inherited members - only list members defined directly on this type.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.VarianceModifier">
            <summary>
            Represents the variance of a type parameter.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.VarianceModifier.Invariant">
            <summary>
            The type parameter is not variant.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.VarianceModifier.Covariant">
            <summary>
            The type parameter is covariant (used in output position).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.VarianceModifier.Contravariant">
            <summary>
            The type parameter is contravariant (used in input position).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext.CurrentAssembly">
            <summary>
            Gets the current assembly.
            This property may return null if this context does not specify any assembly.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext.CurrentTypeDefinition">
            <summary>
            Gets the current type definition.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext.CurrentMember">
            <summary>
            Gets the current member.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode">
            <summary>
            Represents some well-known types.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.None">
            <summary>
            Not one of the known types.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Object">
            <summary><c>object</c> (System.Object)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.DBNull">
            <summary><c>System.DBNull</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Boolean">
            <summary><c>bool</c> (System.Boolean)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Char">
            <summary><c>char</c> (System.Char)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.SByte">
            <summary><c>sbyte</c> (System.SByte)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Byte">
            <summary><c>byte</c> (System.Byte)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Int16">
            <summary><c>short</c> (System.Int16)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.UInt16">
            <summary><c>ushort</c> (System.UInt16)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Int32">
            <summary><c>int</c> (System.Int32)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.UInt32">
            <summary><c>uint</c> (System.UInt32)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Int64">
            <summary><c>long</c> (System.Int64)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.UInt64">
            <summary><c>ulong</c> (System.UInt64)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Single">
            <summary><c>float</c> (System.Single)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Double">
            <summary><c>double</c> (System.Double)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Decimal">
            <summary><c>decimal</c> (System.Decimal)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.DateTime">
            <summary><c>System.DateTime</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.String">
            <summary><c>string</c> (System.String)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Void">
            <summary><c>void</c> (System.Void)</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Type">
            <summary><c>System.Type</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Array">
            <summary><c>System.Array</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Attribute">
            <summary><c>System.Attribute</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.ValueType">
            <summary><c>System.ValueType</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Enum">
            <summary><c>System.Enum</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Delegate">
            <summary><c>System.Delegate</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.MulticastDelegate">
            <summary><c>System.MulticastDelegate</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Exception">
            <summary><c>System.Exception</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IntPtr">
            <summary><c>System.IntPtr</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.UIntPtr">
            <summary><c>System.UIntPtr</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IEnumerable">
            <summary><c>System.Collections.IEnumerable</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IEnumerator">
            <summary><c>System.Collections.IEnumerator</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IEnumerableOfT">
            <summary><c>System.Collections.Generic.IEnumerable{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IEnumeratorOfT">
            <summary><c>System.Collections.Generic.IEnumerator{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.ICollection">
            <summary><c>System.Collections.Generic.ICollection</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.ICollectionOfT">
            <summary><c>System.Collections.Generic.ICollection{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IList">
            <summary><c>System.Collections.Generic.IList</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IListOfT">
            <summary><c>System.Collections.Generic.IList{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IReadOnlyListOfT">
            <summary><c>System.Collections.Generic.IReadOnlyList{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.Task">
            <summary><c>System.Threading.Tasks.Task</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.TaskOfT">
            <summary><c>System.Threading.Tasks.Task{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.NullableOfT">
            <summary><c>System.Nullable{T}</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.IDisposable">
            <summary><c>System.IDisposable</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.INotifyCompletion">
            <summary><c>System.Runtime.CompilerServices.INotifyCompletion</c></summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeCode.ICriticalNotifyCompletion">
            <summary><c>System.Runtime.CompilerServices.ICriticalNotifyCompletion</c></summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference">
            <summary>
            Contains well-known type references.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Get(ICSharpCode.NRefactory.TypeSystem.KnownTypeCode)">
            <summary>
            Gets the known type reference for the specified type code.
            Returns null for KnownTypeCode.None.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Object">
            <summary>
            Gets a type reference pointing to the <c>object</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.DBNull">
            <summary>
            Gets a type reference pointing to the <c>System.DBNull</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Boolean">
            <summary>
            Gets a type reference pointing to the <c>bool</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Char">
            <summary>
            Gets a type reference pointing to the <c>char</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.SByte">
            <summary>
            Gets a type reference pointing to the <c>sbyte</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Byte">
            <summary>
            Gets a type reference pointing to the <c>byte</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Int16">
            <summary>
            Gets a type reference pointing to the <c>short</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.UInt16">
            <summary>
            Gets a type reference pointing to the <c>ushort</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Int32">
            <summary>
            Gets a type reference pointing to the <c>int</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.UInt32">
            <summary>
            Gets a type reference pointing to the <c>uint</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Int64">
            <summary>
            Gets a type reference pointing to the <c>long</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.UInt64">
            <summary>
            Gets a type reference pointing to the <c>ulong</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Single">
            <summary>
            Gets a type reference pointing to the <c>float</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Double">
            <summary>
            Gets a type reference pointing to the <c>double</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Decimal">
            <summary>
            Gets a type reference pointing to the <c>decimal</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.DateTime">
            <summary>
            Gets a type reference pointing to the <c>System.DateTime</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.String">
            <summary>
            Gets a type reference pointing to the <c>string</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Void">
            <summary>
            Gets a type reference pointing to the <c>void</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Type">
            <summary>
            Gets a type reference pointing to the <c>System.Type</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Array">
            <summary>
            Gets a type reference pointing to the <c>System.Array</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Attribute">
            <summary>
            Gets a type reference pointing to the <c>System.Attribute</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.ValueType">
            <summary>
            Gets a type reference pointing to the <c>System.ValueType</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Enum">
            <summary>
            Gets a type reference pointing to the <c>System.Enum</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Delegate">
            <summary>
            Gets a type reference pointing to the <c>System.Delegate</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.MulticastDelegate">
            <summary>
            Gets a type reference pointing to the <c>System.MulticastDelegate</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Exception">
            <summary>
            Gets a type reference pointing to the <c>System.Exception</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IntPtr">
            <summary>
            Gets a type reference pointing to the <c>System.IntPtr</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.UIntPtr">
            <summary>
            Gets a type reference pointing to the <c>System.UIntPtr</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IEnumerable">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.IEnumerable</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IEnumerator">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.IEnumerator</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IEnumerableOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.Generic.IEnumerable{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IEnumeratorOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.Generic.IEnumerator{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.ICollection">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.ICollection</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.ICollectionOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.Generic.ICollection{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IList">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.IList</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IListOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.Generic.IList{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IReadOnlyListOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Collections.Generic.IReadOnlyList{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Task">
            <summary>
            Gets a type reference pointing to the <c>System.Threading.Tasks.Task</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.TaskOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Threading.Tasks.Task{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.NullableOfT">
            <summary>
            Gets a type reference pointing to the <c>System.Nullable{T}</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.IDisposable">
            <summary>
            Gets a type reference pointing to the <c>System.IDisposable</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.INotifyCompletion">
            <summary>
            Gets a type reference pointing to the <c>System.Runtime.CompilerServices.INotifyCompletion</c> type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.ICriticalNotifyCompletion">
            <summary>
            Gets a type reference pointing to the <c>System.Runtime.CompilerServices.ICriticalNotifyCompletion</c> type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.GetCSharpNameByTypeCode(ICSharpCode.NRefactory.TypeSystem.KnownTypeCode)">
            <summary>
            Gets the C# primitive type name from the known type code.
            Returns null if there is no primitive name for the specified type.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.NullableType">
            <summary>
            Static helper methods for working with nullable types.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.NullableType.IsNullable(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets whether the specified type is a nullable type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.NullableType.GetUnderlyingType(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Returns the element type, if <paramref name="type"/> is a nullable type.
            Otherwise, returns the type itself.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.NullableType.Create(ICSharpCode.NRefactory.TypeSystem.ICompilation,ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Creates a nullable type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.NullableType.Create(ICSharpCode.NRefactory.TypeSystem.ITypeReference)">
            <summary>
            Creates a nullable type reference.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedType">
            <summary>
            ParameterizedType represents an instance of a generic type.
            Example: List&lt;string&gt;
            </summary>
            <remarks>
            When getting the members, this type modifies the lists so that
            type parameters in the signatures of the members are replaced with
            the type arguments.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ParameterizedType.#ctor(ICSharpCode.NRefactory.TypeSystem.ITypeDefinition,ICSharpCode.NRefactory.TypeSystem.IType[])">
            <summary>
            Fast internal version of the constructor. (no safety checks)
            Keeps the array that was passed and assumes it won't be modified.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ParameterizedType.GetTypeArgument(System.Int32)">
            <summary>
            Same as 'parameterizedType.TypeArguments[index]', but is a bit more efficient (doesn't require the read-only wrapper).
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ParameterizedType.GetDefinition">
            <summary>
            Gets the definition of the generic type.
            For <c>ParameterizedType</c>, this method never returns null.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ParameterizedType.GetSubstitution">
            <summary>
            Gets a type visitor that performs the substitution of class type parameters with the type arguments
            of this parameterized type.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ParameterizedType.GetSubstitution(System.Collections.Generic.IList{ICSharpCode.NRefactory.TypeSystem.IType})">
            <summary>
            Gets a type visitor that performs the substitution of class type parameters with the type arguments
            of this parameterized type,
            and also substitutes method type parameters with the specified method type arguments.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedTypeReference">
            <summary>
            ParameterizedTypeReference is a reference to generic class that specifies the type parameters.
            Example: List&lt;string&gt;
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ParameterListComparer">
            <summary>
            Compares parameter lists by comparing the types of all parameters.
            </summary>
            <remarks>
            'ref int' and 'out int' are considered to be equal.
            "Method{T}(T a)" and "Method{S}(S b)" are also considered equal.
            However, "Method(T a)" and "Method(S b)" are not considered equal when the type parameters T and S belong to classes.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ParameterListComparer.NormalizeMethodTypeParameters(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Replaces all occurrences of method type parameters in the given type
            by normalized type parameters. This allows comparing parameter types from different
            generic methods.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.SignatureComparer">
            <summary>
            Compares member signatures.
            </summary>
            <remarks>
            This comparer checks for equal short name, equal type parameter count, and equal parameter types (using ParameterListComparer).
            </remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.SignatureComparer.Ordinal">
            <summary>
            Gets a signature comparer that uses an ordinal comparison for the member name.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ProjectReference">
            <summary>
            References another project content in the same solution.
            Using the <see cref="T:ICSharpCode.NRefactory.TypeSystem.ProjectReference"/> class requires that you 
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ProjectReference.#ctor(System.String)">
            <summary>
            Creates a new reference to the specified project (must be part of the same solution).
            </summary>
            <param name="projectFileName">Full path to the file name. Must be identical to <see cref="P:ICSharpCode.NRefactory.TypeSystem.IProjectContent.ProjectFileName"/> of the target project; do not use a relative path.</param>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ReflectionNameParseException">
            <summary>
            Represents an error while parsing a reflection name.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.SimpleTypeResolveContext">
            <summary>
            Default ITypeResolveContext implementation.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.TopLevelTypeName">
            <summary>
            Holds the name of a top-level type.
            This struct cannot refer to nested classes.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.TypeKind">
            <summary>
            .
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Other">
            <summary>Language-specific type that is not part of NRefactory.TypeSystem itself.</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Class">
            <summary>A <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> or <see cref="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedType"/> that is a class.</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Interface">
            <summary>A <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> or <see cref="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedType"/> that is an interface.</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Struct">
            <summary>A <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> or <see cref="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedType"/> that is a struct.</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Delegate">
            <summary>A <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> or <see cref="T:ICSharpCode.NRefactory.TypeSystem.ParameterizedType"/> that is a delegate.</summary>
            <remarks><c>System.Delegate</c> itself is TypeKind.Class</remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Enum">
            <summary>A <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> that is an enum.</summary>
            <remarks><c>System.Enum</c> itself is TypeKind.Class</remarks>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Module">
            <summary>A <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeDefinition"/> that is a module (VB).</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Void">
            <summary>The <c>System.Void</c> type.</summary>
            <see cref="F:ICSharpCode.NRefactory.TypeSystem.KnownTypeReference.Void"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Unknown">
            <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Null">
            <summary>The type of the null literal.</summary>
            <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.NullType"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Dynamic">
            <summary>Type representing the C# 'dynamic' type.</summary>
            <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.Dynamic"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.UnboundTypeArgument">
            <summary>Represents missing type arguments in partially parameterized types.</summary>
            <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnboundTypeArgument"/>
            <see cref="M:ICSharpCode.NRefactory.TypeSystem.IType.GetNestedTypes(System.Predicate{ICSharpCode.NRefactory.TypeSystem.ITypeDefinition},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.TypeParameter">
            <summary>The type is a type parameter.</summary>
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeParameter"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Array">
            <summary>An array type</summary>
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.ArrayType"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Pointer">
            <summary>A pointer type</summary>
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.PointerType"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.ByReference">
            <summary>A managed reference type</summary>
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.ByReferenceType"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Anonymous">
            <summary>An anonymous type</summary>
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.AnonymousType"/>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.TypeKind.Intersection">
            <summary>Intersection of several types</summary>
            <see cref="T:ICSharpCode.NRefactory.TypeSystem.IntersectionType"/>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper">
            <summary>
            Static helper methods for reflection names.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.FindType(ICSharpCode.NRefactory.TypeSystem.ICompilation,System.Type)">
            <summary>
            Retrieves the specified type in this compilation.
            Returns <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/> if the type cannot be found in this compilation.
            </summary>
            <remarks>
            This method cannot be used with open types; all type parameters will be substituted
            with <see cref="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType"/>.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.ToTypeReference(System.Type)">
            <summary>
            Creates a reference to the specified type.
            </summary>
            <param name="type">The type to be converted.</param>
            <returns>Returns the type reference.</returns>
            <remarks>
            If the type is open (contains type parameters '`0' or '``0'),
            an <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext"/> with the appropriate CurrentTypeDefinition/CurrentMember is required
            to resolve the type reference.
            For closed types, the root type resolve context for the compilation is sufficient.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.SplitTypeParameterCountFromReflectionName(System.String)">
            <summary>
            Removes the ` with type parameter count from the reflection name.
            </summary>
            <remarks>Do not use this method with the full name of inner classes.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.SplitTypeParameterCountFromReflectionName(System.String,System.Int32@)">
            <summary>
            Removes the ` with type parameter count from the reflection name.
            </summary>
            <remarks>Do not use this method with the full name of inner classes.</remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.FindType(ICSharpCode.NRefactory.TypeSystem.ICompilation,System.TypeCode)">
            <summary>
            Retrieves a built-in type using the specified type code.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.ToTypeReference(System.TypeCode)">
            <summary>
            Creates a reference to the specified type.
            </summary>
            <param name="typeCode">The type to be converted.</param>
            <returns>Returns the type reference.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.GetTypeCode(ICSharpCode.NRefactory.TypeSystem.IType)">
            <summary>
            Gets the type code for the specified type, or TypeCode.Empty if none of the other type codes match.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.ParseReflectionName(System.String)">
            <summary>
            Parses a reflection name into a type reference.
            </summary>
            <param name="reflectionTypeName">The reflection name of the type.</param>
            <returns>A type reference that represents the reflection name.</returns>
            <exception cref="T:ICSharpCode.NRefactory.TypeSystem.ReflectionNameParseException">The syntax of the reflection type name is invalid</exception>
            <remarks>
            If the type is open (contains type parameters '`0' or '``0'),
            an <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext"/> with the appropriate CurrentTypeDefinition/CurrentMember is required
            to resolve the reference to the ITypeParameter.
            For looking up closed, assembly qualified type names, the root type resolve context for the compilation
            is sufficient.
            When looking up a type name that isn't assembly qualified, the type reference will look in
            <see cref="P:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext.CurrentAssembly"/> first, and if the type is not found there,
            it will look in all other assemblies of the compilation.
            </remarks>
            <seealso cref="M:ICSharpCode.NRefactory.TypeSystem.FullTypeName.#ctor(System.String)"/>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.Null">
            <summary>
            A reflection class used to represent <c>null</c>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.Dynamic">
            <summary>
            A reflection class used to represent <c>dynamic</c>.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ReflectionHelper.UnboundTypeArgument">
            <summary>
            A reflection class used to represent an unbound type argument.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.SpecialType">
            <summary>
            Contains static implementations of special types.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnknownType">
            <summary>
            Gets the type representing resolve errors.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.NullType">
            <summary>
            The null type is used as type of the null literal. It is a reference type without any members; and it is a subtype of all reference types.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.Dynamic">
            <summary>
            Type representing the C# 'dynamic' type.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.TypeSystem.SpecialType.UnboundTypeArgument">
            <summary>
            A type used for unbound type arguments in partially parameterized types.
            </summary>
            <see cref="M:ICSharpCode.NRefactory.TypeSystem.IType.GetNestedTypes(System.Predicate{ICSharpCode.NRefactory.TypeSystem.ITypeDefinition},ICSharpCode.NRefactory.TypeSystem.GetMemberOptions)"/>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.BinaryReaderWith7BitEncodedInts">
            <summary>
            A binary reader that can read the output of BinaryWriterWith7BitEncodedInts.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.BinaryWriterWith7BitEncodedInts">
            <summary>
            A binary writer that encodes all integers as 7-bit-encoded-ints.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.BitVector16">
            <summary>
            Holds 16 boolean values.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.BusyManager">
            <summary>
            This class is used to prevent stack overflows by representing a 'busy' flag
            that prevents reentrance when another call is running.
            However, using a simple 'bool busy' is not thread-safe, so we use a
            thread-static BusyManager.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.CacheManager">
            <summary>
            Allows caching values for a specific compilation.
            A CacheManager consists of a for shared instances (shared among all threads working with that resolve context).
            </summary>
            <remarks>This class is thread-safe</remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.CallbackOnDispose">
            <summary>
            Invokes an action when it is disposed.
            </summary>
            <remarks>
            This class ensures the callback is invoked at most once,
            even when Dispose is called on multiple threads.
            </remarks>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.CSharpPrimitiveCast">
            <summary>
            Static helper method for converting between primitive types.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.CSharpPrimitiveCast.Cast(System.TypeCode,System.Object,System.Boolean)">
            <summary>
            Performs a conversion between primitive types.
            Unfortunately we cannot use Convert.ChangeType because it has different semantics
            (e.g. rounding behavior for floats, overflow, etc.), so we write down every possible primitive C# cast
            and let the compiler figure out the exact semantics.
            And we have to do everything twice, once in a checked-block, once in an unchecked-block.
            </summary>
            <exception cref="T:System.OverflowException">Overflow checking is enabled and an overflow occurred.</exception>
            <exception cref="T:System.InvalidCastException">The cast is invalid, e.g. casting a boolean to an integer.</exception>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.ExtensionMethods">
            <summary>
            Contains extension methods for use within NRefactory.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.EmitScanField(System.Reflection.Emit.ILGenerator,System.Reflection.Emit.LocalBuilder,System.Reflection.FieldInfo)">
            <summary>
            Emit 'scan instance.Field'.
            Stack transition: ... => ...
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.EmitScanValueType(System.Reflection.Emit.ILGenerator,System.Type)">
            <summary>
            Stack transition: ..., value => ...
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.EmitWriteField(System.Reflection.Emit.ILGenerator,System.Reflection.Emit.LocalBuilder,System.Reflection.Emit.LocalBuilder,System.Reflection.FieldInfo)">
            <summary>
            Emit 'write instance.Field'.
            Stack transition: ... => ...
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.WritePrimitiveValue(System.Reflection.Emit.ILGenerator,System.Type)">
            <summary>
            Writes a primitive value of the specified type.
            Stack transition: ..., writer, value => ...
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.EmitWriteValueType(System.Reflection.Emit.ILGenerator,System.Reflection.Emit.LocalBuilder,System.Type)">
            <summary>
            Stack transition: ..., value => ...
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.ReadPrimitiveValue(System.Reflection.Emit.ILGenerator,System.Reflection.Emit.LocalBuilder,System.Type)">
            <summary>
            Reads a primitive value of the specified type.
            Stack transition: ... => ..., value
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.EmitReadValueType(System.Reflection.Emit.ILGenerator,System.Reflection.Emit.LocalBuilder,System.Type)">
            <summary>
            Stack transition: ..., field-ref => ...
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Utils.FastSerializer.SerializationBinder">
            <summary>
            Gets/Sets the serialization binder that is being used.
            The default value is null, which will cause the FastSerializer to use the
            full assembly and type names.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Utils.FastSerializer.FixedInstances">
            <summary>
            Can be used to set several 'fixed' instances.
            When serializing, such instances will not be included; and any references to a fixed instance
            will be stored as the index in this array.
            When deserializing, the same (or equivalent) instances must be specified, and the deserializer
            will use them in place of the fixed instances.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.FastSerializer.SerializationContext.Mark(System.Object)">
            <summary>
            Marks an instance for future scanning.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.FastSerializerVersionAttribute">
            <summary>
            Specifies the version of the class.
            The <see cref="T:ICSharpCode.NRefactory.Utils.FastSerializer"/> will refuse to deserialize an instance that was stored by
            a different version of the class than the current one.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.GraphVizGraph">
            <summary>
            GraphViz graph.
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizEdge.color">
            <summary>edge stroke color</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizEdge.constraint">
            <summary>use edge to affect node ranking</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizEdge.fontsize">
            <summary>point size of label</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizNode.fontsize">
            <summary>point size of label</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizNode.height">
            <summary>minimum height in inches</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizNode.margin">
            <summary>space around label</summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.GraphVizNode.shape">
            <summary>node shape</summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.ImmutableStack`1">
            <summary>
            An immutable stack.
            
            Using 'foreach' on the stack will return the items from top to bottom (in the order they would be popped).
            </summary>
        </member>
        <member name="F:ICSharpCode.NRefactory.Utils.ImmutableStack`1.Empty">
            <summary>
            Gets the empty stack instance.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.ImmutableStack`1.Push(`0)">
            <summary>
            Pushes an item on the stack. This does not modify the stack itself, but returns a new
            one with the value pushed.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.ImmutableStack`1.Peek">
            <summary>
            Gets the item on the top of the stack.
            </summary>
            <exception cref="T:System.InvalidOperationException">The stack is empty.</exception>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.ImmutableStack`1.PeekOrDefault">
            <summary>
            Gets the item on the top of the stack.
            Returns <c>default(T)</c> if the stack is empty.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.ImmutableStack`1.Pop">
            <summary>
            Gets the stack with the top item removed.
            </summary>
            <exception cref="T:System.InvalidOperationException">The stack is empty.</exception>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.ImmutableStack`1.GetEnumerator">
            <summary>
            Gets an enumerator that iterates through the stack top-to-bottom.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.ImmutableStack`1.ToString">
            <inheritdoc/>
        </member>
        <member name="P:ICSharpCode.NRefactory.Utils.ImmutableStack`1.IsEmpty">
            <summary>
            Gets if this stack is empty.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.LazyInit.GetOrSet``1(``0@,``0)">
            <summary>
            Atomatically performs the following operation:
            - If target is null: stores newValue in target and returns newValue.
            - If target is not null: returns target.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.MultiDictionary`2">
            <summary>
            A dictionary that allows multiple pairs with the same key.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.MultiDictionary`2.RemoveAll(`0)">
            <summary>
            Removes all entries with the specified key.
            </summary>
            <returns>Returns true if at least one entry was removed.</returns>
        </member>
        <member name="P:ICSharpCode.NRefactory.Utils.MultiDictionary`2.Count">
            <summary>
            Returns the number of different keys.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.Platform">
            <summary>
            Platform-specific code.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.TreeTraversal">
            <summary>
            Static helper methods for traversing trees.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.TreeTraversal.PreOrder``1(``0,System.Func{``0,System.Collections.Generic.IEnumerable{``0}})">
            <summary>
            Converts a tree data structure into a flat list by traversing it in pre-order.
            </summary>
            <param name="root">The root element of the tree.</param>
            <param name="recursion">The function that gets the children of an element.</param>
            <returns>Iterator that enumerates the tree structure in pre-order.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.TreeTraversal.PreOrder``1(System.Collections.Generic.IEnumerable{``0},System.Func{``0,System.Collections.Generic.IEnumerable{``0}})">
            <summary>
            Converts a tree data structure into a flat list by traversing it in pre-order.
            </summary>
            <param name="input">The root elements of the forest.</param>
            <param name="recursion">The function that gets the children of an element.</param>
            <returns>Iterator that enumerates the tree structure in pre-order.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.TreeTraversal.PostOrder``1(``0,System.Func{``0,System.Collections.Generic.IEnumerable{``0}})">
            <summary>
            Converts a tree data structure into a flat list by traversing it in post-order.
            </summary>
            <param name="root">The root element of the tree.</param>
            <param name="recursion">The function that gets the children of an element.</param>
            <returns>Iterator that enumerates the tree structure in post-order.</returns>
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.TreeTraversal.PostOrder``1(System.Collections.Generic.IEnumerable{``0},System.Func{``0,System.Collections.Generic.IEnumerable{``0}})">
            <summary>
            Converts a tree data structure into a flat list by traversing it in post-order.
            </summary>
            <param name="input">The root elements of the forest.</param>
            <param name="recursion">The function that gets the children of an element.</param>
            <returns>Iterator that enumerates the tree structure in post-order.</returns>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.ErrorType">
            <summary>
            Enum that describes the type of an error.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.TypeSystem.Error">
            <summary>
            Descibes an error during parsing.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Error.#ctor(ICSharpCode.NRefactory.TypeSystem.ErrorType,System.String,ICSharpCode.NRefactory.TypeSystem.DomRegion)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.TypeSystem.Error"/> class.
            </summary>
            <param name="errorType">
            The error type.
            </param>
            <param name="message">
            The description of the error.
            </param>
            <param name="region">
            The region of the error.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Error.#ctor(ICSharpCode.NRefactory.TypeSystem.ErrorType,System.String,ICSharpCode.NRefactory.TextLocation)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.TypeSystem.Error"/> class.
            </summary>
            <param name="errorType">
            The error type.
            </param>
            <param name="message">
            The description of the error.
            </param>
            <param name="location">
            The location of the error.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Error.#ctor(ICSharpCode.NRefactory.TypeSystem.ErrorType,System.String,System.Int32,System.Int32)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.TypeSystem.Error"/> class.
            </summary>
            <param name="errorType">
            The error type.
            </param>
            <param name="message">
            The description of the error.
            </param>
            <param name="line">
            The line of the error.
            </param>
            <param name="col">
            The column of the error.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.TypeSystem.Error.#ctor(ICSharpCode.NRefactory.TypeSystem.ErrorType,System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:ICSharpCode.NRefactory.TypeSystem.Error"/> class.
            </summary>
            <param name="errorType">
            The error type.
            </param>
            <param name="message">
            The description of the error.
            </param>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Error.ErrorType">
            <summary>
            The type of the error.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Error.Message">
            <summary>
            The error description.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.TypeSystem.Error.Region">
            <summary>
            The region of the error.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Completion.IParameterDataProvider">
            <summary>
            Provides intellisense information for a collection of parametrized members.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.IParameterDataProvider.GetHeading(System.Int32,System.String[],System.Int32)">
            <summary>
            Returns the markup to use to represent the specified method overload
            in the parameter information window.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.IParameterDataProvider.GetDescription(System.Int32,System.Int32)">
            <summary>
            Returns the markup for the description to use to represent the specified method overload
            in the parameter information window.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.IParameterDataProvider.GetParameterDescription(System.Int32,System.Int32)">
            <summary>
            Returns the text to use to represent the specified parameter
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.IParameterDataProvider.GetParameterName(System.Int32,System.Int32)">
            <summary>
            Gets the name of the parameter.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.IParameterDataProvider.GetParameterCount(System.Int32)">
            <summary>
            Returns the number of parameters of the specified method
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.IParameterDataProvider.AllowParameterList(System.Int32)">
            <summary>
            Used for the params lists. (for example "params" in c#).
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Completion.IParameterDataProvider.Count">
            <summary>
            Gets the overload count.
            </summary>
        </member>
        <member name="P:ICSharpCode.NRefactory.Completion.IParameterDataProvider.StartOffset">
            <summary>
            Gets the start offset of the parameter expression node.
            </summary>
        </member>
        <member name="T:ICSharpCode.NRefactory.Documentation.IdStringProvider">
            <summary>
            Provides ID strings for entities. (C# 4.0 spec, §A.3.1)
            ID strings are used to identify members in XML documentation files.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IdStringProvider.GetIdString(ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Gets the ID string (C# 4.0 spec, §A.3.1) for the specified entity.
            </summary>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IdStringProvider.ParseMemberIdString(System.String)">
            <summary>
            Parse the ID string into a member reference.
            </summary>
            <param name="memberIdString">The ID string representing the member (with "M:", "F:", "P:" or "E:" prefix).</param>
            <returns>A member reference that represents the ID string.</returns>
            <exception cref="T:ICSharpCode.NRefactory.TypeSystem.ReflectionNameParseException">The syntax of the ID string is invalid</exception>
            <remarks>
            The member reference will look in <see cref="P:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext.CurrentAssembly"/> first,
            and if the member is not found there,
            it will look in all other assemblies of the compilation.
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IdStringProvider.ParseTypeName(System.String)">
            <summary>
            Parse the ID string type name into a type reference.
            </summary>
            <param name="typeName">The ID string representing the type (the "T:" prefix is optional).</param>
            <returns>A type reference that represents the ID string.</returns>
            <exception cref="T:ICSharpCode.NRefactory.TypeSystem.ReflectionNameParseException">The syntax of the ID string is invalid</exception>
            <remarks>
            <para>
            The type reference will look in <see cref="P:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext.CurrentAssembly"/> first,
            and if the type is not found there,
            it will look in all other assemblies of the compilation.
            </para>
            <para>
            If the type is open (contains type parameters '`0' or '``0'),
            an <see cref="T:ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext"/> with the appropriate CurrentTypeDefinition/CurrentMember is required
            to resolve the reference to the ITypeParameter.
            </para>
            </remarks>
        </member>
        <member name="M:ICSharpCode.NRefactory.Documentation.IdStringProvider.FindEntity(System.String,ICSharpCode.NRefactory.TypeSystem.ITypeResolveContext)">
            <summary>
            Finds the entity in the given type resolve context.
            </summary>
            <param name="idString">ID string of the entity.</param>
            <param name="context">Type resolve context</param>
            <returns>Returns the entity, or null if it is not found.</returns>
            <exception cref="T:ICSharpCode.NRefactory.TypeSystem.ReflectionNameParseException">The syntax of the ID string is invalid</exception>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.CompositeFormatStringParser">
            <summary>
            Composite format string parser.
            </summary>
            <remarks>
            Implements a complete parser for valid strings as well as
            error reporting and best-effort parsing for invalid strings.
            </remarks>		
        </member>
        <member name="M:ICSharpCode.NRefactory.Utils.CompositeFormatStringParser.Parse(System.String)">
            <summary>
            Parse the specified format string.
            </summary>
            <param name='format'>
            The format string.
            </param>
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.FormatStringSegmentBase">
            <summary>
            Composite format string parser.
            </summary>
            <remarks>
            Implements a complete parser for valid strings as well as
            error reporting and best-effort parsing for invalid strings.
            </remarks>		
        </member>
        <member name="T:ICSharpCode.NRefactory.Utils.IFormatStringSegment">
            <summary>
            Composite format string parser.
            </summary>
            <remarks>
            Implements a complete parser for valid strings as well as
            error reporting and best-effort parsing for invalid strings.
            </remarks>		
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.CompletionExtensionMethods.GetEditorBrowsableState(ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Gets the EditorBrowsableState of an entity.
            </summary>
            <returns>
            The editor browsable state.
            </returns>
            <param name='entity'>
            Entity.
            </param>
        </member>
        <member name="M:ICSharpCode.NRefactory.Completion.CompletionExtensionMethods.IsBrowsable(ICSharpCode.NRefactory.TypeSystem.IEntity)">
            <summary>
            Determines if an entity should be shown in the code completion window. This is the same as:
            <c>GetEditorBrowsableState (entity) != System.ComponentModel.EditorBrowsableState.Never</c>
            </summary>
            <returns>
            <c>true</c> if the entity should be shown; otherwise, <c>false</c>.
            </returns>
            <param name='entity'>
            The entity.
            </param>
        </member>
    </members>
</doc>
tools\icsharp\Microsoft.Web.XmlTransform.dll
 
tools\icsharp\Mono.Cecil.dll
 
tools\icsharp\Mono.CSharp.dll
 
tools\icsharp\NetMQ.dll
 
tools\icsharp\Newtonsoft.Json.dll
 
tools\icsharp\Newtonsoft.Json.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>Newtonsoft.Json</name>
    </assembly>
    <members>
        <member name="T:Newtonsoft.Json.Bson.BsonObjectId">
            <summary>
            Represents a BSON Oid (object id).
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonObjectId.#ctor(System.Byte[])">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonObjectId"/> class.
            </summary>
            <param name="value">The Oid value.</param>
        </member>
        <member name="P:Newtonsoft.Json.Bson.BsonObjectId.Value">
            <summary>
            Gets or sets the value of the Oid.
            </summary>
            <value>The value of the Oid.</value>
        </member>
        <member name="T:Newtonsoft.Json.Bson.BsonReader">
            <summary>
            Represents a reader that provides fast, non-cached, forward-only access to serialized Json data.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonReader">
            <summary>
            Represents a reader that provides fast, non-cached, forward-only access to serialized Json data.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonReader"/> class with the specified <see cref="T:System.IO.TextReader"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.Read">
            <summary>
            Reads the next JSON token from the stream.
            </summary>
            <returns>true if the next token was read successfully; false if there are no more tokens to read.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.ReadAsInt32">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.ReadAsString">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.String"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.ReadAsBytes">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:Byte[]"/>.
            </summary>
            <returns>A <see cref="T:Byte[]"/> or a null reference if the next JSON token is null. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.ReadAsDecimal">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.ReadAsDateTime">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.ReadAsDateTimeOffset">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.Skip">
            <summary>
            Skips the children of the current token.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.SetToken(Newtonsoft.Json.JsonToken)">
            <summary>
            Sets the current token.
            </summary>
            <param name="newToken">The new token.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.SetToken(Newtonsoft.Json.JsonToken,System.Object)">
            <summary>
            Sets the current token and value.
            </summary>
            <param name="newToken">The new token.</param>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.SetStateBasedOnCurrent">
            <summary>
            Sets the state based on current token type.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.System#IDisposable#Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.Dispose(System.Boolean)">
            <summary>
            Releases unmanaged and - optionally - managed resources
            </summary>
            <param name="disposing"><c>true</c> to release both managed and unmanaged resources; <c>false</c> to release only unmanaged resources.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonReader.Close">
            <summary>
            Changes the <see cref="T:Newtonsoft.Json.JsonReader.State"/> to Closed. 
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.CurrentState">
            <summary>
            Gets the current reader state.
            </summary>
            <value>The current reader state.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.CloseInput">
            <summary>
            Gets or sets a value indicating whether the underlying stream or
            <see cref="T:System.IO.TextReader"/> should be closed when the reader is closed.
            </summary>
            <value>
            true to close the underlying stream or <see cref="T:System.IO.TextReader"/> when
            the reader is closed; otherwise false. The default is true.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.SupportMultipleContent">
            <summary>
            Gets or sets a value indicating whether multiple pieces of JSON content can
            be read from a continuous stream without erroring.
            </summary>
            <value>
            true to support reading multiple pieces of JSON content; otherwise false. The default is false.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.QuoteChar">
            <summary>
            Gets the quotation mark character used to enclose the value of a string.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.DateTimeZoneHandling">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> time zones are handling when reading JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.DateParseHandling">
            <summary>
            Get or set how date formatted strings, e.g. "\/Date(1198908717056)\/" and "2012-03-21T05:40Z", are parsed when reading JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.FloatParseHandling">
            <summary>
            Get or set how floating point numbers, e.g. 1.0 and 9.9, are parsed when reading JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.DateFormatString">
            <summary>
            Get or set how custom date formatted strings are parsed when reading JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.MaxDepth">
            <summary>
            Gets or sets the maximum depth allowed when reading JSON. Reading past this depth will throw a <see cref="T:Newtonsoft.Json.JsonReaderException"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.TokenType">
            <summary>
            Gets the type of the current JSON token. 
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.Value">
            <summary>
            Gets the text value of the current JSON token.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.ValueType">
            <summary>
            Gets The Common Language Runtime (CLR) type for the current JSON token.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.Depth">
            <summary>
            Gets the depth of the current token in the JSON document.
            </summary>
            <value>The depth of the current token in the JSON document.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.Path">
            <summary>
            Gets the path of the current JSON token. 
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonReader.Culture">
            <summary>
            Gets or sets the culture used when reading JSON. Defaults to <see cref="P:System.Globalization.CultureInfo.InvariantCulture"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonReader.State">
            <summary>
            Specifies the state of the reader.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Start">
            <summary>
            The Read method has not been called.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Complete">
            <summary>
            The end of the file has been reached successfully.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Property">
            <summary>
            Reader is at a property.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.ObjectStart">
            <summary>
            Reader is at the start of an object.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Object">
            <summary>
            Reader is in an object.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.ArrayStart">
            <summary>
            Reader is at the start of an array.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Array">
            <summary>
            Reader is in an array.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Closed">
            <summary>
            The Close method has been called.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.PostValue">
            <summary>
            Reader has just read a value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.ConstructorStart">
            <summary>
            Reader is at the start of a constructor.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Constructor">
            <summary>
            Reader in a constructor.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Error">
            <summary>
            An error occurred that prevents the read operation from continuing.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonReader.State.Finished">
            <summary>
            The end of the file has been reached successfully.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.#ctor(System.IO.Stream)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonReader"/> class.
            </summary>
            <param name="stream">The stream.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.#ctor(System.IO.BinaryReader)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonReader"/> class.
            </summary>
            <param name="reader">The reader.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.#ctor(System.IO.Stream,System.Boolean,System.DateTimeKind)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonReader"/> class.
            </summary>
            <param name="stream">The stream.</param>
            <param name="readRootValueAsArray">if set to <c>true</c> the root object will be read as a JSON array.</param>
            <param name="dateTimeKindHandling">The <see cref="T:System.DateTimeKind"/> used when reading <see cref="T:System.DateTime"/> values from BSON.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.#ctor(System.IO.BinaryReader,System.Boolean,System.DateTimeKind)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonReader"/> class.
            </summary>
            <param name="reader">The reader.</param>
            <param name="readRootValueAsArray">if set to <c>true</c> the root object will be read as a JSON array.</param>
            <param name="dateTimeKindHandling">The <see cref="T:System.DateTimeKind"/> used when reading <see cref="T:System.DateTime"/> values from BSON.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.ReadAsBytes">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:Byte[]"/>.
            </summary>
            <returns>
            A <see cref="T:Byte[]"/> or a null reference if the next JSON token is null. This method will return <c>null</c> at the end of an array.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.ReadAsDecimal">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.ReadAsInt32">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.ReadAsString">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.String"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.ReadAsDateTime">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.ReadAsDateTimeOffset">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>
            A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.Read">
            <summary>
            Reads the next JSON token from the stream.
            </summary>
            <returns>
            true if the next token was read successfully; false if there are no more tokens to read.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonReader.Close">
            <summary>
            Changes the <see cref="T:Newtonsoft.Json.JsonReader.State"/> to Closed.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Bson.BsonReader.JsonNet35BinaryCompatibility">
            <summary>
            Gets or sets a value indicating whether binary data reading should compatible with incorrect Json.NET 3.5 written binary.
            </summary>
            <value>
            	<c>true</c> if binary data reading will be compatible with incorrect Json.NET 3.5 written binary; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Bson.BsonReader.ReadRootValueAsArray">
            <summary>
            Gets or sets a value indicating whether the root object will be read as a JSON array.
            </summary>
            <value>
            	<c>true</c> if the root object will be read as a JSON array; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Bson.BsonReader.DateTimeKindHandling">
            <summary>
            Gets or sets the <see cref="T:System.DateTimeKind"/> used when reading <see cref="T:System.DateTime"/> values from BSON.
            </summary>
            <value>The <see cref="T:System.DateTimeKind"/> used when reading <see cref="T:System.DateTime"/> values from BSON.</value>
        </member>
        <member name="T:Newtonsoft.Json.Bson.BsonWriter">
            <summary>
            Represents a writer that provides a fast, non-cached, forward-only way of generating JSON data.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonWriter">
            <summary>
            Represents a writer that provides a fast, non-cached, forward-only way of generating Json data.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.#ctor">
            <summary>
            Creates an instance of the <c>JsonWriter</c> class. 
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.Flush">
            <summary>
            Flushes whatever is in the buffer to the underlying streams and also flushes the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.Close">
            <summary>
            Closes this stream and the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteStartObject">
            <summary>
            Writes the beginning of a Json object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteEndObject">
            <summary>
            Writes the end of a Json object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteStartArray">
            <summary>
            Writes the beginning of a Json array.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteEndArray">
            <summary>
            Writes the end of an array.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteStartConstructor(System.String)">
            <summary>
            Writes the start of a constructor with the given name.
            </summary>
            <param name="name">The name of the constructor.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteEndConstructor">
            <summary>
            Writes the end constructor.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WritePropertyName(System.String)">
            <summary>
            Writes the property name of a name/value pair on a JSON object.
            </summary>
            <param name="name">The name of the property.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WritePropertyName(System.String,System.Boolean)">
            <summary>
            Writes the property name of a name/value pair on a JSON object.
            </summary>
            <param name="name">The name of the property.</param>
            <param name="escape">A flag to indicate whether the text should be escaped when it is written as a JSON property name.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteEnd">
            <summary>
            Writes the end of the current Json object or array.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteToken(Newtonsoft.Json.JsonReader)">
            <summary>
            Writes the current <see cref="T:Newtonsoft.Json.JsonReader"/> token and its children.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read the token from.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteToken(Newtonsoft.Json.JsonReader,System.Boolean)">
            <summary>
            Writes the current <see cref="T:Newtonsoft.Json.JsonReader"/> token.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read the token from.</param>
            <param name="writeChildren">A flag indicating whether the current token's children should be written.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteEnd(Newtonsoft.Json.JsonToken)">
            <summary>
            Writes the specified end token.
            </summary>
            <param name="token">The end token to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteIndent">
            <summary>
            Writes indent characters.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValueDelimiter">
            <summary>
            Writes the JSON value delimiter.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteIndentSpace">
            <summary>
            Writes an indent space.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteNull">
            <summary>
            Writes a null value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteUndefined">
            <summary>
            Writes an undefined value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteRaw(System.String)">
            <summary>
            Writes raw JSON without changing the writer's state.
            </summary>
            <param name="json">The raw JSON to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteRawValue(System.String)">
            <summary>
            Writes raw JSON where a value is expected and updates the writer's state.
            </summary>
            <param name="json">The raw JSON to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.String)">
            <summary>
            Writes a <see cref="T:System.String"/> value.
            </summary>
            <param name="value">The <see cref="T:System.String"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Int32)">
            <summary>
            Writes a <see cref="T:System.Int32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.UInt32)">
            <summary>
            Writes a <see cref="T:System.UInt32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Int64)">
            <summary>
            Writes a <see cref="T:System.Int64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.UInt64)">
            <summary>
            Writes a <see cref="T:System.UInt64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Single)">
            <summary>
            Writes a <see cref="T:System.Single"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Single"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Double)">
            <summary>
            Writes a <see cref="T:System.Double"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Double"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Boolean)">
            <summary>
            Writes a <see cref="T:System.Boolean"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Boolean"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Int16)">
            <summary>
            Writes a <see cref="T:System.Int16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.UInt16)">
            <summary>
            Writes a <see cref="T:System.UInt16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Char)">
            <summary>
            Writes a <see cref="T:System.Char"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Char"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Byte)">
            <summary>
            Writes a <see cref="T:System.Byte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Byte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.SByte)">
            <summary>
            Writes a <see cref="T:System.SByte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.SByte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Decimal)">
            <summary>
            Writes a <see cref="T:System.Decimal"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Decimal"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.DateTime)">
            <summary>
            Writes a <see cref="T:System.DateTime"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTime"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.DateTimeOffset)">
            <summary>
            Writes a <see cref="T:System.DateTimeOffset"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTimeOffset"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Guid)">
            <summary>
            Writes a <see cref="T:System.Guid"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Guid"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.TimeSpan)">
            <summary>
            Writes a <see cref="T:System.TimeSpan"/> value.
            </summary>
            <param name="value">The <see cref="T:System.TimeSpan"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Int32})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.UInt32})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Int64})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.UInt64})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Single})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Double})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Boolean})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Int16})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.UInt16})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Char})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Byte})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.SByte})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Decimal})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.DateTime})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.DateTimeOffset})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.Guid})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Nullable{System.TimeSpan})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Byte[])">
            <summary>
            Writes a <see cref="T:Byte[]"/> value.
            </summary>
            <param name="value">The <see cref="T:Byte[]"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Uri)">
            <summary>
            Writes a <see cref="T:System.Uri"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Uri"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteValue(System.Object)">
            <summary>
            Writes a <see cref="T:System.Object"/> value.
            An error will raised if the value cannot be written as a single JSON token.
            </summary>
            <param name="value">The <see cref="T:System.Object"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteComment(System.String)">
            <summary>
            Writes out a comment <code>/*...*/</code> containing the specified text. 
            </summary>
            <param name="text">Text to place inside the comment.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.WriteWhitespace(System.String)">
            <summary>
            Writes out the given white space.
            </summary>
            <param name="ws">The string of white space characters.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriter.SetWriteState(Newtonsoft.Json.JsonToken,System.Object)">
            <summary>
            Sets the state of the JsonWriter,
            </summary>
            <param name="token">The JsonToken being written.</param>
            <param name="value">The value being written.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.CloseOutput">
            <summary>
            Gets or sets a value indicating whether the underlying stream or
            <see cref="T:System.IO.TextReader"/> should be closed when the writer is closed.
            </summary>
            <value>
            true to close the underlying stream or <see cref="T:System.IO.TextReader"/> when
            the writer is closed; otherwise false. The default is true.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.Top">
            <summary>
            Gets the top.
            </summary>
            <value>The top.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.WriteState">
            <summary>
            Gets the state of the writer.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.Path">
            <summary>
            Gets the path of the writer. 
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.Formatting">
            <summary>
            Indicates how JSON text output is formatted.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.DateFormatHandling">
            <summary>
            Get or set how dates are written to JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.DateTimeZoneHandling">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> time zones are handling when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.StringEscapeHandling">
            <summary>
            Get or set how strings are escaped when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.FloatFormatHandling">
            <summary>
            Get or set how special floating point numbers, e.g. <see cref="F:System.Double.NaN"/>,
            <see cref="F:System.Double.PositiveInfinity"/> and <see cref="F:System.Double.NegativeInfinity"/>,
            are written to JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.DateFormatString">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> and <see cref="T:System.DateTimeOffset"/> values are formatting when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriter.Culture">
            <summary>
            Gets or sets the culture used when writing JSON. Defaults to <see cref="P:System.Globalization.CultureInfo.InvariantCulture"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.#ctor(System.IO.Stream)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonWriter"/> class.
            </summary>
            <param name="stream">The stream.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.#ctor(System.IO.BinaryWriter)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Bson.BsonWriter"/> class.
            </summary>
            <param name="writer">The writer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.Flush">
            <summary>
            Flushes whatever is in the buffer to the underlying streams and also flushes the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteEnd(Newtonsoft.Json.JsonToken)">
            <summary>
            Writes the end.
            </summary>
            <param name="token">The token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteComment(System.String)">
            <summary>
            Writes out a comment <code>/*...*/</code> containing the specified text.
            </summary>
            <param name="text">Text to place inside the comment.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteStartConstructor(System.String)">
            <summary>
            Writes the start of a constructor with the given name.
            </summary>
            <param name="name">The name of the constructor.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteRaw(System.String)">
            <summary>
            Writes raw JSON.
            </summary>
            <param name="json">The raw JSON to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteRawValue(System.String)">
            <summary>
            Writes raw JSON where a value is expected and updates the writer's state.
            </summary>
            <param name="json">The raw JSON to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteStartArray">
            <summary>
            Writes the beginning of a Json array.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteStartObject">
            <summary>
            Writes the beginning of a Json object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WritePropertyName(System.String)">
            <summary>
            Writes the property name of a name/value pair on a Json object.
            </summary>
            <param name="name">The name of the property.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.Close">
            <summary>
            Closes this stream and the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Object)">
            <summary>
            Writes a <see cref="T:System.Object"/> value.
            An error will raised if the value cannot be written as a single JSON token.
            </summary>
            <param name="value">The <see cref="T:System.Object"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteNull">
            <summary>
            Writes a null value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteUndefined">
            <summary>
            Writes an undefined value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.String)">
            <summary>
            Writes a <see cref="T:System.String"/> value.
            </summary>
            <param name="value">The <see cref="T:System.String"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Int32)">
            <summary>
            Writes a <see cref="T:System.Int32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.UInt32)">
            <summary>
            Writes a <see cref="T:System.UInt32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Int64)">
            <summary>
            Writes a <see cref="T:System.Int64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.UInt64)">
            <summary>
            Writes a <see cref="T:System.UInt64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Single)">
            <summary>
            Writes a <see cref="T:System.Single"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Single"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Double)">
            <summary>
            Writes a <see cref="T:System.Double"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Double"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Boolean)">
            <summary>
            Writes a <see cref="T:System.Boolean"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Boolean"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Int16)">
            <summary>
            Writes a <see cref="T:System.Int16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.UInt16)">
            <summary>
            Writes a <see cref="T:System.UInt16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Char)">
            <summary>
            Writes a <see cref="T:System.Char"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Char"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Byte)">
            <summary>
            Writes a <see cref="T:System.Byte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Byte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.SByte)">
            <summary>
            Writes a <see cref="T:System.SByte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.SByte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Decimal)">
            <summary>
            Writes a <see cref="T:System.Decimal"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Decimal"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.DateTime)">
            <summary>
            Writes a <see cref="T:System.DateTime"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTime"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.DateTimeOffset)">
            <summary>
            Writes a <see cref="T:System.DateTimeOffset"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTimeOffset"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Byte[])">
            <summary>
            Writes a <see cref="T:Byte[]"/> value.
            </summary>
            <param name="value">The <see cref="T:Byte[]"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Guid)">
            <summary>
            Writes a <see cref="T:System.Guid"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Guid"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.TimeSpan)">
            <summary>
            Writes a <see cref="T:System.TimeSpan"/> value.
            </summary>
            <param name="value">The <see cref="T:System.TimeSpan"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteValue(System.Uri)">
            <summary>
            Writes a <see cref="T:System.Uri"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Uri"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteObjectId(System.Byte[])">
            <summary>
            Writes a <see cref="T:Byte[]"/> value that represents a BSON object id.
            </summary>
            <param name="value">The Object ID value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Bson.BsonWriter.WriteRegex(System.String,System.String)">
            <summary>
            Writes a BSON regex.
            </summary>
            <param name="pattern">The regex pattern.</param>
            <param name="options">The regex options.</param>
        </member>
        <member name="P:Newtonsoft.Json.Bson.BsonWriter.DateTimeKindHandling">
            <summary>
            Gets or sets the <see cref="T:System.DateTimeKind"/> used when writing <see cref="T:System.DateTime"/> values to BSON.
            When set to <see cref="F:System.DateTimeKind.Unspecified"/> no conversion will occur.
            </summary>
            <value>The <see cref="T:System.DateTimeKind"/> used when writing <see cref="T:System.DateTime"/> values to BSON.</value>
        </member>
        <member name="T:Newtonsoft.Json.ConstructorHandling">
            <summary>
            Specifies how constructors are used when initializing objects during deserialization by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
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        </member>
        <member name="F:Newtonsoft.Json.ConstructorHandling.Default">
            <summary>
            First attempt to use the public default constructor, then fall back to single paramatized constructor, then the non-public default constructor.
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        </member>
        <member name="F:Newtonsoft.Json.ConstructorHandling.AllowNonPublicDefaultConstructor">
            <summary>
            Json.NET will use a non-public default constructor before falling back to a paramatized constructor.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Converters.BinaryConverter">
            <summary>
            Converts a binary value to and from a base 64 string value.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonConverter">
            <summary>
            Converts an object to and from JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConverter.GetSchema">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of the JSON produced by the JsonConverter.
            </summary>
            <returns>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of the JSON produced by the JsonConverter.</returns>
        </member>
        <member name="P:Newtonsoft.Json.JsonConverter.CanRead">
            <summary>
            Gets a value indicating whether this <see cref="T:Newtonsoft.Json.JsonConverter"/> can read JSON.
            </summary>
            <value><c>true</c> if this <see cref="T:Newtonsoft.Json.JsonConverter"/> can read JSON; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonConverter.CanWrite">
            <summary>
            Gets a value indicating whether this <see cref="T:Newtonsoft.Json.JsonConverter"/> can write JSON.
            </summary>
            <value><c>true</c> if this <see cref="T:Newtonsoft.Json.JsonConverter"/> can write JSON; otherwise, <c>false</c>.</value>
        </member>
        <member name="M:Newtonsoft.Json.Converters.BinaryConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.BinaryConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
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            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.BinaryConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
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        </member>
        <member name="T:Newtonsoft.Json.Converters.BsonObjectIdConverter">
            <summary>
            Converts a <see cref="T:Newtonsoft.Json.Bson.BsonObjectId"/> to and from JSON and BSON.
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        </member>
        <member name="M:Newtonsoft.Json.Converters.BsonObjectIdConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
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            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.BsonObjectIdConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.BsonObjectIdConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
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        </member>
        <member name="T:Newtonsoft.Json.Converters.CustomCreationConverter`1">
            <summary>
            Create a custom object
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            <typeparam name="T">The object type to convert.</typeparam>
        </member>
        <member name="M:Newtonsoft.Json.Converters.CustomCreationConverter`1.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.CustomCreationConverter`1.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.CustomCreationConverter`1.Create(System.Type)">
            <summary>
            Creates an object which will then be populated by the serializer.
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            <param name="objectType">Type of the object.</param>
            <returns>The created object.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.CustomCreationConverter`1.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Converters.CustomCreationConverter`1.CanWrite">
            <summary>
            Gets a value indicating whether this <see cref="T:Newtonsoft.Json.JsonConverter"/> can write JSON.
            </summary>
            <value>
            	<c>true</c> if this <see cref="T:Newtonsoft.Json.JsonConverter"/> can write JSON; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.Converters.DataSetConverter">
            <summary>
            Converts a <see cref="T:System.Data.DataSet"/> to and from JSON.
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        </member>
        <member name="M:Newtonsoft.Json.Converters.DataSetConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
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            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DataSetConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DataSetConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified value type.
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            <param name="valueType">Type of the value.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified value type; otherwise, <c>false</c>.
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        </member>
        <member name="T:Newtonsoft.Json.Converters.DataTableConverter">
            <summary>
            Converts a <see cref="T:System.Data.DataTable"/> to and from JSON.
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        </member>
        <member name="M:Newtonsoft.Json.Converters.DataTableConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
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            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DataTableConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
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            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DataTableConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified value type.
            </summary>
            <param name="valueType">Type of the value.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified value type; otherwise, <c>false</c>.
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        </member>
        <member name="T:Newtonsoft.Json.Converters.DateTimeConverterBase">
            <summary>
            Provides a base class for converting a <see cref="T:System.DateTime"/> to and from JSON.
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        </member>
        <member name="M:Newtonsoft.Json.Converters.DateTimeConverterBase.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.DiscriminatedUnionConverter">
            <summary>
            Converts a F# discriminated union type to and from JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DiscriminatedUnionConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DiscriminatedUnionConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.DiscriminatedUnionConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.EntityKeyMemberConverter">
            <summary>
            Converts an Entity Framework EntityKey to and from JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.EntityKeyMemberConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.EntityKeyMemberConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.EntityKeyMemberConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.ExpandoObjectConverter">
            <summary>
            Converts an ExpandoObject to and from JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.ExpandoObjectConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.ExpandoObjectConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.ExpandoObjectConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Converters.ExpandoObjectConverter.CanWrite">
            <summary>
            Gets a value indicating whether this <see cref="T:Newtonsoft.Json.JsonConverter"/> can write JSON.
            </summary>
            <value>
            	<c>true</c> if this <see cref="T:Newtonsoft.Json.JsonConverter"/> can write JSON; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.Converters.IsoDateTimeConverter">
            <summary>
            Converts a <see cref="T:System.DateTime"/> to and from the ISO 8601 date format (e.g. 2008-04-12T12:53Z).
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.IsoDateTimeConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.IsoDateTimeConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Converters.IsoDateTimeConverter.DateTimeStyles">
            <summary>
            Gets or sets the date time styles used when converting a date to and from JSON.
            </summary>
            <value>The date time styles used when converting a date to and from JSON.</value>
        </member>
        <member name="P:Newtonsoft.Json.Converters.IsoDateTimeConverter.DateTimeFormat">
            <summary>
            Gets or sets the date time format used when converting a date to and from JSON.
            </summary>
            <value>The date time format used when converting a date to and from JSON.</value>
        </member>
        <member name="P:Newtonsoft.Json.Converters.IsoDateTimeConverter.Culture">
            <summary>
            Gets or sets the culture used when converting a date to and from JSON.
            </summary>
            <value>The culture used when converting a date to and from JSON.</value>
        </member>
        <member name="T:Newtonsoft.Json.Converters.JavaScriptDateTimeConverter">
            <summary>
            Converts a <see cref="T:System.DateTime"/> to and from a JavaScript date constructor (e.g. new Date(52231943)).
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.JavaScriptDateTimeConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.JavaScriptDateTimeConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing property value of the JSON that is being converted.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.KeyValuePairConverter">
            <summary>
            Converts a <see cref="T:System.Collections.Generic.KeyValuePair`2"/> to and from JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.KeyValuePairConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.KeyValuePairConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.KeyValuePairConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.RegexConverter">
            <summary>
            Converts a <see cref="T:System.Text.RegularExpressions.Regex"/> to and from JSON and BSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.RegexConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.RegexConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.RegexConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.StringEnumConverter">
            <summary>
            Converts an <see cref="T:System.Enum"/> to and from its name string value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.StringEnumConverter.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Converters.StringEnumConverter"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.StringEnumConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.StringEnumConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.StringEnumConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            <c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Converters.StringEnumConverter.CamelCaseText">
            <summary>
            Gets or sets a value indicating whether the written enum text should be camel case.
            </summary>
            <value><c>true</c> if the written enum text will be camel case; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Converters.StringEnumConverter.AllowIntegerValues">
            <summary>
            Gets or sets a value indicating whether integer values are allowed.
            </summary>
            <value><c>true</c> if integers are allowed; otherwise, <c>false</c>.</value>
        </member>
        <member name="T:Newtonsoft.Json.Converters.VersionConverter">
            <summary>
            Converts a <see cref="T:System.Version"/> to and from a string (e.g. "1.2.3.4").
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.VersionConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="value">The value.</param>
            <param name="serializer">The calling serializer.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.VersionConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing property value of the JSON that is being converted.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.VersionConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified object type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified object type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Converters.XmlNodeConverter">
            <summary>
            Converts XML to and from JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Converters.XmlNodeConverter.WriteJson(Newtonsoft.Json.JsonWriter,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Writes the JSON representation of the object.
            </summary>
            <param name="writer">The <see cref="T:Newtonsoft.Json.JsonWriter"/> to write to.</param>
            <param name="serializer">The calling serializer.</param>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Converters.XmlNodeConverter.ReadJson(Newtonsoft.Json.JsonReader,System.Type,System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Reads the JSON representation of the object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from.</param>
            <param name="objectType">Type of the object.</param>
            <param name="existingValue">The existing value of object being read.</param>
            <param name="serializer">The calling serializer.</param>
            <returns>The object value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.XmlNodeConverter.IsNamespaceAttribute(System.String,System.String@)">
            <summary>
            Checks if the attributeName is a namespace attribute.
            </summary>
            <param name="attributeName">Attribute name to test.</param>
            <param name="prefix">The attribute name prefix if it has one, otherwise an empty string.</param>
            <returns>True if attribute name is for a namespace attribute, otherwise false.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Converters.XmlNodeConverter.CanConvert(System.Type)">
            <summary>
            Determines whether this instance can convert the specified value type.
            </summary>
            <param name="valueType">Type of the value.</param>
            <returns>
            	<c>true</c> if this instance can convert the specified value type; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Converters.XmlNodeConverter.DeserializeRootElementName">
            <summary>
            Gets or sets the name of the root element to insert when deserializing to XML if the JSON structure has produces multiple root elements.
            </summary>
            <value>The name of the deserialize root element.</value>
        </member>
        <member name="P:Newtonsoft.Json.Converters.XmlNodeConverter.WriteArrayAttribute">
            <summary>
            Gets or sets a flag to indicate whether to write the Json.NET array attribute.
            This attribute helps preserve arrays when converting the written XML back to JSON.
            </summary>
            <value><c>true</c> if the array attibute is written to the XML; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Converters.XmlNodeConverter.OmitRootObject">
            <summary>
            Gets or sets a value indicating whether to write the root JSON object.
            </summary>
            <value><c>true</c> if the JSON root object is omitted; otherwise, <c>false</c>.</value>
        </member>
        <member name="T:Newtonsoft.Json.FloatParseHandling">
            <summary>
            Specifies how floating point numbers, e.g. 1.0 and 9.9, are parsed when reading JSON text.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.FloatParseHandling.Double">
            <summary>
            Floating point numbers are parsed to <see cref="F:Newtonsoft.Json.FloatParseHandling.Double"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.FloatParseHandling.Decimal">
            <summary>
            Floating point numbers are parsed to <see cref="F:Newtonsoft.Json.FloatParseHandling.Decimal"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.DateFormatHandling">
            <summary>
            Specifies how dates are formatted when writing JSON text.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateFormatHandling.IsoDateFormat">
            <summary>
            Dates are written in the ISO 8601 format, e.g. "2012-03-21T05:40Z".
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateFormatHandling.MicrosoftDateFormat">
            <summary>
            Dates are written in the Microsoft JSON format, e.g. "\/Date(1198908717056)\/".
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.DateParseHandling">
            <summary>
            Specifies how date formatted strings, e.g. "\/Date(1198908717056)\/" and "2012-03-21T05:40Z", are parsed when reading JSON text.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateParseHandling.None">
            <summary>
            Date formatted strings are not parsed to a date type and are read as strings.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateParseHandling.DateTime">
            <summary>
            Date formatted strings, e.g. "\/Date(1198908717056)\/" and "2012-03-21T05:40Z", are parsed to <see cref="F:Newtonsoft.Json.DateParseHandling.DateTime"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateParseHandling.DateTimeOffset">
            <summary>
            Date formatted strings, e.g. "\/Date(1198908717056)\/" and "2012-03-21T05:40Z", are parsed to <see cref="F:Newtonsoft.Json.DateParseHandling.DateTimeOffset"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.DateTimeZoneHandling">
            <summary>
            Specifies how to treat the time value when converting between string and <see cref="T:System.DateTime"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateTimeZoneHandling.Local">
            <summary>
            Treat as local time. If the <see cref="T:System.DateTime"/> object represents a Coordinated Universal Time (UTC), it is converted to the local time.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateTimeZoneHandling.Utc">
            <summary>
            Treat as a UTC. If the <see cref="T:System.DateTime"/> object represents a local time, it is converted to a UTC.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateTimeZoneHandling.Unspecified">
            <summary>
            Treat as a local time if a <see cref="T:System.DateTime"/> is being converted to a string.
            If a string is being converted to <see cref="T:System.DateTime"/>, convert to a local time if a time zone is specified.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DateTimeZoneHandling.RoundtripKind">
            <summary>
            Time zone information should be preserved when converting.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.DefaultValueHandling">
            <summary>
            Specifies default value handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="ReducingSerializedJsonSizeDefaultValueHandlingObject" title="DefaultValueHandling Class"/>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="ReducingSerializedJsonSizeDefaultValueHandlingExample" title="DefaultValueHandling Ignore Example"/>
            </example>
        </member>
        <member name="F:Newtonsoft.Json.DefaultValueHandling.Include">
            <summary>
            Include members where the member value is the same as the member's default value when serializing objects.
            Included members are written to JSON. Has no effect when deserializing.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DefaultValueHandling.Ignore">
            <summary>
            Ignore members where the member value is the same as the member's default value when serializing objects
            so that is is not written to JSON.
            This option will ignore all default values (e.g. <c>null</c> for objects and nullable types; <c>0</c> for integers,
            decimals and floating point numbers; and <c>false</c> for booleans). The default value ignored can be changed by
            placing the <see cref="T:System.ComponentModel.DefaultValueAttribute"/> on the property.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DefaultValueHandling.Populate">
            <summary>
            Members with a default value but no JSON will be set to their default value when deserializing.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.DefaultValueHandling.IgnoreAndPopulate">
            <summary>
            Ignore members where the member value is the same as the member's default value when serializing objects
            and sets members to their default value when deserializing.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.FloatFormatHandling">
            <summary>
            Specifies float format handling options when writing special floating point numbers, e.g. <see cref="F:System.Double.NaN"/>,
            <see cref="F:System.Double.PositiveInfinity"/> and <see cref="F:System.Double.NegativeInfinity"/> with <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.FloatFormatHandling.String">
            <summary>
            Write special floating point values as strings in JSON, e.g. "NaN", "Infinity", "-Infinity".
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.FloatFormatHandling.Symbol">
            <summary>
            Write special floating point values as symbols in JSON, e.g. NaN, Infinity, -Infinity.
            Note that this will produce non-valid JSON.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.FloatFormatHandling.DefaultValue">
            <summary>
            Write special floating point values as the property's default value in JSON, e.g. 0.0 for a <see cref="T:System.Double"/> property, null for a <see cref="T:System.Nullable`1"/> property.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Formatting">
            <summary>
            Specifies formatting options for the <see cref="T:Newtonsoft.Json.JsonTextWriter"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Formatting.None">
            <summary>
            No special formatting is applied. This is the default.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Formatting.Indented">
            <summary>
            Causes child objects to be indented according to the <see cref="P:Newtonsoft.Json.JsonTextWriter.Indentation"/> and <see cref="P:Newtonsoft.Json.JsonTextWriter.IndentChar"/> settings.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.IJsonLineInfo">
            <summary>
            Provides an interface to enable a class to return line and position information.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.IJsonLineInfo.HasLineInfo">
            <summary>
            Gets a value indicating whether the class can return line information.
            </summary>
            <returns>
            	<c>true</c> if LineNumber and LinePosition can be provided; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.IJsonLineInfo.LineNumber">
            <summary>
            Gets the current line number.
            </summary>
            <value>The current line number or 0 if no line information is available (for example, HasLineInfo returns false).</value>
        </member>
        <member name="P:Newtonsoft.Json.IJsonLineInfo.LinePosition">
            <summary>
            Gets the current line position.
            </summary>
            <value>The current line position or 0 if no line information is available (for example, HasLineInfo returns false).</value>
        </member>
        <member name="T:Newtonsoft.Json.JsonArrayAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> how to serialize the collection.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonContainerAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> how to serialize the object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonContainerAttribute.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonContainerAttribute"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonContainerAttribute.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonContainerAttribute"/> class with the specified container Id.
            </summary>
            <param name="id">The container Id.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.Id">
            <summary>
            Gets or sets the id.
            </summary>
            <value>The id.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.Title">
            <summary>
            Gets or sets the title.
            </summary>
            <value>The title.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.Description">
            <summary>
            Gets or sets the description.
            </summary>
            <value>The description.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.ItemConverterType">
            <summary>
            Gets the collection's items converter.
            </summary>
            <value>The collection's items converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.IsReference">
            <summary>
            Gets or sets a value that indicates whether to preserve object references.
            </summary>
            <value>
            	<c>true</c> to keep object reference; otherwise, <c>false</c>. The default is <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.ItemIsReference">
            <summary>
            Gets or sets a value that indicates whether to preserve collection's items references.
            </summary>
            <value>
            	<c>true</c> to keep collection's items object references; otherwise, <c>false</c>. The default is <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.ItemReferenceLoopHandling">
            <summary>
            Gets or sets the reference loop handling used when serializing the collection's items.
            </summary>
            <value>The reference loop handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonContainerAttribute.ItemTypeNameHandling">
            <summary>
            Gets or sets the type name handling used when serializing the collection's items.
            </summary>
            <value>The type name handling.</value>
        </member>
        <member name="M:Newtonsoft.Json.JsonArrayAttribute.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonArrayAttribute"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonArrayAttribute.#ctor(System.Boolean)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonObjectAttribute"/> class with a flag indicating whether the array can contain null items
            </summary>
            <param name="allowNullItems">A flag indicating whether the array can contain null items.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonArrayAttribute.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonArrayAttribute"/> class with the specified container Id.
            </summary>
            <param name="id">The container Id.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonArrayAttribute.AllowNullItems">
            <summary>
            Gets or sets a value indicating whether null items are allowed in the collection.
            </summary>
            <value><c>true</c> if null items are allowed in the collection; otherwise, <c>false</c>.</value>
        </member>
        <member name="T:Newtonsoft.Json.JsonConstructorAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> to use the specified constructor when deserializing that object.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonConvert">
            <summary>
            Provides methods for converting between common language runtime types and JSON types.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="SerializeObject" title="Serializing and Deserializing JSON with JsonConvert" />
            </example>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.True">
            <summary>
            Represents JavaScript's boolean value true as a string. This field is read-only.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.False">
            <summary>
            Represents JavaScript's boolean value false as a string. This field is read-only.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.Null">
            <summary>
            Represents JavaScript's null as a string. This field is read-only.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.Undefined">
            <summary>
            Represents JavaScript's undefined as a string. This field is read-only.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.PositiveInfinity">
            <summary>
            Represents JavaScript's positive infinity as a string. This field is read-only.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.NegativeInfinity">
            <summary>
            Represents JavaScript's negative infinity as a string. This field is read-only.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonConvert.NaN">
            <summary>
            Represents JavaScript's NaN as a string. This field is read-only.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.DateTime)">
            <summary>
            Converts the <see cref="T:System.DateTime"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.DateTime"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.DateTime,Newtonsoft.Json.DateFormatHandling,Newtonsoft.Json.DateTimeZoneHandling)">
            <summary>
            Converts the <see cref="T:System.DateTime"/> to its JSON string representation using the <see cref="T:Newtonsoft.Json.DateFormatHandling"/> specified.
            </summary>
            <param name="value">The value to convert.</param>
            <param name="format">The format the date will be converted to.</param>
            <param name="timeZoneHandling">The time zone handling when the date is converted to a string.</param>
            <returns>A JSON string representation of the <see cref="T:System.DateTime"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.DateTimeOffset)">
            <summary>
            Converts the <see cref="T:System.DateTimeOffset"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.DateTimeOffset"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.DateTimeOffset,Newtonsoft.Json.DateFormatHandling)">
            <summary>
            Converts the <see cref="T:System.DateTimeOffset"/> to its JSON string representation using the <see cref="T:Newtonsoft.Json.DateFormatHandling"/> specified.
            </summary>
            <param name="value">The value to convert.</param>
            <param name="format">The format the date will be converted to.</param>
            <returns>A JSON string representation of the <see cref="T:System.DateTimeOffset"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Boolean)">
            <summary>
            Converts the <see cref="T:System.Boolean"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Boolean"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Char)">
            <summary>
            Converts the <see cref="T:System.Char"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Char"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Enum)">
            <summary>
            Converts the <see cref="T:System.Enum"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Enum"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Int32)">
            <summary>
            Converts the <see cref="T:System.Int32"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Int32"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Int16)">
            <summary>
            Converts the <see cref="T:System.Int16"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Int16"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.UInt16)">
            <summary>
            Converts the <see cref="T:System.UInt16"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.UInt16"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.UInt32)">
            <summary>
            Converts the <see cref="T:System.UInt32"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.UInt32"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Int64)">
            <summary>
            Converts the <see cref="T:System.Int64"/>  to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Int64"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.UInt64)">
            <summary>
            Converts the <see cref="T:System.UInt64"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.UInt64"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Single)">
            <summary>
            Converts the <see cref="T:System.Single"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Single"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Double)">
            <summary>
            Converts the <see cref="T:System.Double"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Double"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Byte)">
            <summary>
            Converts the <see cref="T:System.Byte"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Byte"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.SByte)">
            <summary>
            Converts the <see cref="T:System.SByte"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.SByte"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Decimal)">
            <summary>
            Converts the <see cref="T:System.Decimal"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.SByte"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Guid)">
            <summary>
            Converts the <see cref="T:System.Guid"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Guid"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.TimeSpan)">
            <summary>
            Converts the <see cref="T:System.TimeSpan"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.TimeSpan"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Uri)">
            <summary>
            Converts the <see cref="T:System.Uri"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Uri"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.String)">
            <summary>
            Converts the <see cref="T:System.String"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.String"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.String,System.Char)">
            <summary>
            Converts the <see cref="T:System.String"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <param name="delimiter">The string delimiter character.</param>
            <returns>A JSON string representation of the <see cref="T:System.String"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.ToString(System.Object)">
            <summary>
            Converts the <see cref="T:System.Object"/> to its JSON string representation.
            </summary>
            <param name="value">The value to convert.</param>
            <returns>A JSON string representation of the <see cref="T:System.Object"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object)">
            <summary>
            Serializes the specified object to a JSON string.
            </summary>
            <param name="value">The object to serialize.</param>
            <returns>A JSON string representation of the object.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,Newtonsoft.Json.Formatting)">
            <summary>
            Serializes the specified object to a JSON string using formatting.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <returns>
            A JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Serializes the specified object to a JSON string using a collection of <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="converters">A collection converters used while serializing.</param>
            <returns>A JSON string representation of the object.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,Newtonsoft.Json.Formatting,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Serializes the specified object to a JSON string using formatting and a collection of <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="converters">A collection converters used while serializing.</param>
            <returns>A JSON string representation of the object.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Serializes the specified object to a JSON string using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="settings">The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to serialize the object.
            If this is null, default serialization settings will be used.</param>
            <returns>
            A JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,System.Type,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Serializes the specified object to a JSON string using a type, formatting and <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="settings">The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to serialize the object.
            If this is null, default serialization settings will be used.</param>
            <param name="type">
            The type of the value being serialized.
            This parameter is used when <see cref="T:Newtonsoft.Json.TypeNameHandling"/> is Auto to write out the type name if the type of the value does not match.
            Specifing the type is optional.
            </param>
            <returns>
            A JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,Newtonsoft.Json.Formatting,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Serializes the specified object to a JSON string using formatting and <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="settings">The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to serialize the object.
            If this is null, default serialization settings will be used.</param>
            <returns>
            A JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObject(System.Object,System.Type,Newtonsoft.Json.Formatting,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Serializes the specified object to a JSON string using a type, formatting and <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="settings">The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to serialize the object.
            If this is null, default serialization settings will be used.</param>
            <param name="type">
            The type of the value being serialized.
            This parameter is used when <see cref="T:Newtonsoft.Json.TypeNameHandling"/> is Auto to write out the type name if the type of the value does not match.
            Specifing the type is optional.
            </param>
            <returns>
            A JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObjectAsync(System.Object)">
            <summary>
            Asynchronously serializes the specified object to a JSON string.
            Serialization will happen on a new thread.
            </summary>
            <param name="value">The object to serialize.</param>
            <returns>
            A task that represents the asynchronous serialize operation. The value of the <c>TResult</c> parameter contains a JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObjectAsync(System.Object,Newtonsoft.Json.Formatting)">
            <summary>
            Asynchronously serializes the specified object to a JSON string using formatting.
            Serialization will happen on a new thread.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <returns>
            A task that represents the asynchronous serialize operation. The value of the <c>TResult</c> parameter contains a JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeObjectAsync(System.Object,Newtonsoft.Json.Formatting,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Asynchronously serializes the specified object to a JSON string using formatting and a collection of <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            Serialization will happen on a new thread.
            </summary>
            <param name="value">The object to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="settings">The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to serialize the object.
            If this is null, default serialization settings will be used.</param>
            <returns>
            A task that represents the asynchronous serialize operation. The value of the <c>TResult</c> parameter contains a JSON string representation of the object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject(System.String)">
            <summary>
            Deserializes the JSON to a .NET object.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject(System.String,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Deserializes the JSON to a .NET object using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject(System.String,System.Type)">
            <summary>
            Deserializes the JSON to the specified .NET type.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <param name="type">The <see cref="T:System.Type"/> of object being deserialized.</param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject``1(System.String)">
            <summary>
            Deserializes the JSON to the specified .NET type.
            </summary>
            <typeparam name="T">The type of the object to deserialize to.</typeparam>
            <param name="value">The JSON to deserialize.</param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeAnonymousType``1(System.String,``0)">
            <summary>
            Deserializes the JSON to the given anonymous type.
            </summary>
            <typeparam name="T">
            The anonymous type to deserialize to. This can't be specified
            traditionally and must be infered from the anonymous type passed
            as a parameter.
            </typeparam>
            <param name="value">The JSON to deserialize.</param>
            <param name="anonymousTypeObject">The anonymous type object.</param>
            <returns>The deserialized anonymous type from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeAnonymousType``1(System.String,``0,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Deserializes the JSON to the given anonymous type using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <typeparam name="T">
            The anonymous type to deserialize to. This can't be specified
            traditionally and must be infered from the anonymous type passed
            as a parameter.
            </typeparam>
            <param name="value">The JSON to deserialize.</param>
            <param name="anonymousTypeObject">The anonymous type object.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>The deserialized anonymous type from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject``1(System.String,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Deserializes the JSON to the specified .NET type using a collection of <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            </summary>
            <typeparam name="T">The type of the object to deserialize to.</typeparam>
            <param name="value">The JSON to deserialize.</param>
            <param name="converters">Converters to use while deserializing.</param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject``1(System.String,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Deserializes the JSON to the specified .NET type using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <typeparam name="T">The type of the object to deserialize to.</typeparam>
            <param name="value">The object to deserialize.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject(System.String,System.Type,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Deserializes the JSON to the specified .NET type using a collection of <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <param name="type">The type of the object to deserialize.</param>
            <param name="converters">Converters to use while deserializing.</param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObject(System.String,System.Type,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Deserializes the JSON to the specified .NET type using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <param name="type">The type of the object to deserialize to.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>The deserialized object from the JSON string.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObjectAsync``1(System.String)">
            <summary>
            Asynchronously deserializes the JSON to the specified .NET type.
            Deserialization will happen on a new thread.
            </summary>
            <typeparam name="T">The type of the object to deserialize to.</typeparam>
            <param name="value">The JSON to deserialize.</param>
            <returns>
            A task that represents the asynchronous deserialize operation. The value of the <c>TResult</c> parameter contains the deserialized object from the JSON string.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObjectAsync``1(System.String,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Asynchronously deserializes the JSON to the specified .NET type using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            Deserialization will happen on a new thread.
            </summary>
            <typeparam name="T">The type of the object to deserialize to.</typeparam>
            <param name="value">The JSON to deserialize.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>
            A task that represents the asynchronous deserialize operation. The value of the <c>TResult</c> parameter contains the deserialized object from the JSON string.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObjectAsync(System.String)">
            <summary>
            Asynchronously deserializes the JSON to the specified .NET type.
            Deserialization will happen on a new thread.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <returns>
            A task that represents the asynchronous deserialize operation. The value of the <c>TResult</c> parameter contains the deserialized object from the JSON string.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeObjectAsync(System.String,System.Type,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Asynchronously deserializes the JSON to the specified .NET type using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            Deserialization will happen on a new thread.
            </summary>
            <param name="value">The JSON to deserialize.</param>
            <param name="type">The type of the object to deserialize to.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>
            A task that represents the asynchronous deserialize operation. The value of the <c>TResult</c> parameter contains the deserialized object from the JSON string.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.PopulateObject(System.String,System.Object)">
            <summary>
            Populates the object with values from the JSON string.
            </summary>
            <param name="value">The JSON to populate values from.</param>
            <param name="target">The target object to populate values onto.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.PopulateObject(System.String,System.Object,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Populates the object with values from the JSON string using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The JSON to populate values from.</param>
            <param name="target">The target object to populate values onto.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.PopulateObjectAsync(System.String,System.Object,Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Asynchronously populates the object with values from the JSON string using <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            </summary>
            <param name="value">The JSON to populate values from.</param>
            <param name="target">The target object to populate values onto.</param>
            <param name="settings">
            The <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> used to deserialize the object.
            If this is null, default serialization settings will be used.
            </param>
            <returns>
            A task that represents the asynchronous populate operation.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeXmlNode(System.Xml.XmlNode)">
            <summary>
            Serializes the XML node to a JSON string.
            </summary>
            <param name="node">The node to serialize.</param>
            <returns>A JSON string of the XmlNode.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeXmlNode(System.Xml.XmlNode,Newtonsoft.Json.Formatting)">
            <summary>
            Serializes the XML node to a JSON string using formatting.
            </summary>
            <param name="node">The node to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <returns>A JSON string of the XmlNode.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeXmlNode(System.Xml.XmlNode,Newtonsoft.Json.Formatting,System.Boolean)">
            <summary>
            Serializes the XML node to a JSON string using formatting and omits the root object if <paramref name="omitRootObject"/> is <c>true</c>.
            </summary>
            <param name="node">The node to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="omitRootObject">Omits writing the root object.</param>
            <returns>A JSON string of the XmlNode.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeXmlNode(System.String)">
            <summary>
            Deserializes the XmlNode from a JSON string.
            </summary>
            <param name="value">The JSON string.</param>
            <returns>The deserialized XmlNode</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeXmlNode(System.String,System.String)">
            <summary>
            Deserializes the XmlNode from a JSON string nested in a root elment specified by <paramref name="deserializeRootElementName"/>.
            </summary>
            <param name="value">The JSON string.</param>
            <param name="deserializeRootElementName">The name of the root element to append when deserializing.</param>
            <returns>The deserialized XmlNode</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeXmlNode(System.String,System.String,System.Boolean)">
            <summary>
            Deserializes the XmlNode from a JSON string nested in a root elment specified by <paramref name="deserializeRootElementName"/>
            and writes a .NET array attribute for collections.
            </summary>
            <param name="value">The JSON string.</param>
            <param name="deserializeRootElementName">The name of the root element to append when deserializing.</param>
            <param name="writeArrayAttribute">
            A flag to indicate whether to write the Json.NET array attribute.
            This attribute helps preserve arrays when converting the written XML back to JSON.
            </param>
            <returns>The deserialized XmlNode</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeXNode(System.Xml.Linq.XObject)">
            <summary>
            Serializes the <see cref="T:System.Xml.Linq.XNode"/> to a JSON string.
            </summary>
            <param name="node">The node to convert to JSON.</param>
            <returns>A JSON string of the XNode.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeXNode(System.Xml.Linq.XObject,Newtonsoft.Json.Formatting)">
            <summary>
            Serializes the <see cref="T:System.Xml.Linq.XNode"/> to a JSON string using formatting.
            </summary>
            <param name="node">The node to convert to JSON.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <returns>A JSON string of the XNode.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.SerializeXNode(System.Xml.Linq.XObject,Newtonsoft.Json.Formatting,System.Boolean)">
            <summary>
            Serializes the <see cref="T:System.Xml.Linq.XNode"/> to a JSON string using formatting and omits the root object if <paramref name="omitRootObject"/> is <c>true</c>.
            </summary>
            <param name="node">The node to serialize.</param>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="omitRootObject">Omits writing the root object.</param>
            <returns>A JSON string of the XNode.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeXNode(System.String)">
            <summary>
            Deserializes the <see cref="T:System.Xml.Linq.XNode"/> from a JSON string.
            </summary>
            <param name="value">The JSON string.</param>
            <returns>The deserialized XNode</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeXNode(System.String,System.String)">
            <summary>
            Deserializes the <see cref="T:System.Xml.Linq.XNode"/> from a JSON string nested in a root elment specified by <paramref name="deserializeRootElementName"/>.
            </summary>
            <param name="value">The JSON string.</param>
            <param name="deserializeRootElementName">The name of the root element to append when deserializing.</param>
            <returns>The deserialized XNode</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonConvert.DeserializeXNode(System.String,System.String,System.Boolean)">
            <summary>
            Deserializes the <see cref="T:System.Xml.Linq.XNode"/> from a JSON string nested in a root elment specified by <paramref name="deserializeRootElementName"/>
            and writes a .NET array attribute for collections.
            </summary>
            <param name="value">The JSON string.</param>
            <param name="deserializeRootElementName">The name of the root element to append when deserializing.</param>
            <param name="writeArrayAttribute">
            A flag to indicate whether to write the Json.NET array attribute.
            This attribute helps preserve arrays when converting the written XML back to JSON.
            </param>
            <returns>The deserialized XNode</returns>
        </member>
        <member name="P:Newtonsoft.Json.JsonConvert.DefaultSettings">
            <summary>
            Gets or sets a function that creates default <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            Default settings are automatically used by serialization methods on <see cref="T:Newtonsoft.Json.JsonConvert"/>,
            and <see cref="M:Newtonsoft.Json.Linq.JToken.ToObject``1"/> and <see cref="M:Newtonsoft.Json.Linq.JToken.FromObject(System.Object)"/> on <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            To serialize without using any default settings create a <see cref="T:Newtonsoft.Json.JsonSerializer"/> with
            <see cref="M:Newtonsoft.Json.JsonSerializer.Create"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonConverterAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> to use the specified <see cref="T:Newtonsoft.Json.JsonConverter"/> when serializing the member or class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonConverterAttribute.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonConverterAttribute"/> class.
            </summary>
            <param name="converterType">Type of the converter.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonConverterAttribute.ConverterType">
            <summary>
            Gets the type of the converter.
            </summary>
            <value>The type of the converter.</value>
        </member>
        <member name="T:Newtonsoft.Json.JsonConverterCollection">
            <summary>
            Represents a collection of <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonDictionaryAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> how to serialize the collection.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonDictionaryAttribute.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonDictionaryAttribute"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonDictionaryAttribute.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonDictionaryAttribute"/> class with the specified container Id.
            </summary>
            <param name="id">The container Id.</param>
        </member>
        <member name="T:Newtonsoft.Json.JsonException">
            <summary>
            The exception thrown when an error occurs during Json serialization or deserialization.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonException.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonException"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonException.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonException"/> class
            with a specified error message.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonException.#ctor(System.String,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonException"/> class
            with a specified error message and a reference to the inner exception that is the cause of this exception.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
            <param name="innerException">The exception that is the cause of the current exception, or a null reference (Nothing in Visual Basic) if no inner exception is specified.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonException"/> class.
            </summary>
            <param name="info">The <see cref="T:System.Runtime.Serialization.SerializationInfo"/> that holds the serialized object data about the exception being thrown.</param>
            <param name="context">The <see cref="T:System.Runtime.Serialization.StreamingContext"/> that contains contextual information about the source or destination.</param>
            <exception cref="T:System.ArgumentNullException">The <paramref name="info"/> parameter is null. </exception>
            <exception cref="T:System.Runtime.Serialization.SerializationException">The class name is null or <see cref="P:System.Exception.HResult"/> is zero (0). </exception>
        </member>
        <member name="T:Newtonsoft.Json.JsonExtensionDataAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> to deserialize properties with no matching class member into the specified collection
            and write values during serialization.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonExtensionDataAttribute.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonExtensionDataAttribute"/> class.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonExtensionDataAttribute.WriteData">
            <summary>
            Gets or sets a value that indicates whether to write extension data when serializing the object.
            </summary>
            <value>
            	<c>true</c> to write extension data when serializing the object; otherwise, <c>false</c>. The default is <c>true</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonExtensionDataAttribute.ReadData">
            <summary>
            Gets or sets a value that indicates whether to read extension data when deserializing the object.
            </summary>
            <value>
            	<c>true</c> to read extension data when deserializing the object; otherwise, <c>false</c>. The default is <c>true</c>.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.JsonIgnoreAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> not to serialize the public field or public read/write property value.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonObjectAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> how to serialize the object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonObjectAttribute.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonObjectAttribute"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonObjectAttribute.#ctor(Newtonsoft.Json.MemberSerialization)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonObjectAttribute"/> class with the specified member serialization.
            </summary>
            <param name="memberSerialization">The member serialization.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonObjectAttribute.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonObjectAttribute"/> class with the specified container Id.
            </summary>
            <param name="id">The container Id.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonObjectAttribute.MemberSerialization">
            <summary>
            Gets or sets the member serialization.
            </summary>
            <value>The member serialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonObjectAttribute.ItemRequired">
            <summary>
            Gets or sets a value that indicates whether the object's properties are required.
            </summary>
            <value>
            	A value indicating whether the object's properties are required.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.JsonPropertyAttribute">
            <summary>
            Instructs the <see cref="T:Newtonsoft.Json.JsonSerializer"/> to always serialize the member with the specified name.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonPropertyAttribute.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonPropertyAttribute"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonPropertyAttribute.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonPropertyAttribute"/> class with the specified name.
            </summary>
            <param name="propertyName">Name of the property.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.ItemConverterType">
            <summary>
            Gets or sets the converter used when serializing the property's collection items.
            </summary>
            <value>The collection's items converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.NullValueHandling">
            <summary>
            Gets or sets the null value handling used when serializing this property.
            </summary>
            <value>The null value handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.DefaultValueHandling">
            <summary>
            Gets or sets the default value handling used when serializing this property.
            </summary>
            <value>The default value handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.ReferenceLoopHandling">
            <summary>
            Gets or sets the reference loop handling used when serializing this property.
            </summary>
            <value>The reference loop handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.ObjectCreationHandling">
            <summary>
            Gets or sets the object creation handling used when deserializing this property.
            </summary>
            <value>The object creation handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.TypeNameHandling">
            <summary>
            Gets or sets the type name handling used when serializing this property.
            </summary>
            <value>The type name handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.IsReference">
            <summary>
            Gets or sets whether this property's value is serialized as a reference.
            </summary>
            <value>Whether this property's value is serialized as a reference.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.Order">
            <summary>
            Gets or sets the order of serialization and deserialization of a member.
            </summary>
            <value>The numeric order of serialization or deserialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.Required">
            <summary>
            Gets or sets a value indicating whether this property is required.
            </summary>
            <value>
            	A value indicating whether this property is required.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.PropertyName">
            <summary>
            Gets or sets the name of the property.
            </summary>
            <value>The name of the property.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.ItemReferenceLoopHandling">
            <summary>
            Gets or sets the the reference loop handling used when serializing the property's collection items.
            </summary>
            <value>The collection's items reference loop handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.ItemTypeNameHandling">
            <summary>
            Gets or sets the the type name handling used when serializing the property's collection items.
            </summary>
            <value>The collection's items type name handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonPropertyAttribute.ItemIsReference">
            <summary>
            Gets or sets whether this property's collection items are serialized as a reference.
            </summary>
            <value>Whether this property's collection items are serialized as a reference.</value>
        </member>
        <member name="T:Newtonsoft.Json.JsonReaderException">
            <summary>
            The exception thrown when an error occurs while reading Json text.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReaderException.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonReaderException"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonReaderException.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonReaderException"/> class
            with a specified error message.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonReaderException.#ctor(System.String,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonReaderException"/> class
            with a specified error message and a reference to the inner exception that is the cause of this exception.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
            <param name="innerException">The exception that is the cause of the current exception, or a null reference (Nothing in Visual Basic) if no inner exception is specified.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonReaderException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonReaderException"/> class.
            </summary>
            <param name="info">The <see cref="T:System.Runtime.Serialization.SerializationInfo"/> that holds the serialized object data about the exception being thrown.</param>
            <param name="context">The <see cref="T:System.Runtime.Serialization.StreamingContext"/> that contains contextual information about the source or destination.</param>
            <exception cref="T:System.ArgumentNullException">The <paramref name="info"/> parameter is null. </exception>
            <exception cref="T:System.Runtime.Serialization.SerializationException">The class name is null or <see cref="P:System.Exception.HResult"/> is zero (0). </exception>
        </member>
        <member name="P:Newtonsoft.Json.JsonReaderException.LineNumber">
            <summary>
            Gets the line number indicating where the error occurred.
            </summary>
            <value>The line number indicating where the error occurred.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonReaderException.LinePosition">
            <summary>
            Gets the line position indicating where the error occurred.
            </summary>
            <value>The line position indicating where the error occurred.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonReaderException.Path">
            <summary>
            Gets the path to the JSON where the error occurred.
            </summary>
            <value>The path to the JSON where the error occurred.</value>
        </member>
        <member name="T:Newtonsoft.Json.JsonSerializationException">
            <summary>
            The exception thrown when an error occurs during Json serialization or deserialization.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializationException.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonSerializationException"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializationException.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonSerializationException"/> class
            with a specified error message.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializationException.#ctor(System.String,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonSerializationException"/> class
            with a specified error message and a reference to the inner exception that is the cause of this exception.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
            <param name="innerException">The exception that is the cause of the current exception, or a null reference (Nothing in Visual Basic) if no inner exception is specified.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializationException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonSerializationException"/> class.
            </summary>
            <param name="info">The <see cref="T:System.Runtime.Serialization.SerializationInfo"/> that holds the serialized object data about the exception being thrown.</param>
            <param name="context">The <see cref="T:System.Runtime.Serialization.StreamingContext"/> that contains contextual information about the source or destination.</param>
            <exception cref="T:System.ArgumentNullException">The <paramref name="info"/> parameter is null. </exception>
            <exception cref="T:System.Runtime.Serialization.SerializationException">The class name is null or <see cref="P:System.Exception.HResult"/> is zero (0). </exception>
        </member>
        <member name="T:Newtonsoft.Json.JsonSerializer">
            <summary>
            Serializes and deserializes objects into and from the JSON format.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> enables you to control how objects are encoded into JSON.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonSerializer"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Create">
            <summary>
            Creates a new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will not use default settings.
            </summary>
            <returns>
            A new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will not use default settings.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Create(Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Creates a new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance using the specified <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will not use default settings.
            </summary>
            <param name="settings">The settings to be applied to the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.</param>
            <returns>
            A new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance using the specified <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will not use default settings.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.CreateDefault">
            <summary>
            Creates a new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will use default settings.
            </summary>
            <returns>
            A new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will use default settings.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.CreateDefault(Newtonsoft.Json.JsonSerializerSettings)">
            <summary>
            Creates a new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance using the specified <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will use default settings.
            </summary>
            <param name="settings">The settings to be applied to the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.</param>
            <returns>
            A new <see cref="T:Newtonsoft.Json.JsonSerializer"/> instance using the specified <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/>.
            The <see cref="T:Newtonsoft.Json.JsonSerializer"/> will use default settings.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Populate(System.IO.TextReader,System.Object)">
            <summary>
            Populates the JSON values onto the target object.
            </summary>
            <param name="reader">The <see cref="T:System.IO.TextReader"/> that contains the JSON structure to reader values from.</param>
            <param name="target">The target object to populate values onto.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Populate(Newtonsoft.Json.JsonReader,System.Object)">
            <summary>
            Populates the JSON values onto the target object.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> that contains the JSON structure to reader values from.</param>
            <param name="target">The target object to populate values onto.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Deserialize(Newtonsoft.Json.JsonReader)">
            <summary>
            Deserializes the Json structure contained by the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> that contains the JSON structure to deserialize.</param>
            <returns>The <see cref="T:System.Object"/> being deserialized.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Deserialize(System.IO.TextReader,System.Type)">
            <summary>
            Deserializes the Json structure contained by the specified <see cref="T:System.IO.StringReader"/>
            into an instance of the specified type.
            </summary>
            <param name="reader">The <see cref="T:System.IO.TextReader"/> containing the object.</param>
            <param name="objectType">The <see cref="T:System.Type"/> of object being deserialized.</param>
            <returns>The instance of <paramref name="objectType"/> being deserialized.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Deserialize``1(Newtonsoft.Json.JsonReader)">
            <summary>
            Deserializes the Json structure contained by the specified <see cref="T:Newtonsoft.Json.JsonReader"/>
            into an instance of the specified type.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> containing the object.</param>
            <typeparam name="T">The type of the object to deserialize.</typeparam>
            <returns>The instance of <typeparamref name="T"/> being deserialized.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Deserialize(Newtonsoft.Json.JsonReader,System.Type)">
            <summary>
            Deserializes the Json structure contained by the specified <see cref="T:Newtonsoft.Json.JsonReader"/>
            into an instance of the specified type.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> containing the object.</param>
            <param name="objectType">The <see cref="T:System.Type"/> of object being deserialized.</param>
            <returns>The instance of <paramref name="objectType"/> being deserialized.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Serialize(System.IO.TextWriter,System.Object)">
            <summary>
            Serializes the specified <see cref="T:System.Object"/> and writes the Json structure
            to a <c>Stream</c> using the specified <see cref="T:System.IO.TextWriter"/>. 
            </summary>
            <param name="textWriter">The <see cref="T:System.IO.TextWriter"/> used to write the Json structure.</param>
            <param name="value">The <see cref="T:System.Object"/> to serialize.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Serialize(Newtonsoft.Json.JsonWriter,System.Object,System.Type)">
            <summary>
            Serializes the specified <see cref="T:System.Object"/> and writes the Json structure
            to a <c>Stream</c> using the specified <see cref="T:System.IO.TextWriter"/>. 
            </summary>
            <param name="jsonWriter">The <see cref="T:Newtonsoft.Json.JsonWriter"/> used to write the Json structure.</param>
            <param name="value">The <see cref="T:System.Object"/> to serialize.</param>
            <param name="objectType">
            The type of the value being serialized.
            This parameter is used when <see cref="P:Newtonsoft.Json.JsonSerializer.TypeNameHandling"/> is Auto to write out the type name if the type of the value does not match.
            Specifing the type is optional.
            </param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Serialize(System.IO.TextWriter,System.Object,System.Type)">
            <summary>
            Serializes the specified <see cref="T:System.Object"/> and writes the Json structure
            to a <c>Stream</c> using the specified <see cref="T:System.IO.TextWriter"/>. 
            </summary>
            <param name="textWriter">The <see cref="T:System.IO.TextWriter"/> used to write the Json structure.</param>
            <param name="value">The <see cref="T:System.Object"/> to serialize.</param>
            <param name="objectType">
            The type of the value being serialized.
            This parameter is used when <see cref="P:Newtonsoft.Json.JsonSerializer.TypeNameHandling"/> is Auto to write out the type name if the type of the value does not match.
            Specifing the type is optional.
            </param>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializer.Serialize(Newtonsoft.Json.JsonWriter,System.Object)">
            <summary>
            Serializes the specified <see cref="T:System.Object"/> and writes the Json structure
            to a <c>Stream</c> using the specified <see cref="T:Newtonsoft.Json.JsonWriter"/>. 
            </summary>
            <param name="jsonWriter">The <see cref="T:Newtonsoft.Json.JsonWriter"/> used to write the Json structure.</param>
            <param name="value">The <see cref="T:System.Object"/> to serialize.</param>
        </member>
        <member name="E:Newtonsoft.Json.JsonSerializer.Error">
            <summary>
            Occurs when the <see cref="T:Newtonsoft.Json.JsonSerializer"/> errors during serialization and deserialization.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.ReferenceResolver">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Serialization.IReferenceResolver"/> used by the serializer when resolving references.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.Binder">
            <summary>
            Gets or sets the <see cref="T:System.Runtime.Serialization.SerializationBinder"/> used by the serializer when resolving type names.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.TraceWriter">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Serialization.ITraceWriter"/> used by the serializer when writing trace messages.
            </summary>
            <value>The trace writer.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.TypeNameHandling">
            <summary>
            Gets or sets how type name writing and reading is handled by the serializer.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.TypeNameAssemblyFormat">
            <summary>
            Gets or sets how a type name assembly is written and resolved by the serializer.
            </summary>
            <value>The type name assembly format.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.PreserveReferencesHandling">
            <summary>
            Gets or sets how object references are preserved by the serializer.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.ReferenceLoopHandling">
            <summary>
            Get or set how reference loops (e.g. a class referencing itself) is handled.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.MissingMemberHandling">
            <summary>
            Get or set how missing members (e.g. JSON contains a property that isn't a member on the object) are handled during deserialization.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.NullValueHandling">
            <summary>
            Get or set how null values are handled during serialization and deserialization.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.DefaultValueHandling">
            <summary>
            Get or set how null default are handled during serialization and deserialization.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.ObjectCreationHandling">
            <summary>
            Gets or sets how objects are created during deserialization.
            </summary>
            <value>The object creation handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.ConstructorHandling">
            <summary>
            Gets or sets how constructors are used during deserialization.
            </summary>
            <value>The constructor handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.MetadataPropertyHandling">
            <summary>
            Gets or sets how metadata properties are used during deserialization.
            </summary>
            <value>The metadata properties handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.Converters">
            <summary>
            Gets a collection <see cref="T:Newtonsoft.Json.JsonConverter"/> that will be used during serialization.
            </summary>
            <value>Collection <see cref="T:Newtonsoft.Json.JsonConverter"/> that will be used during serialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.ContractResolver">
            <summary>
            Gets or sets the contract resolver used by the serializer when
            serializing .NET objects to JSON and vice versa.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.Context">
            <summary>
            Gets or sets the <see cref="T:System.Runtime.Serialization.StreamingContext"/> used by the serializer when invoking serialization callback methods.
            </summary>
            <value>The context.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.Formatting">
            <summary>
            Indicates how JSON text output is formatted.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.DateFormatHandling">
            <summary>
            Get or set how dates are written to JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.DateTimeZoneHandling">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> time zones are handling during serialization and deserialization.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.DateParseHandling">
            <summary>
            Get or set how date formatted strings, e.g. "\/Date(1198908717056)\/" and "2012-03-21T05:40Z", are parsed when reading JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.FloatParseHandling">
            <summary>
            Get or set how floating point numbers, e.g. 1.0 and 9.9, are parsed when reading JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.FloatFormatHandling">
            <summary>
            Get or set how special floating point numbers, e.g. <see cref="F:System.Double.NaN"/>,
            <see cref="F:System.Double.PositiveInfinity"/> and <see cref="F:System.Double.NegativeInfinity"/>,
            are written as JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.StringEscapeHandling">
            <summary>
            Get or set how strings are escaped when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.DateFormatString">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> and <see cref="T:System.DateTimeOffset"/> values are formatting when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.Culture">
            <summary>
            Gets or sets the culture used when reading JSON. Defaults to <see cref="P:System.Globalization.CultureInfo.InvariantCulture"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.MaxDepth">
            <summary>
            Gets or sets the maximum depth allowed when reading JSON. Reading past this depth will throw a <see cref="T:Newtonsoft.Json.JsonReaderException"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializer.CheckAdditionalContent">
            <summary>
            Gets a value indicating whether there will be a check for additional JSON content after deserializing an object.
            </summary>
            <value>
            	<c>true</c> if there will be a check for additional JSON content after deserializing an object; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.JsonSerializerSettings">
            <summary>
            Specifies the settings on a <see cref="T:Newtonsoft.Json.JsonSerializer"/> object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonSerializerSettings.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonSerializerSettings"/> class.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.ReferenceLoopHandling">
            <summary>
            Gets or sets how reference loops (e.g. a class referencing itself) is handled.
            </summary>
            <value>Reference loop handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.MissingMemberHandling">
            <summary>
            Gets or sets how missing members (e.g. JSON contains a property that isn't a member on the object) are handled during deserialization.
            </summary>
            <value>Missing member handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.ObjectCreationHandling">
            <summary>
            Gets or sets how objects are created during deserialization.
            </summary>
            <value>The object creation handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.NullValueHandling">
            <summary>
            Gets or sets how null values are handled during serialization and deserialization.
            </summary>
            <value>Null value handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.DefaultValueHandling">
            <summary>
            Gets or sets how null default are handled during serialization and deserialization.
            </summary>
            <value>The default value handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.Converters">
            <summary>
            Gets or sets a collection <see cref="T:Newtonsoft.Json.JsonConverter"/> that will be used during serialization.
            </summary>
            <value>The converters.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.PreserveReferencesHandling">
            <summary>
            Gets or sets how object references are preserved by the serializer.
            </summary>
            <value>The preserve references handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.TypeNameHandling">
            <summary>
            Gets or sets how type name writing and reading is handled by the serializer.
            </summary>
            <value>The type name handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.MetadataPropertyHandling">
            <summary>
            Gets or sets how metadata properties are used during deserialization.
            </summary>
            <value>The metadata properties handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.TypeNameAssemblyFormat">
            <summary>
            Gets or sets how a type name assembly is written and resolved by the serializer.
            </summary>
            <value>The type name assembly format.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.ConstructorHandling">
            <summary>
            Gets or sets how constructors are used during deserialization.
            </summary>
            <value>The constructor handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.ContractResolver">
            <summary>
            Gets or sets the contract resolver used by the serializer when
            serializing .NET objects to JSON and vice versa.
            </summary>
            <value>The contract resolver.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.ReferenceResolver">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Serialization.IReferenceResolver"/> used by the serializer when resolving references.
            </summary>
            <value>The reference resolver.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.TraceWriter">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Serialization.ITraceWriter"/> used by the serializer when writing trace messages.
            </summary>
            <value>The trace writer.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.Binder">
            <summary>
            Gets or sets the <see cref="T:System.Runtime.Serialization.SerializationBinder"/> used by the serializer when resolving type names.
            </summary>
            <value>The binder.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.Error">
            <summary>
            Gets or sets the error handler called during serialization and deserialization.
            </summary>
            <value>The error handler called during serialization and deserialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.Context">
            <summary>
            Gets or sets the <see cref="T:System.Runtime.Serialization.StreamingContext"/> used by the serializer when invoking serialization callback methods.
            </summary>
            <value>The context.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.DateFormatString">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> and <see cref="T:System.DateTimeOffset"/> values are formatting when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.MaxDepth">
            <summary>
            Gets or sets the maximum depth allowed when reading JSON. Reading past this depth will throw a <see cref="T:Newtonsoft.Json.JsonReaderException"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.Formatting">
            <summary>
            Indicates how JSON text output is formatted.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.DateFormatHandling">
            <summary>
            Get or set how dates are written to JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.DateTimeZoneHandling">
            <summary>
            Get or set how <see cref="T:System.DateTime"/> time zones are handling during serialization and deserialization.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.DateParseHandling">
            <summary>
            Get or set how date formatted strings, e.g. "\/Date(1198908717056)\/" and "2012-03-21T05:40Z", are parsed when reading JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.FloatFormatHandling">
            <summary>
            Get or set how special floating point numbers, e.g. <see cref="F:System.Double.NaN"/>,
            <see cref="F:System.Double.PositiveInfinity"/> and <see cref="F:System.Double.NegativeInfinity"/>,
            are written as JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.FloatParseHandling">
            <summary>
            Get or set how floating point numbers, e.g. 1.0 and 9.9, are parsed when reading JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.StringEscapeHandling">
            <summary>
            Get or set how strings are escaped when writing JSON text.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.Culture">
            <summary>
            Gets or sets the culture used when reading JSON. Defaults to <see cref="P:System.Globalization.CultureInfo.InvariantCulture"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonSerializerSettings.CheckAdditionalContent">
            <summary>
            Gets a value indicating whether there will be a check for additional content after deserializing an object.
            </summary>
            <value>
            	<c>true</c> if there will be a check for additional content after deserializing an object; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.JsonTextReader">
            <summary>
            Represents a reader that provides fast, non-cached, forward-only access to JSON text data.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.#ctor(System.IO.TextReader)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonReader"/> class with the specified <see cref="T:System.IO.TextReader"/>.
            </summary>
            <param name="reader">The <c>TextReader</c> containing the XML data to read.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.Read">
            <summary>
            Reads the next JSON token from the stream.
            </summary>
            <returns>
            true if the next token was read successfully; false if there are no more tokens to read.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.ReadAsBytes">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:Byte[]"/>.
            </summary>
            <returns>
            A <see cref="T:Byte[]"/> or a null reference if the next JSON token is null. This method will return <c>null</c> at the end of an array.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.ReadAsDecimal">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.ReadAsInt32">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.ReadAsString">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.String"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.ReadAsDateTime">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.ReadAsDateTimeOffset">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.DateTimeOffset"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.Close">
            <summary>
            Changes the state to closed. 
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextReader.HasLineInfo">
            <summary>
            Gets a value indicating whether the class can return line information.
            </summary>
            <returns>
            	<c>true</c> if LineNumber and LinePosition can be provided; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.JsonTextReader.LineNumber">
            <summary>
            Gets the current line number.
            </summary>
            <value>
            The current line number or 0 if no line information is available (for example, HasLineInfo returns false).
            </value>
        </member>
        <member name="P:Newtonsoft.Json.JsonTextReader.LinePosition">
            <summary>
            Gets the current line position.
            </summary>
            <value>
            The current line position or 0 if no line information is available (for example, HasLineInfo returns false).
            </value>
        </member>
        <member name="T:Newtonsoft.Json.JsonTextWriter">
            <summary>
            Represents a writer that provides a fast, non-cached, forward-only way of generating Json data.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.#ctor(System.IO.TextWriter)">
            <summary>
            Creates an instance of the <c>JsonWriter</c> class using the specified <see cref="T:System.IO.TextWriter"/>. 
            </summary>
            <param name="textWriter">The <c>TextWriter</c> to write to.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.Flush">
            <summary>
            Flushes whatever is in the buffer to the underlying streams and also flushes the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.Close">
            <summary>
            Closes this stream and the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteStartObject">
            <summary>
            Writes the beginning of a Json object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteStartArray">
            <summary>
            Writes the beginning of a Json array.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteStartConstructor(System.String)">
            <summary>
            Writes the start of a constructor with the given name.
            </summary>
            <param name="name">The name of the constructor.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteEnd(Newtonsoft.Json.JsonToken)">
            <summary>
            Writes the specified end token.
            </summary>
            <param name="token">The end token to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WritePropertyName(System.String)">
            <summary>
            Writes the property name of a name/value pair on a Json object.
            </summary>
            <param name="name">The name of the property.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WritePropertyName(System.String,System.Boolean)">
            <summary>
            Writes the property name of a name/value pair on a JSON object.
            </summary>
            <param name="name">The name of the property.</param>
            <param name="escape">A flag to indicate whether the text should be escaped when it is written as a JSON property name.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteIndent">
            <summary>
            Writes indent characters.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValueDelimiter">
            <summary>
            Writes the JSON value delimiter.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteIndentSpace">
            <summary>
            Writes an indent space.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Object)">
            <summary>
            Writes a <see cref="T:System.Object"/> value.
            An error will raised if the value cannot be written as a single JSON token.
            </summary>
            <param name="value">The <see cref="T:System.Object"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteNull">
            <summary>
            Writes a null value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteUndefined">
            <summary>
            Writes an undefined value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteRaw(System.String)">
            <summary>
            Writes raw JSON.
            </summary>
            <param name="json">The raw JSON to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.String)">
            <summary>
            Writes a <see cref="T:System.String"/> value.
            </summary>
            <param name="value">The <see cref="T:System.String"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Int32)">
            <summary>
            Writes a <see cref="T:System.Int32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.UInt32)">
            <summary>
            Writes a <see cref="T:System.UInt32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Int64)">
            <summary>
            Writes a <see cref="T:System.Int64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.UInt64)">
            <summary>
            Writes a <see cref="T:System.UInt64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Single)">
            <summary>
            Writes a <see cref="T:System.Single"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Single"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Nullable{System.Single})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Double)">
            <summary>
            Writes a <see cref="T:System.Double"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Double"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Nullable{System.Double})">
            <summary>
            Writes a <see cref="T:System.Nullable`1"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Nullable`1"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Boolean)">
            <summary>
            Writes a <see cref="T:System.Boolean"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Boolean"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Int16)">
            <summary>
            Writes a <see cref="T:System.Int16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.UInt16)">
            <summary>
            Writes a <see cref="T:System.UInt16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Char)">
            <summary>
            Writes a <see cref="T:System.Char"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Char"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Byte)">
            <summary>
            Writes a <see cref="T:System.Byte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Byte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.SByte)">
            <summary>
            Writes a <see cref="T:System.SByte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.SByte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Decimal)">
            <summary>
            Writes a <see cref="T:System.Decimal"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Decimal"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.DateTime)">
            <summary>
            Writes a <see cref="T:System.DateTime"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTime"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Byte[])">
            <summary>
            Writes a <see cref="T:Byte[]"/> value.
            </summary>
            <param name="value">The <see cref="T:Byte[]"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.DateTimeOffset)">
            <summary>
            Writes a <see cref="T:System.DateTimeOffset"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTimeOffset"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Guid)">
            <summary>
            Writes a <see cref="T:System.Guid"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Guid"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.TimeSpan)">
            <summary>
            Writes a <see cref="T:System.TimeSpan"/> value.
            </summary>
            <param name="value">The <see cref="T:System.TimeSpan"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteValue(System.Uri)">
            <summary>
            Writes a <see cref="T:System.Uri"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Uri"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteComment(System.String)">
            <summary>
            Writes out a comment <code>/*...*/</code> containing the specified text. 
            </summary>
            <param name="text">Text to place inside the comment.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonTextWriter.WriteWhitespace(System.String)">
            <summary>
            Writes out the given white space.
            </summary>
            <param name="ws">The string of white space characters.</param>
        </member>
        <member name="P:Newtonsoft.Json.JsonTextWriter.Indentation">
            <summary>
            Gets or sets how many IndentChars to write for each level in the hierarchy when <see cref="T:Newtonsoft.Json.Formatting"/> is set to <c>Formatting.Indented</c>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonTextWriter.QuoteChar">
            <summary>
            Gets or sets which character to use to quote attribute values.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonTextWriter.IndentChar">
            <summary>
            Gets or sets which character to use for indenting when <see cref="T:Newtonsoft.Json.Formatting"/> is set to <c>Formatting.Indented</c>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonTextWriter.QuoteName">
            <summary>
            Gets or sets a value indicating whether object names will be surrounded with quotes.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonToken">
            <summary>
            Specifies the type of Json token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.None">
            <summary>
            This is returned by the <see cref="T:Newtonsoft.Json.JsonReader"/> if a <see cref="M:Newtonsoft.Json.JsonReader.Read"/> method has not been called. 
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.StartObject">
            <summary>
            An object start token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.StartArray">
            <summary>
            An array start token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.StartConstructor">
            <summary>
            A constructor start token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.PropertyName">
            <summary>
            An object property name.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Comment">
            <summary>
            A comment.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Raw">
            <summary>
            Raw JSON.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Integer">
            <summary>
            An integer.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Float">
            <summary>
            A float.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.String">
            <summary>
            A string.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Boolean">
            <summary>
            A boolean.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Null">
            <summary>
            A null token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Undefined">
            <summary>
            An undefined token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.EndObject">
            <summary>
            An object end token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.EndArray">
            <summary>
            An array end token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.EndConstructor">
            <summary>
            A constructor end token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Date">
            <summary>
            A Date.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.JsonToken.Bytes">
            <summary>
            Byte data.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.JsonValidatingReader">
            <summary>
            Represents a reader that provides <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> validation.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.#ctor(Newtonsoft.Json.JsonReader)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonValidatingReader"/> class that
            validates the content returned from the given <see cref="T:Newtonsoft.Json.JsonReader"/>.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> to read from while validating.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.ReadAsInt32">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.ReadAsBytes">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:Byte[]"/>.
            </summary>
            <returns>
            A <see cref="T:Byte[]"/> or a null reference if the next JSON token is null.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.ReadAsDecimal">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.ReadAsString">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.String"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.ReadAsDateTime">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.ReadAsDateTimeOffset">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.JsonValidatingReader.Read">
            <summary>
            Reads the next JSON token from the stream.
            </summary>
            <returns>
            true if the next token was read successfully; false if there are no more tokens to read.
            </returns>
        </member>
        <member name="E:Newtonsoft.Json.JsonValidatingReader.ValidationEventHandler">
            <summary>
            Sets an event handler for receiving schema validation errors.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.Value">
            <summary>
            Gets the text value of the current JSON token.
            </summary>
            <value></value>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.Depth">
            <summary>
            Gets the depth of the current token in the JSON document.
            </summary>
            <value>The depth of the current token in the JSON document.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.Path">
            <summary>
            Gets the path of the current JSON token. 
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.QuoteChar">
            <summary>
            Gets the quotation mark character used to enclose the value of a string.
            </summary>
            <value></value>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.TokenType">
            <summary>
            Gets the type of the current JSON token.
            </summary>
            <value></value>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.ValueType">
            <summary>
            Gets the Common Language Runtime (CLR) type for the current JSON token.
            </summary>
            <value></value>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.Schema">
            <summary>
            Gets or sets the schema.
            </summary>
            <value>The schema.</value>
        </member>
        <member name="P:Newtonsoft.Json.JsonValidatingReader.Reader">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.JsonReader"/> used to construct this <see cref="T:Newtonsoft.Json.JsonValidatingReader"/>.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.JsonReader"/> specified in the constructor.</value>
        </member>
        <member name="T:Newtonsoft.Json.JsonWriterException">
            <summary>
            The exception thrown when an error occurs while reading Json text.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriterException.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonWriterException"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriterException.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonWriterException"/> class
            with a specified error message.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriterException.#ctor(System.String,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonWriterException"/> class
            with a specified error message and a reference to the inner exception that is the cause of this exception.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
            <param name="innerException">The exception that is the cause of the current exception, or a null reference (Nothing in Visual Basic) if no inner exception is specified.</param>
        </member>
        <member name="M:Newtonsoft.Json.JsonWriterException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.JsonWriterException"/> class.
            </summary>
            <param name="info">The <see cref="T:System.Runtime.Serialization.SerializationInfo"/> that holds the serialized object data about the exception being thrown.</param>
            <param name="context">The <see cref="T:System.Runtime.Serialization.StreamingContext"/> that contains contextual information about the source or destination.</param>
            <exception cref="T:System.ArgumentNullException">The <paramref name="info"/> parameter is null. </exception>
            <exception cref="T:System.Runtime.Serialization.SerializationException">The class name is null or <see cref="P:System.Exception.HResult"/> is zero (0). </exception>
        </member>
        <member name="P:Newtonsoft.Json.JsonWriterException.Path">
            <summary>
            Gets the path to the JSON where the error occurred.
            </summary>
            <value>The path to the JSON where the error occurred.</value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.Extensions">
            <summary>
            Contains the LINQ to JSON extension methods.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Ancestors``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns a collection of tokens that contains the ancestors of every token in the source collection.
            </summary>
            <typeparam name="T">The type of the objects in source, constrained to <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</typeparam>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the ancestors of every node in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Descendants``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns a collection of tokens that contains the descendants of every token in the source collection.
            </summary>
            <typeparam name="T">The type of the objects in source, constrained to <see cref="T:Newtonsoft.Json.Linq.JContainer"/>.</typeparam>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the descendants of every node in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Properties(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JObject})">
            <summary>
            Returns a collection of child properties of every object in the source collection.
            </summary>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JObject"/> that contains the source collection.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JProperty"/> that contains the properties of every object in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Values(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JToken},System.Object)">
            <summary>
            Returns a collection of child values of every object in the source collection with the given key.
            </summary>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <param name="key">The token key.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the values of every node in the source collection with the given key.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Values(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JToken})">
            <summary>
            Returns a collection of child values of every object in the source collection.
            </summary>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the values of every node in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Values``1(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JToken},System.Object)">
            <summary>
            Returns a collection of converted child values of every object in the source collection with the given key.
            </summary>
            <typeparam name="U">The type to convert the values to.</typeparam>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <param name="key">The token key.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> that contains the converted values of every node in the source collection with the given key.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Values``1(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JToken})">
            <summary>
            Returns a collection of converted child values of every object in the source collection.
            </summary>
            <typeparam name="U">The type to convert the values to.</typeparam>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> that contains the converted values of every node in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Value``1(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JToken})">
            <summary>
            Converts the value.
            </summary>
            <typeparam name="U">The type to convert the value to.</typeparam>
            <param name="value">A <see cref="T:Newtonsoft.Json.Linq.JToken"/> cast as a <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</param>
            <returns>A converted value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Value``2(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Converts the value.
            </summary>
            <typeparam name="T">The source collection type.</typeparam>
            <typeparam name="U">The type to convert the value to.</typeparam>
            <param name="value">A <see cref="T:Newtonsoft.Json.Linq.JToken"/> cast as a <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</param>
            <returns>A converted value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Children``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns a collection of child tokens of every array in the source collection.
            </summary>
            <typeparam name="T">The source collection type.</typeparam>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the values of every node in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.Children``2(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns a collection of converted child tokens of every array in the source collection.
            </summary>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <typeparam name="U">The type to convert the values to.</typeparam>
            <typeparam name="T">The source collection type.</typeparam>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> that contains the converted values of every node in the source collection.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.AsJEnumerable(System.Collections.Generic.IEnumerable{Newtonsoft.Json.Linq.JToken})">
            <summary>
            Returns the input typed as <see cref="T:Newtonsoft.Json.Linq.IJEnumerable`1"/>.
            </summary>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>The input typed as <see cref="T:Newtonsoft.Json.Linq.IJEnumerable`1"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.Extensions.AsJEnumerable``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns the input typed as <see cref="T:Newtonsoft.Json.Linq.IJEnumerable`1"/>.
            </summary>
            <typeparam name="T">The source collection type.</typeparam>
            <param name="source">An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the source collection.</param>
            <returns>The input typed as <see cref="T:Newtonsoft.Json.Linq.IJEnumerable`1"/>.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Linq.IJEnumerable`1">
            <summary>
            Represents a collection of <see cref="T:Newtonsoft.Json.Linq.JToken"/> objects.
            </summary>
            <typeparam name="T">The type of token</typeparam>
        </member>
        <member name="P:Newtonsoft.Json.Linq.IJEnumerable`1.Item(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.IJEnumerable`1"/> with the specified key.
            </summary>
            <value></value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JArray">
            <summary>
            Represents a JSON array.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\LinqToJsonTests.cs" region="LinqToJsonCreateParseArray" title="Parsing a JSON Array from Text" />
            </example>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JContainer">
            <summary>
            Represents a token that can contain other tokens.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JToken">
            <summary>
            Represents an abstract JSON token.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.DeepEquals(Newtonsoft.Json.Linq.JToken,Newtonsoft.Json.Linq.JToken)">
            <summary>
            Compares the values of two tokens, including the values of all descendant tokens.
            </summary>
            <param name="t1">The first <see cref="T:Newtonsoft.Json.Linq.JToken"/> to compare.</param>
            <param name="t2">The second <see cref="T:Newtonsoft.Json.Linq.JToken"/> to compare.</param>
            <returns>true if the tokens are equal; otherwise false.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.AddAfterSelf(System.Object)">
            <summary>
            Adds the specified content immediately after this token.
            </summary>
            <param name="content">A content object that contains simple content or a collection of content objects to be added after this token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.AddBeforeSelf(System.Object)">
            <summary>
            Adds the specified content immediately before this token.
            </summary>
            <param name="content">A content object that contains simple content or a collection of content objects to be added before this token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Ancestors">
            <summary>
            Returns a collection of the ancestor tokens of this token.
            </summary>
            <returns>A collection of the ancestor tokens of this token.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.AfterSelf">
            <summary>
            Returns a collection of the sibling tokens after this token, in document order.
            </summary>
            <returns>A collection of the sibling tokens after this tokens, in document order.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.BeforeSelf">
            <summary>
            Returns a collection of the sibling tokens before this token, in document order.
            </summary>
            <returns>A collection of the sibling tokens before this token, in document order.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Value``1(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key converted to the specified type.
            </summary>
            <typeparam name="T">The type to convert the token to.</typeparam>
            <param name="key">The token key.</param>
            <returns>The converted token value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Children">
            <summary>
            Returns a collection of the child tokens of this token, in document order.
            </summary>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> containing the child tokens of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>, in document order.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Children``1">
            <summary>
            Returns a collection of the child tokens of this token, in document order, filtered by the specified type.
            </summary>
            <typeparam name="T">The type to filter the child tokens on.</typeparam>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JEnumerable`1"/> containing the child tokens of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>, in document order.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Values``1">
            <summary>
            Returns a collection of the child values of this token, in document order.
            </summary>
            <typeparam name="T">The type to convert the values to.</typeparam>
            <returns>A <see cref="T:System.Collections.Generic.IEnumerable`1"/> containing the child values of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>, in document order.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Remove">
            <summary>
            Removes this token from its parent.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.Replace(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Replaces this token with the specified token.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Writes this token to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.ToString">
            <summary>
            Returns the indented JSON for this token.
            </summary>
            <returns>
            The indented JSON for this token.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.ToString(Newtonsoft.Json.Formatting,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Returns the JSON for this token using the given formatting and converters.
            </summary>
            <param name="formatting">Indicates how the output is formatted.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
            <returns>The JSON for this token using the given formatting and converters.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Boolean">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Boolean"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.DateTimeOffset">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.DateTimeOffset"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Boolean}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Int64">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Int64"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.DateTime}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.DateTimeOffset}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Decimal}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Double}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Char}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Int32">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Int32"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Int16">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Int16"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.UInt16">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.UInt16"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Char">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Char"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Byte">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Byte"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.SByte">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.SByte"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Int32}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Int16}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.UInt16}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Byte}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.SByte}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.DateTime">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.DateTime"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Int64}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Single}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Decimal">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Decimal"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.UInt32}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.UInt64}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Nullable`1"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Double">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Double"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Single">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Single"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.String">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.String"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.UInt32">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.UInt32"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.UInt64">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.UInt64"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Byte[]">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Byte[]"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Guid">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Guid"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.Guid}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Guid"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.TimeSpan">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.TimeSpan"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Nullable{System.TimeSpan}">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.TimeSpan"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Explicit(Newtonsoft.Json.Linq.JToken)~System.Uri">
            <summary>
            Performs an explicit conversion from <see cref="T:Newtonsoft.Json.Linq.JToken"/> to <see cref="T:System.Uri"/>.
            </summary>
            <param name="value">The value.</param>
            <returns>The result of the conversion.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Implicit(System.Boolean)~Newtonsoft.Json.Linq.JToken">
            <summary>
            Performs an implicit conversion from <see cref="T:System.Boolean"/> to <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <param name="value">The value to create a <see cref="T:Newtonsoft.Json.Linq.JValue"/> from.</param>
            <returns>The <see cref="T:Newtonsoft.Json.Linq.JValue"/> initialized with the specified value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.op_Implicit(System.DateTimeOffset)~Newtonsoft.Json.Linq.JToken">
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        <member name="M:Newtonsoft.Json.Linq.JToken.System#Dynamic#IDynamicMetaObjectProvider#GetMetaObject(System.Linq.Expressions.Expression)">
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            <param name="parameter">The expression tree representation of the runtime value.</param>
            <returns>
            The <see cref="T:System.Dynamic.DynamicMetaObject"/> to bind this object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JToken.DeepClone">
            <summary>
            Creates a new instance of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>. All child tokens are recursively cloned.
            </summary>
            <returns>A new instance of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.EqualityComparer">
            <summary>
            Gets a comparer that can compare two tokens for value equality.
            </summary>
            <value>A <see cref="T:Newtonsoft.Json.Linq.JTokenEqualityComparer"/> that can compare two nodes for value equality.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Parent">
            <summary>
            Gets or sets the parent.
            </summary>
            <value>The parent.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Root">
            <summary>
            Gets the root <see cref="T:Newtonsoft.Json.Linq.JToken"/> of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The root <see cref="T:Newtonsoft.Json.Linq.JToken"/> of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Type">
            <summary>
            Gets the node type for this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The type.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.HasValues">
            <summary>
            Gets a value indicating whether this token has child tokens.
            </summary>
            <value>
            	<c>true</c> if this token has child values; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Next">
            <summary>
            Gets the next sibling token of this node.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the next sibling token.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Previous">
            <summary>
            Gets the previous sibling token of this node.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> that contains the previous sibling token.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Path">
            <summary>
            Gets the path of the JSON token. 
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Item(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.First">
            <summary>
            Get the first child token of this token.
            </summary>
            <value>A <see cref="T:Newtonsoft.Json.Linq.JToken"/> containing the first child token of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JToken.Last">
            <summary>
            Get the last child token of this token.
            </summary>
            <value>A <see cref="T:Newtonsoft.Json.Linq.JToken"/> containing the last child token of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</value>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.OnAddingNew(System.ComponentModel.AddingNewEventArgs)">
            <summary>
            Raises the <see cref="E:Newtonsoft.Json.Linq.JContainer.AddingNew"/> event.
            </summary>
            <param name="e">The <see cref="T:System.ComponentModel.AddingNewEventArgs"/> instance containing the event data.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.OnListChanged(System.ComponentModel.ListChangedEventArgs)">
            <summary>
            Raises the <see cref="E:Newtonsoft.Json.Linq.JContainer.ListChanged"/> event.
            </summary>
            <param name="e">The <see cref="T:System.ComponentModel.ListChangedEventArgs"/> instance containing the event data.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.OnCollectionChanged(System.Collections.Specialized.NotifyCollectionChangedEventArgs)">
            <summary>
            Raises the <see cref="E:Newtonsoft.Json.Linq.JContainer.CollectionChanged"/> event.
            </summary>
            <param name="e">The <see cref="T:System.Collections.Specialized.NotifyCollectionChangedEventArgs"/> instance containing the event data.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.Children">
            <summary>
            Returns a collection of the child tokens of this token, in document order.
            </summary>
            <returns>
            An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of <see cref="T:Newtonsoft.Json.Linq.JToken"/> containing the child tokens of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>, in document order.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.Values``1">
            <summary>
            Returns a collection of the child values of this token, in document order.
            </summary>
            <typeparam name="T">The type to convert the values to.</typeparam>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerable`1"/> containing the child values of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>, in document order.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.Descendants">
            <summary>
            Returns a collection of the descendant tokens for this token in document order.
            </summary>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> containing the descendant tokens of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.Add(System.Object)">
            <summary>
            Adds the specified content as children of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <param name="content">The content to be added.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.AddFirst(System.Object)">
            <summary>
            Adds the specified content as the first children of this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <param name="content">The content to be added.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.CreateWriter">
            <summary>
            Creates an <see cref="T:Newtonsoft.Json.JsonWriter"/> that can be used to add tokens to the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <returns>An <see cref="T:Newtonsoft.Json.JsonWriter"/> that is ready to have content written to it.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.ReplaceAll(System.Object)">
            <summary>
            Replaces the children nodes of this token with the specified content.
            </summary>
            <param name="content">The content.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.RemoveAll">
            <summary>
            Removes the child nodes from this token.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.Merge(System.Object)">
            <summary>
            Merge the specified content into this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <param name="content">The content to be merged.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JContainer.Merge(System.Object,Newtonsoft.Json.Linq.JsonMergeSettings)">
            <summary>
            Merge the specified content into this <see cref="T:Newtonsoft.Json.Linq.JToken"/> using <see cref="T:Newtonsoft.Json.Linq.JsonMergeSettings"/>.
            </summary>
            <param name="content">The content to be merged.</param>
            <param name="settings">The <see cref="T:Newtonsoft.Json.Linq.JsonMergeSettings"/> used to merge the content.</param>
        </member>
        <member name="E:Newtonsoft.Json.Linq.JContainer.ListChanged">
            <summary>
            Occurs when the list changes or an item in the list changes.
            </summary>
        </member>
        <member name="E:Newtonsoft.Json.Linq.JContainer.AddingNew">
            <summary>
            Occurs before an item is added to the collection.
            </summary>
        </member>
        <member name="E:Newtonsoft.Json.Linq.JContainer.CollectionChanged">
            <summary>
            Occurs when the items list of the collection has changed, or the collection is reset.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JContainer.ChildrenTokens">
            <summary>
            Gets the container's children tokens.
            </summary>
            <value>The container's children tokens.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JContainer.HasValues">
            <summary>
            Gets a value indicating whether this token has child tokens.
            </summary>
            <value>
            	<c>true</c> if this token has child values; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JContainer.First">
            <summary>
            Get the first child token of this token.
            </summary>
            <value>
            A <see cref="T:Newtonsoft.Json.Linq.JToken"/> containing the first child token of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JContainer.Last">
            <summary>
            Get the last child token of this token.
            </summary>
            <value>
            A <see cref="T:Newtonsoft.Json.Linq.JToken"/> containing the last child token of the <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JContainer.Count">
            <summary>
            Gets the count of child JSON tokens.
            </summary>
            <value>The count of child JSON tokens</value>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JArray"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.#ctor(Newtonsoft.Json.Linq.JArray)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JArray"/> class from another <see cref="T:Newtonsoft.Json.Linq.JArray"/> object.
            </summary>
            <param name="other">A <see cref="T:Newtonsoft.Json.Linq.JArray"/> object to copy from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.#ctor(System.Object[])">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JArray"/> class with the specified content.
            </summary>
            <param name="content">The contents of the array.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.#ctor(System.Object)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JArray"/> class with the specified content.
            </summary>
            <param name="content">The contents of the array.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Load(Newtonsoft.Json.JsonReader)">
            <summary>
            Loads an <see cref="T:Newtonsoft.Json.Linq.JArray"/> from a <see cref="T:Newtonsoft.Json.JsonReader"/>. 
            </summary>
            <param name="reader">A <see cref="T:Newtonsoft.Json.JsonReader"/> that will be read for the content of the <see cref="T:Newtonsoft.Json.Linq.JArray"/>.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JArray"/> that contains the JSON that was read from the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Parse(System.String)">
            <summary>
            Load a <see cref="T:Newtonsoft.Json.Linq.JArray"/> from a string that contains JSON.
            </summary>
            <param name="json">A <see cref="T:System.String"/> that contains JSON.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JArray"/> populated from the string that contains JSON.</returns>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\LinqToJsonTests.cs" region="LinqToJsonCreateParseArray" title="Parsing a JSON Array from Text"/>
            </example>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.FromObject(System.Object)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JArray"/> from an object.
            </summary>
            <param name="o">The object that will be used to create <see cref="T:Newtonsoft.Json.Linq.JArray"/>.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JArray"/> with the values of the specified object</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.FromObject(System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JArray"/> from an object.
            </summary>
            <param name="o">The object that will be used to create <see cref="T:Newtonsoft.Json.Linq.JArray"/>.</param>
            <param name="jsonSerializer">The <see cref="T:Newtonsoft.Json.JsonSerializer"/> that will be used to read the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JArray"/> with the values of the specified object</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Writes this token to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.IndexOf(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Determines the index of a specific item in the <see cref="T:System.Collections.Generic.IList`1"/>.
            </summary>
            <param name="item">The object to locate in the <see cref="T:System.Collections.Generic.IList`1"/>.</param>
            <returns>
            The index of <paramref name="item"/> if found in the list; otherwise, -1.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Insert(System.Int32,Newtonsoft.Json.Linq.JToken)">
            <summary>
            Inserts an item to the <see cref="T:System.Collections.Generic.IList`1"/> at the specified index.
            </summary>
            <param name="index">The zero-based index at which <paramref name="item"/> should be inserted.</param>
            <param name="item">The object to insert into the <see cref="T:System.Collections.Generic.IList`1"/>.</param>
            <exception cref="T:System.ArgumentOutOfRangeException">
            	<paramref name="index"/> is not a valid index in the <see cref="T:System.Collections.Generic.IList`1"/>.</exception>
            <exception cref="T:System.NotSupportedException">The <see cref="T:System.Collections.Generic.IList`1"/> is read-only.</exception>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.RemoveAt(System.Int32)">
            <summary>
            Removes the <see cref="T:System.Collections.Generic.IList`1"/> item at the specified index.
            </summary>
            <param name="index">The zero-based index of the item to remove.</param>
            <exception cref="T:System.ArgumentOutOfRangeException">
            	<paramref name="index"/> is not a valid index in the <see cref="T:System.Collections.Generic.IList`1"/>.</exception>
            <exception cref="T:System.NotSupportedException">The <see cref="T:System.Collections.Generic.IList`1"/> is read-only.</exception>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerator`1" /> that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Add(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Adds an item to the <see cref="T:System.Collections.Generic.ICollection`1"/>.
            </summary>
            <param name="item">The object to add to the <see cref="T:System.Collections.Generic.ICollection`1"/>.</param>
            <exception cref="T:System.NotSupportedException">The <see cref="T:System.Collections.Generic.ICollection`1"/> is read-only.</exception>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Clear">
            <summary>
            Removes all items from the <see cref="T:System.Collections.Generic.ICollection`1"/>.
            </summary>
            <exception cref="T:System.NotSupportedException">The <see cref="T:System.Collections.Generic.ICollection`1"/> is read-only. </exception>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Contains(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Determines whether the <see cref="T:System.Collections.Generic.ICollection`1"/> contains a specific value.
            </summary>
            <param name="item">The object to locate in the <see cref="T:System.Collections.Generic.ICollection`1"/>.</param>
            <returns>
            true if <paramref name="item"/> is found in the <see cref="T:System.Collections.Generic.ICollection`1"/>; otherwise, false.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.CopyTo(Newtonsoft.Json.Linq.JToken[],System.Int32)">
            <summary>
            Copies to.
            </summary>
            <param name="array">The array.</param>
            <param name="arrayIndex">Index of the array.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JArray.Remove(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Removes the first occurrence of a specific object from the <see cref="T:System.Collections.Generic.ICollection`1"/>.
            </summary>
            <param name="item">The object to remove from the <see cref="T:System.Collections.Generic.ICollection`1"/>.</param>
            <returns>
            true if <paramref name="item"/> was successfully removed from the <see cref="T:System.Collections.Generic.ICollection`1"/>; otherwise, false. This method also returns false if <paramref name="item"/> is not found in the original <see cref="T:System.Collections.Generic.ICollection`1"/>.
            </returns>
            <exception cref="T:System.NotSupportedException">The <see cref="T:System.Collections.Generic.ICollection`1"/> is read-only.</exception>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JArray.ChildrenTokens">
            <summary>
            Gets the container's children tokens.
            </summary>
            <value>The container's children tokens.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JArray.Type">
            <summary>
            Gets the node type for this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The type.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JArray.Item(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JArray.Item(System.Int32)">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> at the specified index.
            </summary>
            <value></value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JArray.IsReadOnly">
            <summary>
            Gets a value indicating whether the <see cref="T:System.Collections.Generic.ICollection`1" /> is read-only.
            </summary>
            <returns>true if the <see cref="T:System.Collections.Generic.ICollection`1" /> is read-only; otherwise, false.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JConstructor">
            <summary>
            Represents a JSON constructor.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.#ctor(Newtonsoft.Json.Linq.JConstructor)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> class from another <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> object.
            </summary>
            <param name="other">A <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> object to copy from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.#ctor(System.String,System.Object[])">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> class with the specified name and content.
            </summary>
            <param name="name">The constructor name.</param>
            <param name="content">The contents of the constructor.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.#ctor(System.String,System.Object)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> class with the specified name and content.
            </summary>
            <param name="name">The constructor name.</param>
            <param name="content">The contents of the constructor.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> class with the specified name.
            </summary>
            <param name="name">The constructor name.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Writes this token to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JConstructor.Load(Newtonsoft.Json.JsonReader)">
            <summary>
            Loads an <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> from a <see cref="T:Newtonsoft.Json.JsonReader"/>. 
            </summary>
            <param name="reader">A <see cref="T:Newtonsoft.Json.JsonReader"/> that will be read for the content of the <see cref="T:Newtonsoft.Json.Linq.JConstructor"/>.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JConstructor"/> that contains the JSON that was read from the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JConstructor.ChildrenTokens">
            <summary>
            Gets the container's children tokens.
            </summary>
            <value>The container's children tokens.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JConstructor.Name">
            <summary>
            Gets or sets the name of this constructor.
            </summary>
            <value>The constructor name.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JConstructor.Type">
            <summary>
            Gets the node type for this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The type.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JConstructor.Item(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.</value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JEnumerable`1">
            <summary>
            Represents a collection of <see cref="T:Newtonsoft.Json.Linq.JToken"/> objects.
            </summary>
            <typeparam name="T">The type of token</typeparam>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JEnumerable`1.Empty">
            <summary>
            An empty collection of <see cref="T:Newtonsoft.Json.Linq.JToken"/> objects.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JEnumerable`1.#ctor(System.Collections.Generic.IEnumerable{`0})">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JEnumerable`1"/> struct.
            </summary>
            <param name="enumerable">The enumerable.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JEnumerable`1.GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerator`1"/> that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JEnumerable`1.System#Collections#IEnumerable#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through a collection.
            </summary>
            <returns>
            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JEnumerable`1.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to this instance.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with this instance.</param>
            <returns>
            	<c>true</c> if the specified <see cref="T:System.Object"/> is equal to this instance; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JEnumerable`1.GetHashCode">
            <summary>
            Returns a hash code for this instance.
            </summary>
            <returns>
            A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. 
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JEnumerable`1.Item(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.IJEnumerable`1"/> with the specified key.
            </summary>
            <value></value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JObject">
            <summary>
            Represents a JSON object.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\LinqToJsonTests.cs" region="LinqToJsonCreateParse" title="Parsing a JSON Object from Text" />
            </example>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JObject"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.#ctor(Newtonsoft.Json.Linq.JObject)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JObject"/> class from another <see cref="T:Newtonsoft.Json.Linq.JObject"/> object.
            </summary>
            <param name="other">A <see cref="T:Newtonsoft.Json.Linq.JObject"/> object to copy from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.#ctor(System.Object[])">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JObject"/> class with the specified content.
            </summary>
            <param name="content">The contents of the object.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.#ctor(System.Object)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JObject"/> class with the specified content.
            </summary>
            <param name="content">The contents of the object.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.Properties">
            <summary>
            Gets an <see cref="T:System.Collections.Generic.IEnumerable`1"/> of this object's properties.
            </summary>
            <returns>An <see cref="T:System.Collections.Generic.IEnumerable`1"/> of this object's properties.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.Property(System.String)">
            <summary>
            Gets a <see cref="T:Newtonsoft.Json.Linq.JProperty"/> the specified name.
            </summary>
            <param name="name">The property name.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JProperty"/> with the specified name or null.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.PropertyValues">
            <summary>
            Gets an <see cref="T:Newtonsoft.Json.Linq.JEnumerable`1"/> of this object's property values.
            </summary>
            <returns>An <see cref="T:Newtonsoft.Json.Linq.JEnumerable`1"/> of this object's property values.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.Load(Newtonsoft.Json.JsonReader)">
            <summary>
            Loads an <see cref="T:Newtonsoft.Json.Linq.JObject"/> from a <see cref="T:Newtonsoft.Json.JsonReader"/>. 
            </summary>
            <param name="reader">A <see cref="T:Newtonsoft.Json.JsonReader"/> that will be read for the content of the <see cref="T:Newtonsoft.Json.Linq.JObject"/>.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JObject"/> that contains the JSON that was read from the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.Parse(System.String)">
            <summary>
            Load a <see cref="T:Newtonsoft.Json.Linq.JObject"/> from a string that contains JSON.
            </summary>
            <param name="json">A <see cref="T:System.String"/> that contains JSON.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JObject"/> populated from the string that contains JSON.</returns>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\LinqToJsonTests.cs" region="LinqToJsonCreateParse" title="Parsing a JSON Object from Text"/>
            </example>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.FromObject(System.Object)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JObject"/> from an object.
            </summary>
            <param name="o">The object that will be used to create <see cref="T:Newtonsoft.Json.Linq.JObject"/>.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JObject"/> with the values of the specified object</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.FromObject(System.Object,Newtonsoft.Json.JsonSerializer)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JObject"/> from an object.
            </summary>
            <param name="o">The object that will be used to create <see cref="T:Newtonsoft.Json.Linq.JObject"/>.</param>
            <param name="jsonSerializer">The <see cref="T:Newtonsoft.Json.JsonSerializer"/> that will be used to read the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JObject"/> with the values of the specified object</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Writes this token to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.GetValue(System.String)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified property name.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <returns>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified property name.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.GetValue(System.String,System.StringComparison)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified property name.
            The exact property name will be searched for first and if no matching property is found then
            the <see cref="T:System.StringComparison"/> will be used to match a property.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <param name="comparison">One of the enumeration values that specifies how the strings will be compared.</param>
            <returns>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified property name.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.TryGetValue(System.String,System.StringComparison,Newtonsoft.Json.Linq.JToken@)">
            <summary>
            Tries to get the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified property name.
            The exact property name will be searched for first and if no matching property is found then
            the <see cref="T:System.StringComparison"/> will be used to match a property.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <param name="value">The value.</param>
            <param name="comparison">One of the enumeration values that specifies how the strings will be compared.</param>
            <returns>true if a value was successfully retrieved; otherwise, false.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.Add(System.String,Newtonsoft.Json.Linq.JToken)">
            <summary>
            Adds the specified property name.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.Remove(System.String)">
            <summary>
            Removes the property with the specified name.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <returns>true if item was successfully removed; otherwise, false.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.TryGetValue(System.String,Newtonsoft.Json.Linq.JToken@)">
            <summary>
            Tries the get value.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <param name="value">The value.</param>
            <returns>true if a value was successfully retrieved; otherwise, false.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerator`1"/> that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.OnPropertyChanged(System.String)">
            <summary>
            Raises the <see cref="E:Newtonsoft.Json.Linq.JObject.PropertyChanged"/> event with the provided arguments.
            </summary>
            <param name="propertyName">Name of the property.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.OnPropertyChanging(System.String)">
            <summary>
            Raises the <see cref="E:Newtonsoft.Json.Linq.JObject.PropertyChanging"/> event with the provided arguments.
            </summary>
            <param name="propertyName">Name of the property.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetProperties">
            <summary>
            Returns the properties for this instance of a component.
            </summary>
            <returns>
            A <see cref="T:System.ComponentModel.PropertyDescriptorCollection"/> that represents the properties for this component instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetProperties(System.Attribute[])">
            <summary>
            Returns the properties for this instance of a component using the attribute array as a filter.
            </summary>
            <param name="attributes">An array of type <see cref="T:System.Attribute"/> that is used as a filter.</param>
            <returns>
            A <see cref="T:System.ComponentModel.PropertyDescriptorCollection"/> that represents the filtered properties for this component instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetAttributes">
            <summary>
            Returns a collection of custom attributes for this instance of a component.
            </summary>
            <returns>
            An <see cref="T:System.ComponentModel.AttributeCollection"/> containing the attributes for this object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetClassName">
            <summary>
            Returns the class name of this instance of a component.
            </summary>
            <returns>
            The class name of the object, or null if the class does not have a name.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetComponentName">
            <summary>
            Returns the name of this instance of a component.
            </summary>
            <returns>
            The name of the object, or null if the object does not have a name.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetConverter">
            <summary>
            Returns a type converter for this instance of a component.
            </summary>
            <returns>
            A <see cref="T:System.ComponentModel.TypeConverter"/> that is the converter for this object, or null if there is no <see cref="T:System.ComponentModel.TypeConverter"/> for this object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetDefaultEvent">
            <summary>
            Returns the default event for this instance of a component.
            </summary>
            <returns>
            An <see cref="T:System.ComponentModel.EventDescriptor"/> that represents the default event for this object, or null if this object does not have events.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetDefaultProperty">
            <summary>
            Returns the default property for this instance of a component.
            </summary>
            <returns>
            A <see cref="T:System.ComponentModel.PropertyDescriptor"/> that represents the default property for this object, or null if this object does not have properties.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetEditor(System.Type)">
            <summary>
            Returns an editor of the specified type for this instance of a component.
            </summary>
            <param name="editorBaseType">A <see cref="T:System.Type"/> that represents the editor for this object.</param>
            <returns>
            An <see cref="T:System.Object"/> of the specified type that is the editor for this object, or null if the editor cannot be found.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetEvents(System.Attribute[])">
            <summary>
            Returns the events for this instance of a component using the specified attribute array as a filter.
            </summary>
            <param name="attributes">An array of type <see cref="T:System.Attribute"/> that is used as a filter.</param>
            <returns>
            An <see cref="T:System.ComponentModel.EventDescriptorCollection"/> that represents the filtered events for this component instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetEvents">
            <summary>
            Returns the events for this instance of a component.
            </summary>
            <returns>
            An <see cref="T:System.ComponentModel.EventDescriptorCollection"/> that represents the events for this component instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.System#ComponentModel#ICustomTypeDescriptor#GetPropertyOwner(System.ComponentModel.PropertyDescriptor)">
            <summary>
            Returns an object that contains the property described by the specified property descriptor.
            </summary>
            <param name="pd">A <see cref="T:System.ComponentModel.PropertyDescriptor"/> that represents the property whose owner is to be found.</param>
            <returns>
            An <see cref="T:System.Object"/> that represents the owner of the specified property.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JObject.GetMetaObject(System.Linq.Expressions.Expression)">
            <summary>
            Returns the <see cref="T:System.Dynamic.DynamicMetaObject"/> responsible for binding operations performed on this object.
            </summary>
            <param name="parameter">The expression tree representation of the runtime value.</param>
            <returns>
            The <see cref="T:System.Dynamic.DynamicMetaObject"/> to bind this object.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JObject.ChildrenTokens">
            <summary>
            Gets the container's children tokens.
            </summary>
            <value>The container's children tokens.</value>
        </member>
        <member name="E:Newtonsoft.Json.Linq.JObject.PropertyChanged">
            <summary>
            Occurs when a property value changes.
            </summary>
        </member>
        <member name="E:Newtonsoft.Json.Linq.JObject.PropertyChanging">
            <summary>
            Occurs when a property value is changing.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JObject.Type">
            <summary>
            Gets the node type for this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The type.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JObject.Item(System.Object)">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified key.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JObject.Item(System.String)">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Linq.JToken"/> with the specified property name.
            </summary>
            <value></value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JsonMergeSettings">
            <summary>
            Specifies the settings used when merging JSON.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JsonMergeSettings.MergeArrayHandling">
            <summary>
            Gets or sets the method used when merging JSON arrays.
            </summary>
            <value>The method used when merging JSON arrays.</value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JProperty">
            <summary>
            Represents a JSON property.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JProperty.#ctor(Newtonsoft.Json.Linq.JProperty)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JProperty"/> class from another <see cref="T:Newtonsoft.Json.Linq.JProperty"/> object.
            </summary>
            <param name="other">A <see cref="T:Newtonsoft.Json.Linq.JProperty"/> object to copy from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JProperty.#ctor(System.String,System.Object[])">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JProperty"/> class.
            </summary>
            <param name="name">The property name.</param>
            <param name="content">The property content.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JProperty.#ctor(System.String,System.Object)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JProperty"/> class.
            </summary>
            <param name="name">The property name.</param>
            <param name="content">The property content.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JProperty.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Writes this token to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JProperty.Load(Newtonsoft.Json.JsonReader)">
            <summary>
            Loads an <see cref="T:Newtonsoft.Json.Linq.JProperty"/> from a <see cref="T:Newtonsoft.Json.JsonReader"/>. 
            </summary>
            <param name="reader">A <see cref="T:Newtonsoft.Json.JsonReader"/> that will be read for the content of the <see cref="T:Newtonsoft.Json.Linq.JProperty"/>.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JProperty"/> that contains the JSON that was read from the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JProperty.ChildrenTokens">
            <summary>
            Gets the container's children tokens.
            </summary>
            <value>The container's children tokens.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JProperty.Name">
            <summary>
            Gets the property name.
            </summary>
            <value>The property name.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JProperty.Value">
            <summary>
            Gets or sets the property value.
            </summary>
            <value>The property value.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JProperty.Type">
            <summary>
            Gets the node type for this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The type.</value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JPropertyDescriptor">
            <summary>
            Represents a view of a <see cref="T:Newtonsoft.Json.Linq.JProperty"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JPropertyDescriptor.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JPropertyDescriptor"/> class.
            </summary>
            <param name="name">The name.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JPropertyDescriptor.CanResetValue(System.Object)">
            <summary>
            When overridden in a derived class, returns whether resetting an object changes its value.
            </summary>
            <returns>
            true if resetting the component changes its value; otherwise, false.
            </returns>
            <param name="component">The component to test for reset capability. 
                            </param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JPropertyDescriptor.GetValue(System.Object)">
            <summary>
            When overridden in a derived class, gets the current value of the property on a component.
            </summary>
            <returns>
            The value of a property for a given component.
            </returns>
            <param name="component">The component with the property for which to retrieve the value. 
                            </param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JPropertyDescriptor.ResetValue(System.Object)">
            <summary>
            When overridden in a derived class, resets the value for this property of the component to the default value.
            </summary>
            <param name="component">The component with the property value that is to be reset to the default value. 
                            </param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JPropertyDescriptor.SetValue(System.Object,System.Object)">
            <summary>
            When overridden in a derived class, sets the value of the component to a different value.
            </summary>
            <param name="component">The component with the property value that is to be set. 
                            </param><param name="value">The new value. 
                            </param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JPropertyDescriptor.ShouldSerializeValue(System.Object)">
            <summary>
            When overridden in a derived class, determines a value indicating whether the value of this property needs to be persisted.
            </summary>
            <returns>
            true if the property should be persisted; otherwise, false.
            </returns>
            <param name="component">The component with the property to be examined for persistence. 
                            </param>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JPropertyDescriptor.ComponentType">
            <summary>
            When overridden in a derived class, gets the type of the component this property is bound to.
            </summary>
            <returns>
            A <see cref="T:System.Type"/> that represents the type of component this property is bound to. When the <see cref="M:System.ComponentModel.PropertyDescriptor.GetValue(System.Object)"/> or <see cref="M:System.ComponentModel.PropertyDescriptor.SetValue(System.Object,System.Object)"/> methods are invoked, the object specified might be an instance of this type.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JPropertyDescriptor.IsReadOnly">
            <summary>
            When overridden in a derived class, gets a value indicating whether this property is read-only.
            </summary>
            <returns>
            true if the property is read-only; otherwise, false.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JPropertyDescriptor.PropertyType">
            <summary>
            When overridden in a derived class, gets the type of the property.
            </summary>
            <returns>
            A <see cref="T:System.Type"/> that represents the type of the property.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JPropertyDescriptor.NameHashCode">
            <summary>
            Gets the hash code for the name of the member.
            </summary>
            <value></value>
            <returns>
            The hash code for the name of the member.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JRaw">
            <summary>
            Represents a raw JSON string.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JValue">
            <summary>
            Represents a value in JSON (string, integer, date, etc).
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(Newtonsoft.Json.Linq.JValue)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class from another <see cref="T:Newtonsoft.Json.Linq.JValue"/> object.
            </summary>
            <param name="other">A <see cref="T:Newtonsoft.Json.Linq.JValue"/> object to copy from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Int64)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Decimal)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Char)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.UInt64)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Double)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Single)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.DateTime)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.DateTimeOffset)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Boolean)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Guid)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Uri)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.TimeSpan)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.#ctor(System.Object)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JValue"/> class with the given value.
            </summary>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.CreateComment(System.String)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JValue"/> comment with the given value.
            </summary>
            <param name="value">The value.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JValue"/> comment with the given value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.CreateString(System.String)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JValue"/> string with the given value.
            </summary>
            <param name="value">The value.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JValue"/> string with the given value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.CreateNull">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JValue"/> null value.
            </summary>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JValue"/> null value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.CreateUndefined">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Linq.JValue"/> null value.
            </summary>
            <returns>A <see cref="T:Newtonsoft.Json.Linq.JValue"/> null value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.JsonConverter[])">
            <summary>
            Writes this token to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="converters">A collection of <see cref="T:Newtonsoft.Json.JsonConverter"/> which will be used when writing the token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.Equals(Newtonsoft.Json.Linq.JValue)">
            <summary>
            Indicates whether the current object is equal to another object of the same type.
            </summary>
            <returns>
            true if the current object is equal to the <paramref name="other"/> parameter; otherwise, false.
            </returns>
            <param name="other">An object to compare with this object.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with the current <see cref="T:System.Object"/>.</param>
            <returns>
            true if the specified <see cref="T:System.Object"/> is equal to the current <see cref="T:System.Object"/>; otherwise, false.
            </returns>
            <exception cref="T:System.NullReferenceException">
            The <paramref name="obj"/> parameter is null.
            </exception>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.GetHashCode">
            <summary>
            Serves as a hash function for a particular type.
            </summary>
            <returns>
            A hash code for the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> that represents this instance.
            </summary>
            <returns>
            A <see cref="T:System.String"/> that represents this instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.ToString(System.String)">
            <summary>
            Returns a <see cref="T:System.String"/> that represents this instance.
            </summary>
            <param name="format">The format.</param>
            <returns>
            A <see cref="T:System.String"/> that represents this instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.ToString(System.IFormatProvider)">
            <summary>
            Returns a <see cref="T:System.String"/> that represents this instance.
            </summary>
            <param name="formatProvider">The format provider.</param>
            <returns>
            A <see cref="T:System.String"/> that represents this instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.ToString(System.String,System.IFormatProvider)">
            <summary>
            Returns a <see cref="T:System.String"/> that represents this instance.
            </summary>
            <param name="format">The format.</param>
            <param name="formatProvider">The format provider.</param>
            <returns>
            A <see cref="T:System.String"/> that represents this instance.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.GetMetaObject(System.Linq.Expressions.Expression)">
            <summary>
            Returns the <see cref="T:System.Dynamic.DynamicMetaObject"/> responsible for binding operations performed on this object.
            </summary>
            <param name="parameter">The expression tree representation of the runtime value.</param>
            <returns>
            The <see cref="T:System.Dynamic.DynamicMetaObject"/> to bind this object.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JValue.CompareTo(Newtonsoft.Json.Linq.JValue)">
            <summary>
            Compares the current instance with another object of the same type and returns an integer that indicates whether the current instance precedes, follows, or occurs in the same position in the sort order as the other object.
            </summary>
            <param name="obj">An object to compare with this instance.</param>
            <returns>
            A 32-bit signed integer that indicates the relative order of the objects being compared. The return value has these meanings:
            Value
            Meaning
            Less than zero
            This instance is less than <paramref name="obj"/>.
            Zero
            This instance is equal to <paramref name="obj"/>.
            Greater than zero
            This instance is greater than <paramref name="obj"/>.
            </returns>
            <exception cref="T:System.ArgumentException">
            	<paramref name="obj"/> is not the same type as this instance.
            </exception>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JValue.HasValues">
            <summary>
            Gets a value indicating whether this token has child tokens.
            </summary>
            <value>
            	<c>true</c> if this token has child values; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JValue.Type">
            <summary>
            Gets the node type for this <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <value>The type.</value>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JValue.Value">
            <summary>
            Gets or sets the underlying token value.
            </summary>
            <value>The underlying token value.</value>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JRaw.#ctor(Newtonsoft.Json.Linq.JRaw)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JRaw"/> class from another <see cref="T:Newtonsoft.Json.Linq.JRaw"/> object.
            </summary>
            <param name="other">A <see cref="T:Newtonsoft.Json.Linq.JRaw"/> object to copy from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JRaw.#ctor(System.Object)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JRaw"/> class.
            </summary>
            <param name="rawJson">The raw json.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JRaw.Create(Newtonsoft.Json.JsonReader)">
            <summary>
            Creates an instance of <see cref="T:Newtonsoft.Json.Linq.JRaw"/> with the content of the reader's current token.
            </summary>
            <param name="reader">The reader.</param>
            <returns>An instance of <see cref="T:Newtonsoft.Json.Linq.JRaw"/> with the content of the reader's current token.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JTokenEqualityComparer">
            <summary>
            Compares tokens to determine whether they are equal.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenEqualityComparer.Equals(Newtonsoft.Json.Linq.JToken,Newtonsoft.Json.Linq.JToken)">
            <summary>
            Determines whether the specified objects are equal.
            </summary>
            <param name="x">The first object of type <see cref="T:Newtonsoft.Json.Linq.JToken"/> to compare.</param>
            <param name="y">The second object of type <see cref="T:Newtonsoft.Json.Linq.JToken"/> to compare.</param>
            <returns>
            true if the specified objects are equal; otherwise, false.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenEqualityComparer.GetHashCode(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Returns a hash code for the specified object.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> for which a hash code is to be returned.</param>
            <returns>A hash code for the specified object.</returns>
            <exception cref="T:System.ArgumentNullException">The type of <paramref name="obj"/> is a reference type and <paramref name="obj"/> is null.</exception>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JTokenReader">
            <summary>
            Represents a reader that provides fast, non-cached, forward-only access to serialized Json data.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.#ctor(Newtonsoft.Json.Linq.JToken)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JTokenReader"/> class.
            </summary>
            <param name="token">The token to read from.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.ReadAsBytes">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:Byte[]"/>.
            </summary>
            <returns>
            A <see cref="T:Byte[]"/> or a null reference if the next JSON token is null. This method will return <c>null</c> at the end of an array.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.ReadAsDecimal">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.ReadAsInt32">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.ReadAsString">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.String"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.ReadAsDateTime">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.String"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.ReadAsDateTimeOffset">
            <summary>
            Reads the next JSON token from the stream as a <see cref="T:System.Nullable`1"/>.
            </summary>
            <returns>A <see cref="T:System.Nullable`1"/>. This method will return <c>null</c> at the end of an array.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenReader.Read">
            <summary>
            Reads the next JSON token from the stream.
            </summary>
            <returns>
            true if the next token was read successfully; false if there are no more tokens to read.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JTokenReader.Path">
            <summary>
            Gets the path of the current JSON token. 
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JTokenType">
            <summary>
            Specifies the type of token.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.None">
            <summary>
            No token type has been set.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Object">
            <summary>
            A JSON object.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Array">
            <summary>
            A JSON array.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Constructor">
            <summary>
            A JSON constructor.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Property">
            <summary>
            A JSON object property.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Comment">
            <summary>
            A comment.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Integer">
            <summary>
            An integer value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Float">
            <summary>
            A float value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.String">
            <summary>
            A string value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Boolean">
            <summary>
            A boolean value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Null">
            <summary>
            A null value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Undefined">
            <summary>
            An undefined value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Date">
            <summary>
            A date value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Raw">
            <summary>
            A raw JSON value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Bytes">
            <summary>
            A collection of bytes value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Guid">
            <summary>
            A Guid value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.Uri">
            <summary>
            A Uri value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.JTokenType.TimeSpan">
            <summary>
            A TimeSpan value.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Linq.JTokenWriter">
            <summary>
            Represents a writer that provides a fast, non-cached, forward-only way of generating Json data.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.#ctor(Newtonsoft.Json.Linq.JContainer)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JTokenWriter"/> class writing to the given <see cref="T:Newtonsoft.Json.Linq.JContainer"/>.
            </summary>
            <param name="container">The container being written to.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Linq.JTokenWriter"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.Flush">
            <summary>
            Flushes whatever is in the buffer to the underlying streams and also flushes the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.Close">
            <summary>
            Closes this stream and the underlying stream.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteStartObject">
            <summary>
            Writes the beginning of a Json object.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteStartArray">
            <summary>
            Writes the beginning of a Json array.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteStartConstructor(System.String)">
            <summary>
            Writes the start of a constructor with the given name.
            </summary>
            <param name="name">The name of the constructor.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteEnd(Newtonsoft.Json.JsonToken)">
            <summary>
            Writes the end.
            </summary>
            <param name="token">The token.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WritePropertyName(System.String)">
            <summary>
            Writes the property name of a name/value pair on a Json object.
            </summary>
            <param name="name">The name of the property.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Object)">
            <summary>
            Writes a <see cref="T:System.Object"/> value.
            An error will raised if the value cannot be written as a single JSON token.
            </summary>
            <param name="value">The <see cref="T:System.Object"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteNull">
            <summary>
            Writes a null value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteUndefined">
            <summary>
            Writes an undefined value.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteRaw(System.String)">
            <summary>
            Writes raw JSON.
            </summary>
            <param name="json">The raw JSON to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteComment(System.String)">
            <summary>
            Writes out a comment <code>/*...*/</code> containing the specified text.
            </summary>
            <param name="text">Text to place inside the comment.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.String)">
            <summary>
            Writes a <see cref="T:System.String"/> value.
            </summary>
            <param name="value">The <see cref="T:System.String"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Int32)">
            <summary>
            Writes a <see cref="T:System.Int32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.UInt32)">
            <summary>
            Writes a <see cref="T:System.UInt32"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt32"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Int64)">
            <summary>
            Writes a <see cref="T:System.Int64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.UInt64)">
            <summary>
            Writes a <see cref="T:System.UInt64"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt64"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Single)">
            <summary>
            Writes a <see cref="T:System.Single"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Single"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Double)">
            <summary>
            Writes a <see cref="T:System.Double"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Double"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Boolean)">
            <summary>
            Writes a <see cref="T:System.Boolean"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Boolean"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Int16)">
            <summary>
            Writes a <see cref="T:System.Int16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Int16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.UInt16)">
            <summary>
            Writes a <see cref="T:System.UInt16"/> value.
            </summary>
            <param name="value">The <see cref="T:System.UInt16"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Char)">
            <summary>
            Writes a <see cref="T:System.Char"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Char"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Byte)">
            <summary>
            Writes a <see cref="T:System.Byte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Byte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.SByte)">
            <summary>
            Writes a <see cref="T:System.SByte"/> value.
            </summary>
            <param name="value">The <see cref="T:System.SByte"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Decimal)">
            <summary>
            Writes a <see cref="T:System.Decimal"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Decimal"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.DateTime)">
            <summary>
            Writes a <see cref="T:System.DateTime"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTime"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.DateTimeOffset)">
            <summary>
            Writes a <see cref="T:System.DateTimeOffset"/> value.
            </summary>
            <param name="value">The <see cref="T:System.DateTimeOffset"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Byte[])">
            <summary>
            Writes a <see cref="T:Byte[]"/> value.
            </summary>
            <param name="value">The <see cref="T:Byte[]"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.TimeSpan)">
            <summary>
            Writes a <see cref="T:System.TimeSpan"/> value.
            </summary>
            <param name="value">The <see cref="T:System.TimeSpan"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Guid)">
            <summary>
            Writes a <see cref="T:System.Guid"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Guid"/> value to write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Linq.JTokenWriter.WriteValue(System.Uri)">
            <summary>
            Writes a <see cref="T:System.Uri"/> value.
            </summary>
            <param name="value">The <see cref="T:System.Uri"/> value to write.</param>
        </member>
        <member name="P:Newtonsoft.Json.Linq.JTokenWriter.Token">
            <summary>
            Gets the token being writen.
            </summary>
            <value>The token being writen.</value>
        </member>
        <member name="T:Newtonsoft.Json.Linq.MergeArrayHandling">
            <summary>
            Specifies how JSON arrays are merged together.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.MergeArrayHandling.Concat">
            <summary>Concatenate arrays.</summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.MergeArrayHandling.Union">
            <summary>Union arrays, skipping items that already exist.</summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.MergeArrayHandling.Replace">
            <summary>Replace all array items.</summary>
        </member>
        <member name="F:Newtonsoft.Json.Linq.MergeArrayHandling.Merge">
            <summary>Merge array items together, matched by index.</summary>
        </member>
        <member name="T:Newtonsoft.Json.MemberSerialization">
            <summary>
            Specifies the member serialization options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MemberSerialization.OptOut">
            <summary>
            All public members are serialized by default. Members can be excluded using <see cref="T:Newtonsoft.Json.JsonIgnoreAttribute"/> or <see cref="T:System.NonSerializedAttribute"/>.
            This is the default member serialization mode.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MemberSerialization.OptIn">
            <summary>
            Only members must be marked with <see cref="T:Newtonsoft.Json.JsonPropertyAttribute"/> or <see cref="T:System.Runtime.Serialization.DataMemberAttribute"/> are serialized.
            This member serialization mode can also be set by marking the class with <see cref="T:System.Runtime.Serialization.DataContractAttribute"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MemberSerialization.Fields">
            <summary>
            All public and private fields are serialized. Members can be excluded using <see cref="T:Newtonsoft.Json.JsonIgnoreAttribute"/> or <see cref="T:System.NonSerializedAttribute"/>.
            This member serialization mode can also be set by marking the class with <see cref="T:System.SerializableAttribute"/>
            and setting IgnoreSerializableAttribute on <see cref="T:Newtonsoft.Json.Serialization.DefaultContractResolver"/> to false.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.MetadataPropertyHandling">
            <summary>
            Specifies metadata property handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MetadataPropertyHandling.Default">
            <summary>
            Read metadata properties located at the start of a JSON object.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MetadataPropertyHandling.ReadAhead">
            <summary>
            Read metadata properties located anywhere in a JSON object. Note that this setting will impact performance.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MetadataPropertyHandling.Ignore">
            <summary>
            Do not try to read metadata properties.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.MissingMemberHandling">
            <summary>
            Specifies missing member handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MissingMemberHandling.Ignore">
            <summary>
            Ignore a missing member and do not attempt to deserialize it.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.MissingMemberHandling.Error">
            <summary>
            Throw a <see cref="T:Newtonsoft.Json.JsonSerializationException"/> when a missing member is encountered during deserialization.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.NullValueHandling">
            <summary>
            Specifies null value handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="ReducingSerializedJsonSizeNullValueHandlingObject" title="NullValueHandling Class"/>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="ReducingSerializedJsonSizeNullValueHandlingExample" title="NullValueHandling Ignore Example"/>
            </example>
        </member>
        <member name="F:Newtonsoft.Json.NullValueHandling.Include">
            <summary>
            Include null values when serializing and deserializing objects.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.NullValueHandling.Ignore">
            <summary>
            Ignore null values when serializing and deserializing objects.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.ObjectCreationHandling">
            <summary>
            Specifies how object creation is handled by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.ObjectCreationHandling.Auto">
            <summary>
            Reuse existing objects, create new objects when needed.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.ObjectCreationHandling.Reuse">
            <summary>
            Only reuse existing objects.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.ObjectCreationHandling.Replace">
            <summary>
            Always create new objects.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.PreserveReferencesHandling">
            <summary>
            Specifies reference handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            Note that references cannot be preserved when a value is set via a non-default constructor such as types that implement ISerializable.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="PreservingObjectReferencesOn" title="Preserve Object References"/>       
            </example>
        </member>
        <member name="F:Newtonsoft.Json.PreserveReferencesHandling.None">
            <summary>
            Do not preserve references when serializing types.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.PreserveReferencesHandling.Objects">
            <summary>
            Preserve references when serializing into a JSON object structure.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.PreserveReferencesHandling.Arrays">
            <summary>
            Preserve references when serializing into a JSON array structure.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.PreserveReferencesHandling.All">
            <summary>
            Preserve references when serializing.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.ReferenceLoopHandling">
            <summary>
            Specifies reference loop handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.ReferenceLoopHandling.Error">
            <summary>
            Throw a <see cref="T:Newtonsoft.Json.JsonSerializationException"/> when a loop is encountered.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.ReferenceLoopHandling.Ignore">
            <summary>
            Ignore loop references and do not serialize.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.ReferenceLoopHandling.Serialize">
            <summary>
            Serialize loop references.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Required">
            <summary>
            Indicating whether a property is required.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Required.Default">
            <summary>
            The property is not required. The default state.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Required.AllowNull">
            <summary>
            The property must be defined in JSON but can be a null value.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Required.Always">
            <summary>
            The property must be defined in JSON and cannot be a null value.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Schema.Extensions">
            <summary>
            Contains the JSON schema extension methods.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.Extensions.IsValid(Newtonsoft.Json.Linq.JToken,Newtonsoft.Json.Schema.JsonSchema)">
            <summary>
            Determines whether the <see cref="T:Newtonsoft.Json.Linq.JToken"/> is valid.
            </summary>
            <param name="source">The source <see cref="T:Newtonsoft.Json.Linq.JToken"/> to test.</param>
            <param name="schema">The schema to test with.</param>
            <returns>
            	<c>true</c> if the specified <see cref="T:Newtonsoft.Json.Linq.JToken"/> is valid; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.Extensions.IsValid(Newtonsoft.Json.Linq.JToken,Newtonsoft.Json.Schema.JsonSchema,System.Collections.Generic.IList{System.String}@)">
            <summary>
            Determines whether the <see cref="T:Newtonsoft.Json.Linq.JToken"/> is valid.
            </summary>
            <param name="source">The source <see cref="T:Newtonsoft.Json.Linq.JToken"/> to test.</param>
            <param name="schema">The schema to test with.</param>
            <param name="errorMessages">When this method returns, contains any error messages generated while validating. </param>
            <returns>
            	<c>true</c> if the specified <see cref="T:Newtonsoft.Json.Linq.JToken"/> is valid; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.Extensions.Validate(Newtonsoft.Json.Linq.JToken,Newtonsoft.Json.Schema.JsonSchema)">
            <summary>
            Validates the specified <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <param name="source">The source <see cref="T:Newtonsoft.Json.Linq.JToken"/> to test.</param>
            <param name="schema">The schema to test with.</param>
        </member>
        <member name="M:Newtonsoft.Json.Schema.Extensions.Validate(Newtonsoft.Json.Linq.JToken,Newtonsoft.Json.Schema.JsonSchema,Newtonsoft.Json.Schema.ValidationEventHandler)">
            <summary>
            Validates the specified <see cref="T:Newtonsoft.Json.Linq.JToken"/>.
            </summary>
            <param name="source">The source <see cref="T:Newtonsoft.Json.Linq.JToken"/> to test.</param>
            <param name="schema">The schema to test with.</param>
            <param name="validationEventHandler">The validation event handler.</param>
        </member>
        <member name="T:Newtonsoft.Json.Schema.JsonSchema">
            <summary>
            An in-memory representation of a JSON Schema.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.Read(Newtonsoft.Json.JsonReader)">
            <summary>
            Reads a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> containing the JSON Schema to read.</param>
            <returns>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> object representing the JSON Schema.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.Read(Newtonsoft.Json.JsonReader,Newtonsoft.Json.Schema.JsonSchemaResolver)">
            <summary>
            Reads a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from the specified <see cref="T:Newtonsoft.Json.JsonReader"/>.
            </summary>
            <param name="reader">The <see cref="T:Newtonsoft.Json.JsonReader"/> containing the JSON Schema to read.</param>
            <param name="resolver">The <see cref="T:Newtonsoft.Json.Schema.JsonSchemaResolver"/> to use when resolving schema references.</param>
            <returns>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> object representing the JSON Schema.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.Parse(System.String)">
            <summary>
            Load a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from a string that contains schema JSON.
            </summary>
            <param name="json">A <see cref="T:System.String"/> that contains JSON.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> populated from the string that contains JSON.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.Parse(System.String,Newtonsoft.Json.Schema.JsonSchemaResolver)">
            <summary>
            Parses the specified json.
            </summary>
            <param name="json">The json.</param>
            <param name="resolver">The resolver.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> populated from the string that contains JSON.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.WriteTo(Newtonsoft.Json.JsonWriter)">
            <summary>
            Writes this schema to a <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.WriteTo(Newtonsoft.Json.JsonWriter,Newtonsoft.Json.Schema.JsonSchemaResolver)">
            <summary>
            Writes this schema to a <see cref="T:Newtonsoft.Json.JsonWriter"/> using the specified <see cref="T:Newtonsoft.Json.Schema.JsonSchemaResolver"/>.
            </summary>
            <param name="writer">A <see cref="T:Newtonsoft.Json.JsonWriter"/> into which this method will write.</param>
            <param name="resolver">The resolver used.</param>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchema.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
            </summary>
            <returns>
            A <see cref="T:System.String"/> that represents the current <see cref="T:System.Object"/>.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Id">
            <summary>
            Gets or sets the id.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Title">
            <summary>
            Gets or sets the title.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Required">
            <summary>
            Gets or sets whether the object is required.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.ReadOnly">
            <summary>
            Gets or sets whether the object is read only.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Hidden">
            <summary>
            Gets or sets whether the object is visible to users.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Transient">
            <summary>
            Gets or sets whether the object is transient.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Description">
            <summary>
            Gets or sets the description of the object.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Type">
            <summary>
            Gets or sets the types of values allowed by the object.
            </summary>
            <value>The type.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Pattern">
            <summary>
            Gets or sets the pattern.
            </summary>
            <value>The pattern.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.MinimumLength">
            <summary>
            Gets or sets the minimum length.
            </summary>
            <value>The minimum length.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.MaximumLength">
            <summary>
            Gets or sets the maximum length.
            </summary>
            <value>The maximum length.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.DivisibleBy">
            <summary>
            Gets or sets a number that the value should be divisble by.
            </summary>
            <value>A number that the value should be divisble by.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Minimum">
            <summary>
            Gets or sets the minimum.
            </summary>
            <value>The minimum.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Maximum">
            <summary>
            Gets or sets the maximum.
            </summary>
            <value>The maximum.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.ExclusiveMinimum">
            <summary>
            Gets or sets a flag indicating whether the value can not equal the number defined by the "minimum" attribute.
            </summary>
            <value>A flag indicating whether the value can not equal the number defined by the "minimum" attribute.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.ExclusiveMaximum">
            <summary>
            Gets or sets a flag indicating whether the value can not equal the number defined by the "maximum" attribute.
            </summary>
            <value>A flag indicating whether the value can not equal the number defined by the "maximum" attribute.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.MinimumItems">
            <summary>
            Gets or sets the minimum number of items.
            </summary>
            <value>The minimum number of items.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.MaximumItems">
            <summary>
            Gets or sets the maximum number of items.
            </summary>
            <value>The maximum number of items.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Items">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of items.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of items.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.PositionalItemsValidation">
            <summary>
            Gets or sets a value indicating whether items in an array are validated using the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> instance at their array position from <see cref="P:Newtonsoft.Json.Schema.JsonSchema.Items"/>.
            </summary>
            <value>
            	<c>true</c> if items are validated using their array position; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.AdditionalItems">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of additional items.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of additional items.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.AllowAdditionalItems">
            <summary>
            Gets or sets a value indicating whether additional items are allowed.
            </summary>
            <value>
            	<c>true</c> if additional items are allowed; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.UniqueItems">
            <summary>
            Gets or sets whether the array items must be unique.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Properties">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of properties.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of properties.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.AdditionalProperties">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of additional properties.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> of additional properties.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.PatternProperties">
            <summary>
            Gets or sets the pattern properties.
            </summary>
            <value>The pattern properties.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.AllowAdditionalProperties">
            <summary>
            Gets or sets a value indicating whether additional properties are allowed.
            </summary>
            <value>
            	<c>true</c> if additional properties are allowed; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Requires">
            <summary>
            Gets or sets the required property if this property is present.
            </summary>
            <value>The required property if this property is present.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Enum">
            <summary>
            Gets or sets the a collection of valid enum values allowed.
            </summary>
            <value>A collection of valid enum values allowed.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Disallow">
            <summary>
            Gets or sets disallowed types.
            </summary>
            <value>The disallow types.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Default">
            <summary>
            Gets or sets the default value.
            </summary>
            <value>The default value.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Extends">
            <summary>
            Gets or sets the collection of <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> that this schema extends.
            </summary>
            <value>The collection of <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> that this schema extends.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchema.Format">
            <summary>
            Gets or sets the format.
            </summary>
            <value>The format.</value>
        </member>
        <member name="T:Newtonsoft.Json.Schema.JsonSchemaException">
            <summary>
            Returns detailed information about the schema exception.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaException.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaException"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaException.#ctor(System.String)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaException"/> class
            with a specified error message.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaException.#ctor(System.String,System.Exception)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaException"/> class
            with a specified error message and a reference to the inner exception that is the cause of this exception.
            </summary>
            <param name="message">The error message that explains the reason for the exception.</param>
            <param name="innerException">The exception that is the cause of the current exception, or a null reference (Nothing in Visual Basic) if no inner exception is specified.</param>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaException"/> class.
            </summary>
            <param name="info">The <see cref="T:System.Runtime.Serialization.SerializationInfo"/> that holds the serialized object data about the exception being thrown.</param>
            <param name="context">The <see cref="T:System.Runtime.Serialization.StreamingContext"/> that contains contextual information about the source or destination.</param>
            <exception cref="T:System.ArgumentNullException">The <paramref name="info"/> parameter is null. </exception>
            <exception cref="T:System.Runtime.Serialization.SerializationException">The class name is null or <see cref="P:System.Exception.HResult"/> is zero (0). </exception>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchemaException.LineNumber">
            <summary>
            Gets the line number indicating where the error occurred.
            </summary>
            <value>The line number indicating where the error occurred.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchemaException.LinePosition">
            <summary>
            Gets the line position indicating where the error occurred.
            </summary>
            <value>The line position indicating where the error occurred.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchemaException.Path">
            <summary>
            Gets the path to the JSON where the error occurred.
            </summary>
            <value>The path to the JSON where the error occurred.</value>
        </member>
        <member name="T:Newtonsoft.Json.Schema.JsonSchemaGenerator">
            <summary>
            Generates a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from a specified <see cref="T:System.Type"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaGenerator.Generate(System.Type)">
            <summary>
            Generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from the specified type.
            </summary>
            <param name="type">The type to generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> generated from the specified type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaGenerator.Generate(System.Type,Newtonsoft.Json.Schema.JsonSchemaResolver)">
            <summary>
            Generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from the specified type.
            </summary>
            <param name="type">The type to generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from.</param>
            <param name="resolver">The <see cref="T:Newtonsoft.Json.Schema.JsonSchemaResolver"/> used to resolve schema references.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> generated from the specified type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaGenerator.Generate(System.Type,System.Boolean)">
            <summary>
            Generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from the specified type.
            </summary>
            <param name="type">The type to generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from.</param>
            <param name="rootSchemaNullable">Specify whether the generated root <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> will be nullable.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> generated from the specified type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaGenerator.Generate(System.Type,Newtonsoft.Json.Schema.JsonSchemaResolver,System.Boolean)">
            <summary>
            Generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from the specified type.
            </summary>
            <param name="type">The type to generate a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from.</param>
            <param name="resolver">The <see cref="T:Newtonsoft.Json.Schema.JsonSchemaResolver"/> used to resolve schema references.</param>
            <param name="rootSchemaNullable">Specify whether the generated root <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> will be nullable.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> generated from the specified type.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchemaGenerator.UndefinedSchemaIdHandling">
            <summary>
            Gets or sets how undefined schemas are handled by the serializer.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchemaGenerator.ContractResolver">
            <summary>
            Gets or sets the contract resolver.
            </summary>
            <value>The contract resolver.</value>
        </member>
        <member name="T:Newtonsoft.Json.Schema.JsonSchemaResolver">
            <summary>
            Resolves <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> from an id.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaResolver.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaResolver"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Schema.JsonSchemaResolver.GetSchema(System.String)">
            <summary>
            Gets a <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> for the specified reference.
            </summary>
            <param name="reference">The id.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/> for the specified reference.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Schema.JsonSchemaResolver.LoadedSchemas">
            <summary>
            Gets or sets the loaded schemas.
            </summary>
            <value>The loaded schemas.</value>
        </member>
        <member name="T:Newtonsoft.Json.Schema.JsonSchemaType">
            <summary>
            The value types allowed by the <see cref="T:Newtonsoft.Json.Schema.JsonSchema"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.None">
            <summary>
            No type specified.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.String">
            <summary>
            String type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Float">
            <summary>
            Float type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Integer">
            <summary>
            Integer type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Boolean">
            <summary>
            Boolean type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Object">
            <summary>
            Object type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Array">
            <summary>
            Array type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Null">
            <summary>
            Null type.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.JsonSchemaType.Any">
            <summary>
            Any type.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Schema.UndefinedSchemaIdHandling">
            <summary>
            Specifies undefined schema Id handling options for the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaGenerator"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.UndefinedSchemaIdHandling.None">
            <summary>
            Do not infer a schema Id.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.UndefinedSchemaIdHandling.UseTypeName">
            <summary>
            Use the .NET type name as the schema Id.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.Schema.UndefinedSchemaIdHandling.UseAssemblyQualifiedName">
            <summary>
            Use the assembly qualified .NET type name as the schema Id.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Schema.ValidationEventArgs">
            <summary>
            Returns detailed information related to the <see cref="T:Newtonsoft.Json.Schema.ValidationEventHandler"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Schema.ValidationEventArgs.Exception">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Schema.JsonSchemaException"/> associated with the validation error.
            </summary>
            <value>The JsonSchemaException associated with the validation error.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.ValidationEventArgs.Path">
            <summary>
            Gets the path of the JSON location where the validation error occurred.
            </summary>
            <value>The path of the JSON location where the validation error occurred.</value>
        </member>
        <member name="P:Newtonsoft.Json.Schema.ValidationEventArgs.Message">
            <summary>
            Gets the text description corresponding to the validation error.
            </summary>
            <value>The text description.</value>
        </member>
        <member name="T:Newtonsoft.Json.Schema.ValidationEventHandler">
            <summary>
            Represents the callback method that will handle JSON schema validation events and the <see cref="T:Newtonsoft.Json.Schema.ValidationEventArgs"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.CamelCasePropertyNamesContractResolver">
            <summary>
            Resolves member mappings for a type, camel casing property names.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.DefaultContractResolver">
            <summary>
            Used by <see cref="T:Newtonsoft.Json.JsonSerializer"/> to resolves a <see cref="T:Newtonsoft.Json.Serialization.JsonContract"/> for a given <see cref="T:System.Type"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.IContractResolver">
            <summary>
            Used by <see cref="T:Newtonsoft.Json.JsonSerializer"/> to resolves a <see cref="T:Newtonsoft.Json.Serialization.JsonContract"/> for a given <see cref="T:System.Type"/>.
            </summary>
            <example>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="ReducingSerializedJsonSizeContractResolverObject" title="IContractResolver Class"/>
              <code lang="cs" source="..\Src\Newtonsoft.Json.Tests\Documentation\SerializationTests.cs" region="ReducingSerializedJsonSizeContractResolverExample" title="IContractResolver Example"/>
            </example>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IContractResolver.ResolveContract(System.Type)">
            <summary>
            Resolves the contract for a given type.
            </summary>
            <param name="type">The type to resolve a contract for.</param>
            <returns>The contract for a given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.DefaultContractResolver"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.#ctor(System.Boolean)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.DefaultContractResolver"/> class.
            </summary>
            <param name="shareCache">
            If set to <c>true</c> the <see cref="T:Newtonsoft.Json.Serialization.DefaultContractResolver"/> will use a cached shared with other resolvers of the same type.
            Sharing the cache will significantly performance because expensive reflection will only happen once but could cause unexpected
            behavior if different instances of the resolver are suppose to produce different results. When set to false it is highly
            recommended to reuse <see cref="T:Newtonsoft.Json.Serialization.DefaultContractResolver"/> instances with the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.ResolveContract(System.Type)">
            <summary>
            Resolves the contract for a given type.
            </summary>
            <param name="type">The type to resolve a contract for.</param>
            <returns>The contract for a given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.GetSerializableMembers(System.Type)">
            <summary>
            Gets the serializable members for the type.
            </summary>
            <param name="objectType">The type to get serializable members for.</param>
            <returns>The serializable members for the type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateObjectContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonObjectContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonObjectContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateConstructorParameters(System.Reflection.ConstructorInfo,Newtonsoft.Json.Serialization.JsonPropertyCollection)">
            <summary>
            Creates the constructor parameters.
            </summary>
            <param name="constructor">The constructor to create properties for.</param>
            <param name="memberProperties">The type's member properties.</param>
            <returns>Properties for the given <see cref="T:System.Reflection.ConstructorInfo"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreatePropertyFromConstructorParameter(Newtonsoft.Json.Serialization.JsonProperty,System.Reflection.ParameterInfo)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> for the given <see cref="T:System.Reflection.ParameterInfo"/>.
            </summary>
            <param name="matchingMemberProperty">The matching member property.</param>
            <param name="parameterInfo">The constructor parameter.</param>
            <returns>A created <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> for the given <see cref="T:System.Reflection.ParameterInfo"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.ResolveContractConverter(System.Type)">
            <summary>
            Resolves the default <see cref="T:Newtonsoft.Json.JsonConverter"/> for the contract.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>The contract's default <see cref="T:Newtonsoft.Json.JsonConverter"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateDictionaryContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonDictionaryContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonDictionaryContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateArrayContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonArrayContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonArrayContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreatePrimitiveContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonPrimitiveContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonPrimitiveContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateLinqContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonLinqContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonLinqContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateISerializableContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonISerializableContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonISerializableContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateDynamicContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonDynamicContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonDynamicContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateStringContract(System.Type)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonStringContract"/> for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonStringContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateContract(System.Type)">
            <summary>
            Determines which contract type is created for the given type.
            </summary>
            <param name="objectType">Type of the object.</param>
            <returns>A <see cref="T:Newtonsoft.Json.Serialization.JsonContract"/> for the given type.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateProperties(System.Type,Newtonsoft.Json.MemberSerialization)">
            <summary>
            Creates properties for the given <see cref="T:Newtonsoft.Json.Serialization.JsonContract"/>.
            </summary>
            <param name="type">The type to create properties for.</param>
            /// <param name="memberSerialization">The member serialization mode for the type.</param>
            <returns>Properties for the given <see cref="T:Newtonsoft.Json.Serialization.JsonContract"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateMemberValueProvider(System.Reflection.MemberInfo)">
            <summary>
            Creates the <see cref="T:Newtonsoft.Json.Serialization.IValueProvider"/> used by the serializer to get and set values from a member.
            </summary>
            <param name="member">The member.</param>
            <returns>The <see cref="T:Newtonsoft.Json.Serialization.IValueProvider"/> used by the serializer to get and set values from a member.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.CreateProperty(System.Reflection.MemberInfo,Newtonsoft.Json.MemberSerialization)">
            <summary>
            Creates a <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> for the given <see cref="T:System.Reflection.MemberInfo"/>.
            </summary>
            <param name="memberSerialization">The member's parent <see cref="T:Newtonsoft.Json.MemberSerialization"/>.</param>
            <param name="member">The member to create a <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> for.</param>
            <returns>A created <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> for the given <see cref="T:System.Reflection.MemberInfo"/>.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.ResolvePropertyName(System.String)">
            <summary>
            Resolves the name of the property.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <returns>Name of the property.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultContractResolver.GetResolvedPropertyName(System.String)">
            <summary>
            Gets the resolved name of the property.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <returns>Name of the property.</returns>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.DefaultContractResolver.DynamicCodeGeneration">
            <summary>
            Gets a value indicating whether members are being get and set using dynamic code generation.
            This value is determined by the runtime permissions available.
            </summary>
            <value>
            	<c>true</c> if using dynamic code generation; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.DefaultContractResolver.DefaultMembersSearchFlags">
            <summary>
            Gets or sets the default members search flags.
            </summary>
            <value>The default members search flags.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.DefaultContractResolver.SerializeCompilerGeneratedMembers">
            <summary>
            Gets or sets a value indicating whether compiler generated members should be serialized.
            </summary>
            <value>
            	<c>true</c> if serialized compiler generated members; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.DefaultContractResolver.IgnoreSerializableInterface">
            <summary>
            Gets or sets a value indicating whether to ignore the <see cref="T:System.Runtime.Serialization.ISerializable"/> interface when serializing and deserializing types.
            </summary>
            <value>
            	<c>true</c> if the <see cref="T:System.Runtime.Serialization.ISerializable"/> interface will be ignored when serializing and deserializing types; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.DefaultContractResolver.IgnoreSerializableAttribute">
            <summary>
            Gets or sets a value indicating whether to ignore the <see cref="T:System.SerializableAttribute"/> attribute when serializing and deserializing types.
            </summary>
            <value>
            	<c>true</c> if the <see cref="T:System.SerializableAttribute"/> attribute will be ignored when serializing and deserializing types; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.CamelCasePropertyNamesContractResolver.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.CamelCasePropertyNamesContractResolver"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.CamelCasePropertyNamesContractResolver.ResolvePropertyName(System.String)">
            <summary>
            Resolves the name of the property.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <returns>The property name camel cased.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.IReferenceResolver">
            <summary>
            Used to resolve references when serializing and deserializing JSON by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IReferenceResolver.ResolveReference(System.Object,System.String)">
            <summary>
            Resolves a reference to its object.
            </summary>
            <param name="context">The serialization context.</param>
            <param name="reference">The reference to resolve.</param>
            <returns>The object that</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IReferenceResolver.GetReference(System.Object,System.Object)">
            <summary>
            Gets the reference for the sepecified object.
            </summary>
            <param name="context">The serialization context.</param>
            <param name="value">The object to get a reference for.</param>
            <returns>The reference to the object.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IReferenceResolver.IsReferenced(System.Object,System.Object)">
            <summary>
            Determines whether the specified object is referenced.
            </summary>
            <param name="context">The serialization context.</param>
            <param name="value">The object to test for a reference.</param>
            <returns>
            	<c>true</c> if the specified object is referenced; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IReferenceResolver.AddReference(System.Object,System.String,System.Object)">
            <summary>
            Adds a reference to the specified object.
            </summary>
            <param name="context">The serialization context.</param>
            <param name="reference">The reference.</param>
            <param name="value">The object to reference.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.DefaultSerializationBinder">
            <summary>
            The default serialization binder used when resolving and loading classes from type names.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultSerializationBinder.BindToType(System.String,System.String)">
            <summary>
            When overridden in a derived class, controls the binding of a serialized object to a type.
            </summary>
            <param name="assemblyName">Specifies the <see cref="T:System.Reflection.Assembly"/> name of the serialized object.</param>
            <param name="typeName">Specifies the <see cref="T:System.Type"/> name of the serialized object.</param>
            <returns>
            The type of the object the formatter creates a new instance of.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DefaultSerializationBinder.BindToName(System.Type,System.String@,System.String@)">
            <summary>
            When overridden in a derived class, controls the binding of a serialized object to a type.
            </summary>
            <param name="serializedType">The type of the object the formatter creates a new instance of.</param>
            <param name="assemblyName">Specifies the <see cref="T:System.Reflection.Assembly"/> name of the serialized object. </param>
            <param name="typeName">Specifies the <see cref="T:System.Type"/> name of the serialized object. </param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.DiagnosticsTraceWriter">
            <summary>
            Represents a trace writer that writes to the application's <see cref="T:System.Diagnostics.TraceListener"/> instances.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ITraceWriter">
            <summary>
            Represents a trace writer.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ITraceWriter.Trace(System.Diagnostics.TraceLevel,System.String,System.Exception)">
            <summary>
            Writes the specified trace level, message and optional exception.
            </summary>
            <param name="level">The <see cref="T:System.Diagnostics.TraceLevel"/> at which to write this trace.</param>
            <param name="message">The trace message.</param>
            <param name="ex">The trace exception. This parameter is optional.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ITraceWriter.LevelFilter">
            <summary>
            Gets the <see cref="T:System.Diagnostics.TraceLevel"/> that will be used to filter the trace messages passed to the writer.
            For example a filter level of <code>Info</code> will exclude <code>Verbose</code> messages and include <code>Info</code>,
            <code>Warning</code> and <code>Error</code> messages.
            </summary>
            <value>The <see cref="T:System.Diagnostics.TraceLevel"/> that will be used to filter the trace messages passed to the writer.</value>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DiagnosticsTraceWriter.Trace(System.Diagnostics.TraceLevel,System.String,System.Exception)">
            <summary>
            Writes the specified trace level, message and optional exception.
            </summary>
            <param name="level">The <see cref="T:System.Diagnostics.TraceLevel"/> at which to write this trace.</param>
            <param name="message">The trace message.</param>
            <param name="ex">The trace exception. This parameter is optional.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.DiagnosticsTraceWriter.LevelFilter">
            <summary>
            Gets the <see cref="T:System.Diagnostics.TraceLevel"/> that will be used to filter the trace messages passed to the writer.
            For example a filter level of <code>Info</code> will exclude <code>Verbose</code> messages and include <code>Info</code>,
            <code>Warning</code> and <code>Error</code> messages.
            </summary>
            <value>
            The <see cref="T:System.Diagnostics.TraceLevel"/> that will be used to filter the trace messages passed to the writer.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.DynamicValueProvider">
            <summary>
            Get and set values for a <see cref="T:System.Reflection.MemberInfo"/> using dynamic methods.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.IValueProvider">
            <summary>
            Provides methods to get and set values.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IValueProvider.SetValue(System.Object,System.Object)">
            <summary>
            Sets the value.
            </summary>
            <param name="target">The target to set the value on.</param>
            <param name="value">The value to set on the target.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.IValueProvider.GetValue(System.Object)">
            <summary>
            Gets the value.
            </summary>
            <param name="target">The target to get the value from.</param>
            <returns>The value.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DynamicValueProvider.#ctor(System.Reflection.MemberInfo)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.DynamicValueProvider"/> class.
            </summary>
            <param name="memberInfo">The member info.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DynamicValueProvider.SetValue(System.Object,System.Object)">
            <summary>
            Sets the value.
            </summary>
            <param name="target">The target to set the value on.</param>
            <param name="value">The value to set on the target.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.DynamicValueProvider.GetValue(System.Object)">
            <summary>
            Gets the value.
            </summary>
            <param name="target">The target to get the value from.</param>
            <returns>The value.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ErrorContext">
            <summary>
            Provides information surrounding an error.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorContext.Error">
            <summary>
            Gets the error.
            </summary>
            <value>The error.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorContext.OriginalObject">
            <summary>
            Gets the original object that caused the error.
            </summary>
            <value>The original object that caused the error.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorContext.Member">
            <summary>
            Gets the member that caused the error.
            </summary>
            <value>The member that caused the error.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorContext.Path">
            <summary>
            Gets the path of the JSON location where the error occurred.
            </summary>
            <value>The path of the JSON location where the error occurred.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorContext.Handled">
            <summary>
            Gets or sets a value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.ErrorContext"/> is handled.
            </summary>
            <value><c>true</c> if handled; otherwise, <c>false</c>.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ErrorEventArgs">
            <summary>
            Provides data for the Error event.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ErrorEventArgs.#ctor(System.Object,Newtonsoft.Json.Serialization.ErrorContext)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.ErrorEventArgs"/> class.
            </summary>
            <param name="currentObject">The current object.</param>
            <param name="errorContext">The error context.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorEventArgs.CurrentObject">
            <summary>
            Gets the current object the error event is being raised against.
            </summary>
            <value>The current object the error event is being raised against.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.ErrorEventArgs.ErrorContext">
            <summary>
            Gets the error context.
            </summary>
            <value>The error context.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ExpressionValueProvider">
            <summary>
            Get and set values for a <see cref="T:System.Reflection.MemberInfo"/> using dynamic methods.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ExpressionValueProvider.#ctor(System.Reflection.MemberInfo)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.ExpressionValueProvider"/> class.
            </summary>
            <param name="memberInfo">The member info.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ExpressionValueProvider.SetValue(System.Object,System.Object)">
            <summary>
            Sets the value.
            </summary>
            <param name="target">The target to set the value on.</param>
            <param name="value">The value to set on the target.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ExpressionValueProvider.GetValue(System.Object)">
            <summary>
            Gets the value.
            </summary>
            <param name="target">The target to get the value from.</param>
            <returns>The value.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonArrayContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonContainerContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.UnderlyingType">
            <summary>
            Gets the underlying type for the contract.
            </summary>
            <value>The underlying type for the contract.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.CreatedType">
            <summary>
            Gets or sets the type created during deserialization.
            </summary>
            <value>The type created during deserialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.IsReference">
            <summary>
            Gets or sets whether this type contract is serialized as a reference.
            </summary>
            <value>Whether this type contract is serialized as a reference.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.Converter">
            <summary>
            Gets or sets the default <see cref="T:Newtonsoft.Json.JsonConverter"/> for this contract.
            </summary>
            <value>The converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnDeserializedCallbacks">
            <summary>
            Gets or sets all methods called immediately after deserialization of the object.
            </summary>
            <value>The methods called immediately after deserialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnDeserializingCallbacks">
            <summary>
            Gets or sets all methods called during deserialization of the object.
            </summary>
            <value>The methods called during deserialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnSerializedCallbacks">
            <summary>
            Gets or sets all methods called after serialization of the object graph.
            </summary>
            <value>The methods called after serialization of the object graph.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnSerializingCallbacks">
            <summary>
            Gets or sets all methods called before serialization of the object.
            </summary>
            <value>The methods called before serialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnErrorCallbacks">
            <summary>
            Gets or sets all method called when an error is thrown during the serialization of the object.
            </summary>
            <value>The methods called when an error is thrown during the serialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnDeserialized">
            <summary>
            Gets or sets the method called immediately after deserialization of the object.
            </summary>
            <value>The method called immediately after deserialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnDeserializing">
            <summary>
            Gets or sets the method called during deserialization of the object.
            </summary>
            <value>The method called during deserialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnSerialized">
            <summary>
            Gets or sets the method called after serialization of the object graph.
            </summary>
            <value>The method called after serialization of the object graph.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnSerializing">
            <summary>
            Gets or sets the method called before serialization of the object.
            </summary>
            <value>The method called before serialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.OnError">
            <summary>
            Gets or sets the method called when an error is thrown during the serialization of the object.
            </summary>
            <value>The method called when an error is thrown during the serialization of the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.DefaultCreator">
            <summary>
            Gets or sets the default creator method used to create the object.
            </summary>
            <value>The default creator method used to create the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContract.DefaultCreatorNonPublic">
            <summary>
            Gets or sets a value indicating whether the default creator is non public.
            </summary>
            <value><c>true</c> if the default object creator is non-public; otherwise, <c>false</c>.</value>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonContainerContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonContainerContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContainerContract.ItemConverter">
            <summary>
            Gets or sets the default collection items <see cref="T:Newtonsoft.Json.JsonConverter"/>.
            </summary>
            <value>The converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContainerContract.ItemIsReference">
            <summary>
            Gets or sets a value indicating whether the collection items preserve object references.
            </summary>
            <value><c>true</c> if collection items preserve object references; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContainerContract.ItemReferenceLoopHandling">
            <summary>
            Gets or sets the collection item reference loop handling.
            </summary>
            <value>The reference loop handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonContainerContract.ItemTypeNameHandling">
            <summary>
            Gets or sets the collection item type name handling.
            </summary>
            <value>The type name handling.</value>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonArrayContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonArrayContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonArrayContract.CollectionItemType">
            <summary>
            Gets the <see cref="T:System.Type"/> of the collection items.
            </summary>
            <value>The <see cref="T:System.Type"/> of the collection items.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonArrayContract.IsMultidimensionalArray">
            <summary>
            Gets a value indicating whether the collection type is a multidimensional array.
            </summary>
            <value><c>true</c> if the collection type is a multidimensional array; otherwise, <c>false</c>.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.SerializationCallback">
            <summary>
            Handles <see cref="T:Newtonsoft.Json.JsonSerializer"/> serialization callback events.
            </summary>
            <param name="o">The object that raised the callback event.</param>
            <param name="context">The streaming context.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.SerializationErrorCallback">
            <summary>
            Handles <see cref="T:Newtonsoft.Json.JsonSerializer"/> serialization error callback events.
            </summary>
            <param name="o">The object that raised the callback event.</param>
            <param name="context">The streaming context.</param>
            <param name="errorContext">The error context.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ExtensionDataSetter">
            <summary>
            Sets extension data for an object during deserialization.
            </summary>
            <param name="o">The object to set extension data on.</param>
            <param name="key">The extension data key.</param>
            <param name="value">The extension data value.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ExtensionDataGetter">
            <summary>
            Gets extension data for an object during serialization.
            </summary>
            <param name="o">The object to set extension data on.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonDictionaryContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonDictionaryContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonDictionaryContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonDictionaryContract.PropertyNameResolver">
            <summary>
            Gets or sets the property name resolver.
            </summary>
            <value>The property name resolver.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonDictionaryContract.DictionaryKeyType">
            <summary>
            Gets the <see cref="T:System.Type"/> of the dictionary keys.
            </summary>
            <value>The <see cref="T:System.Type"/> of the dictionary keys.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonDictionaryContract.DictionaryValueType">
            <summary>
            Gets the <see cref="T:System.Type"/> of the dictionary values.
            </summary>
            <value>The <see cref="T:System.Type"/> of the dictionary values.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonDynamicContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonDynamicContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonDynamicContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonDynamicContract.Properties">
            <summary>
            Gets the object's properties.
            </summary>
            <value>The object's properties.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonDynamicContract.PropertyNameResolver">
            <summary>
            Gets or sets the property name resolver.
            </summary>
            <value>The property name resolver.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonISerializableContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonISerializableContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonISerializableContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonISerializableContract.ISerializableCreator">
            <summary>
            Gets or sets the ISerializable object constructor.
            </summary>
            <value>The ISerializable object constructor.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonLinqContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonLinqContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonLinqContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonObjectContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonObjectContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonObjectContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.MemberSerialization">
            <summary>
            Gets or sets the object member serialization.
            </summary>
            <value>The member object serialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.ItemRequired">
            <summary>
            Gets or sets a value that indicates whether the object's properties are required.
            </summary>
            <value>
            	A value indicating whether the object's properties are required.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.Properties">
            <summary>
            Gets the object's properties.
            </summary>
            <value>The object's properties.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.ConstructorParameters">
            <summary>
            Gets the constructor parameters required for any non-default constructor
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.CreatorParameters">
            <summary>
            Gets a collection of <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> instances that define the parameters used with <see cref="P:Newtonsoft.Json.Serialization.JsonObjectContract.OverrideCreator"/>.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.OverrideConstructor">
            <summary>
            Gets or sets the override constructor used to create the object.
            This is set when a constructor is marked up using the
            JsonConstructor attribute.
            </summary>
            <value>The override constructor.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.ParametrizedConstructor">
            <summary>
            Gets or sets the parametrized constructor used to create the object.
            </summary>
            <value>The parametrized constructor.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.OverrideCreator">
            <summary>
            Gets or sets the function used to create the object. When set this function will override <see cref="P:DefaultCreator"/>.
            This function is called with a collection of arguments which are defined by the <see cref="P:Newtonsoft.Json.Serialization.JsonObjectContract.CreatorParameters"/> collection.
            </summary>
            <value>The function used to create the object.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.ExtensionDataSetter">
            <summary>
            Gets or sets the extension data setter.
            </summary>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonObjectContract.ExtensionDataGetter">
            <summary>
            Gets or sets the extension data getter.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonPrimitiveContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonPrimitiveContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonPrimitiveContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonProperty">
            <summary>
            Maps a JSON property to a .NET member or constructor parameter.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonProperty.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> that represents this instance.
            </summary>
            <returns>
            A <see cref="T:System.String"/> that represents this instance.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.PropertyName">
            <summary>
            Gets or sets the name of the property.
            </summary>
            <value>The name of the property.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.DeclaringType">
            <summary>
            Gets or sets the type that declared this property.
            </summary>
            <value>The type that declared this property.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.Order">
            <summary>
            Gets or sets the order of serialization and deserialization of a member.
            </summary>
            <value>The numeric order of serialization or deserialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.UnderlyingName">
            <summary>
            Gets or sets the name of the underlying member or parameter.
            </summary>
            <value>The name of the underlying member or parameter.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ValueProvider">
            <summary>
            Gets the <see cref="T:Newtonsoft.Json.Serialization.IValueProvider"/> that will get and set the <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> during serialization.
            </summary>
            <value>The <see cref="T:Newtonsoft.Json.Serialization.IValueProvider"/> that will get and set the <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> during serialization.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.PropertyType">
            <summary>
            Gets or sets the type of the property.
            </summary>
            <value>The type of the property.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.Converter">
            <summary>
            Gets or sets the <see cref="T:Newtonsoft.Json.JsonConverter"/> for the property.
            If set this converter takes presidence over the contract converter for the property type.
            </summary>
            <value>The converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.MemberConverter">
            <summary>
            Gets or sets the member converter.
            </summary>
            <value>The member converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.Ignored">
            <summary>
            Gets or sets a value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> is ignored.
            </summary>
            <value><c>true</c> if ignored; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.Readable">
            <summary>
            Gets or sets a value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> is readable.
            </summary>
            <value><c>true</c> if readable; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.Writable">
            <summary>
            Gets or sets a value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> is writable.
            </summary>
            <value><c>true</c> if writable; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.HasMemberAttribute">
            <summary>
            Gets or sets a value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> has a member attribute.
            </summary>
            <value><c>true</c> if has a member attribute; otherwise, <c>false</c>.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.DefaultValue">
            <summary>
            Gets the default value.
            </summary>
            <value>The default value.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.Required">
            <summary>
            Gets or sets a value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> is required.
            </summary>
            <value>A value indicating whether this <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> is required.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.IsReference">
            <summary>
            Gets or sets a value indicating whether this property preserves object references.
            </summary>
            <value>
            	<c>true</c> if this instance is reference; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.NullValueHandling">
            <summary>
            Gets or sets the property null value handling.
            </summary>
            <value>The null value handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.DefaultValueHandling">
            <summary>
            Gets or sets the property default value handling.
            </summary>
            <value>The default value handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ReferenceLoopHandling">
            <summary>
            Gets or sets the property reference loop handling.
            </summary>
            <value>The reference loop handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ObjectCreationHandling">
            <summary>
            Gets or sets the property object creation handling.
            </summary>
            <value>The object creation handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.TypeNameHandling">
            <summary>
            Gets or sets or sets the type name handling.
            </summary>
            <value>The type name handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ShouldSerialize">
            <summary>
            Gets or sets a predicate used to determine whether the property should be serialize.
            </summary>
            <value>A predicate used to determine whether the property should be serialize.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.GetIsSpecified">
            <summary>
            Gets or sets a predicate used to determine whether the property should be serialized.
            </summary>
            <value>A predicate used to determine whether the property should be serialized.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.SetIsSpecified">
            <summary>
            Gets or sets an action used to set whether the property has been deserialized.
            </summary>
            <value>An action used to set whether the property has been deserialized.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ItemConverter">
            <summary>
            Gets or sets the converter used when serializing the property's collection items.
            </summary>
            <value>The collection's items converter.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ItemIsReference">
            <summary>
            Gets or sets whether this property's collection items are serialized as a reference.
            </summary>
            <value>Whether this property's collection items are serialized as a reference.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ItemTypeNameHandling">
            <summary>
            Gets or sets the the type name handling used when serializing the property's collection items.
            </summary>
            <value>The collection's items type name handling.</value>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.JsonProperty.ItemReferenceLoopHandling">
            <summary>
            Gets or sets the the reference loop handling used when serializing the property's collection items.
            </summary>
            <value>The collection's items reference loop handling.</value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonPropertyCollection">
            <summary>
            A collection of <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> objects.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonPropertyCollection.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonPropertyCollection"/> class.
            </summary>
            <param name="type">The type.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonPropertyCollection.GetKeyForItem(Newtonsoft.Json.Serialization.JsonProperty)">
            <summary>
            When implemented in a derived class, extracts the key from the specified element.
            </summary>
            <param name="item">The element from which to extract the key.</param>
            <returns>The key for the specified element.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonPropertyCollection.AddProperty(Newtonsoft.Json.Serialization.JsonProperty)">
            <summary>
            Adds a <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> object.
            </summary>
            <param name="property">The property to add to the collection.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonPropertyCollection.GetClosestMatchProperty(System.String)">
            <summary>
            Gets the closest matching <see cref="T:Newtonsoft.Json.Serialization.JsonProperty"/> object.
            First attempts to get an exact case match of propertyName and then
            a case insensitive match.
            </summary>
            <param name="propertyName">Name of the property.</param>
            <returns>A matching property if found.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonPropertyCollection.GetProperty(System.String,System.StringComparison)">
            <summary>
            Gets a property by property name.
            </summary>
            <param name="propertyName">The name of the property to get.</param>
            <param name="comparisonType">Type property name string comparison.</param>
            <returns>A matching property if found.</returns>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.JsonStringContract">
            <summary>
            Contract details for a <see cref="T:System.Type"/> used by the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.JsonStringContract.#ctor(System.Type)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.JsonStringContract"/> class.
            </summary>
            <param name="underlyingType">The underlying type for the contract.</param>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.MemoryTraceWriter">
            <summary>
            Represents a trace writer that writes to memory. When the trace message limit is
            reached then old trace messages will be removed as new messages are added.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.MemoryTraceWriter.#ctor">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.MemoryTraceWriter"/> class.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.MemoryTraceWriter.Trace(System.Diagnostics.TraceLevel,System.String,System.Exception)">
            <summary>
            Writes the specified trace level, message and optional exception.
            </summary>
            <param name="level">The <see cref="T:System.Diagnostics.TraceLevel"/> at which to write this trace.</param>
            <param name="message">The trace message.</param>
            <param name="ex">The trace exception. This parameter is optional.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.MemoryTraceWriter.GetTraceMessages">
            <summary>
            Returns an enumeration of the most recent trace messages.
            </summary>
            <returns>An enumeration of the most recent trace messages.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.MemoryTraceWriter.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> of the most recent trace messages.
            </summary>
            <returns>
            A <see cref="T:System.String"/> of the most recent trace messages.
            </returns>
        </member>
        <member name="P:Newtonsoft.Json.Serialization.MemoryTraceWriter.LevelFilter">
            <summary>
            Gets the <see cref="T:System.Diagnostics.TraceLevel"/> that will be used to filter the trace messages passed to the writer.
            For example a filter level of <code>Info</code> will exclude <code>Verbose</code> messages and include <code>Info</code>,
            <code>Warning</code> and <code>Error</code> messages.
            </summary>
            <value>
            The <see cref="T:System.Diagnostics.TraceLevel"/> that will be used to filter the trace messages passed to the writer.
            </value>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ObjectConstructor`1">
            <summary>
            Represents a method that constructs an object.
            </summary>
            <typeparam name="T">The object type to create.</typeparam>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.OnErrorAttribute">
            <summary>
            When applied to a method, specifies that the method is called when an error occurs serializing an object.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.Serialization.ReflectionValueProvider">
            <summary>
            Get and set values for a <see cref="T:System.Reflection.MemberInfo"/> using reflection.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ReflectionValueProvider.#ctor(System.Reflection.MemberInfo)">
            <summary>
            Initializes a new instance of the <see cref="T:Newtonsoft.Json.Serialization.ReflectionValueProvider"/> class.
            </summary>
            <param name="memberInfo">The member info.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ReflectionValueProvider.SetValue(System.Object,System.Object)">
            <summary>
            Sets the value.
            </summary>
            <param name="target">The target to set the value on.</param>
            <param name="value">The value to set on the target.</param>
        </member>
        <member name="M:Newtonsoft.Json.Serialization.ReflectionValueProvider.GetValue(System.Object)">
            <summary>
            Gets the value.
            </summary>
            <param name="target">The target to get the value from.</param>
            <returns>The value.</returns>
        </member>
        <member name="T:Newtonsoft.Json.StringEscapeHandling">
            <summary>
            Specifies how strings are escaped when writing JSON text.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.StringEscapeHandling.Default">
            <summary>
            Only control characters (e.g. newline) are escaped.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.StringEscapeHandling.EscapeNonAscii">
            <summary>
            All non-ASCII and control characters (e.g. newline) are escaped.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.StringEscapeHandling.EscapeHtml">
            <summary>
            HTML (&lt;, &gt;, &amp;, &apos;, &quot;) and control characters (e.g. newline) are escaped.
            </summary>
        </member>
        <member name="T:Newtonsoft.Json.TypeNameHandling">
            <summary>
            Specifies type name handling options for the <see cref="T:Newtonsoft.Json.JsonSerializer"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.TypeNameHandling.None">
            <summary>
            Do not include the .NET type name when serializing types.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.TypeNameHandling.Objects">
            <summary>
            Include the .NET type name when serializing into a JSON object structure.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.TypeNameHandling.Arrays">
            <summary>
            Include the .NET type name when serializing into a JSON array structure.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.TypeNameHandling.All">
            <summary>
            Always include the .NET type name when serializing.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.TypeNameHandling.Auto">
            <summary>
            Include the .NET type name when the type of the object being serialized is not the same as its declared type.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.CollectionUtils.IsNullOrEmpty``1(System.Collections.Generic.ICollection{``0})">
            <summary>
            Determines whether the collection is null or empty.
            </summary>
            <param name="collection">The collection.</param>
            <returns>
            	<c>true</c> if the collection is null or empty; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.CollectionUtils.AddRange``1(System.Collections.Generic.IList{``0},System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Adds the elements of the specified collection to the specified generic IList.
            </summary>
            <param name="initial">The list to add to.</param>
            <param name="collection">The collection of elements to add.</param>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.CollectionUtils.IndexOf``1(System.Collections.Generic.IEnumerable{``0},``0,System.Collections.Generic.IEqualityComparer{``0})">
            <summary>
            Returns the index of the first occurrence in a sequence by using a specified IEqualityComparer.
            </summary>
            <typeparam name="TSource">The type of the elements of source.</typeparam>
            <param name="list">A sequence in which to locate a value.</param>
            <param name="value">The object to locate in the sequence</param>
            <param name="comparer">An equality comparer to compare values.</param>
            <returns>The zero-based index of the first occurrence of value within the entire sequence, if found; otherwise, –1.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ConvertUtils.ConvertOrCast(System.Object,System.Globalization.CultureInfo,System.Type)">
            <summary>
            Converts the value to the specified type. If the value is unable to be converted, the
            value is checked whether it assignable to the specified type.
            </summary>
            <param name="initialValue">The value to convert.</param>
            <param name="culture">The culture to use when converting.</param>
            <param name="targetType">The type to convert or cast the value to.</param>
            <returns>
            The converted type. If conversion was unsuccessful, the initial value
            is returned if assignable to the target type.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.DynamicProxyMetaObject`1.CallMethodWithResult(System.String,System.Dynamic.DynamicMetaObjectBinder,System.Linq.Expressions.Expression[],Newtonsoft.Json.Utilities.DynamicProxyMetaObject{`0}.Fallback,Newtonsoft.Json.Utilities.DynamicProxyMetaObject{`0}.Fallback)">
            <summary>
            Helper method for generating a MetaObject which calls a
            specific method on Dynamic that returns a result
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.DynamicProxyMetaObject`1.CallMethodReturnLast(System.String,System.Dynamic.DynamicMetaObjectBinder,System.Linq.Expressions.Expression[],Newtonsoft.Json.Utilities.DynamicProxyMetaObject{`0}.Fallback)">
            <summary>
            Helper method for generating a MetaObject which calls a
            specific method on Dynamic, but uses one of the arguments for
            the result.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.DynamicProxyMetaObject`1.CallMethodNoResult(System.String,System.Dynamic.DynamicMetaObjectBinder,System.Linq.Expressions.Expression[],Newtonsoft.Json.Utilities.DynamicProxyMetaObject{`0}.Fallback)">
            <summary>
            Helper method for generating a MetaObject which calls a
            specific method on Dynamic, but uses one of the arguments for
            the result.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.DynamicProxyMetaObject`1.GetRestrictions">
            <summary>
            Returns a Restrictions object which includes our current restrictions merged
            with a restriction limiting our type
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.EnumUtils.GetNamesAndValues``1">
            <summary>
            Gets a dictionary of the names and values of an Enum type.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.EnumUtils.GetNamesAndValues``1(System.Type)">
            <summary>
            Gets a dictionary of the names and values of an Enum type.
            </summary>
            <param name="enumType">The enum type to get names and values for.</param>
            <returns></returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.GetCollectionItemType(System.Type)">
            <summary>
            Gets the type of the typed collection's items.
            </summary>
            <param name="type">The type.</param>
            <returns>The type of the typed collection's items.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.GetMemberUnderlyingType(System.Reflection.MemberInfo)">
            <summary>
            Gets the member's underlying type.
            </summary>
            <param name="member">The member.</param>
            <returns>The underlying type of the member.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.IsIndexedProperty(System.Reflection.MemberInfo)">
            <summary>
            Determines whether the member is an indexed property.
            </summary>
            <param name="member">The member.</param>
            <returns>
            	<c>true</c> if the member is an indexed property; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.IsIndexedProperty(System.Reflection.PropertyInfo)">
            <summary>
            Determines whether the property is an indexed property.
            </summary>
            <param name="property">The property.</param>
            <returns>
            	<c>true</c> if the property is an indexed property; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.GetMemberValue(System.Reflection.MemberInfo,System.Object)">
            <summary>
            Gets the member's value on the object.
            </summary>
            <param name="member">The member.</param>
            <param name="target">The target object.</param>
            <returns>The member's value on the object.</returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.SetMemberValue(System.Reflection.MemberInfo,System.Object,System.Object)">
            <summary>
            Sets the member's value on the target object.
            </summary>
            <param name="member">The member.</param>
            <param name="target">The target.</param>
            <param name="value">The value.</param>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.CanReadMemberValue(System.Reflection.MemberInfo,System.Boolean)">
            <summary>
            Determines whether the specified MemberInfo can be read.
            </summary>
            <param name="member">The MemberInfo to determine whether can be read.</param>
            /// <param name="nonPublic">if set to <c>true</c> then allow the member to be gotten non-publicly.</param>
            <returns>
            	<c>true</c> if the specified MemberInfo can be read; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.ReflectionUtils.CanSetMemberValue(System.Reflection.MemberInfo,System.Boolean,System.Boolean)">
            <summary>
            Determines whether the specified MemberInfo can be set.
            </summary>
            <param name="member">The MemberInfo to determine whether can be set.</param>
            <param name="nonPublic">if set to <c>true</c> then allow the member to be set non-publicly.</param>
            <param name="canSetReadOnly">if set to <c>true</c> then allow the member to be set if read-only.</param>
            <returns>
            	<c>true</c> if the specified MemberInfo can be set; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="T:Newtonsoft.Json.Utilities.StringBuffer">
            <summary>
            Builds a string. Unlike StringBuilder this class lets you reuse it's internal buffer.
            </summary>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.StringUtils.IsWhiteSpace(System.String)">
            <summary>
            Determines whether the string is all white space. Empty string will return false.
            </summary>
            <param name="s">The string to test whether it is all white space.</param>
            <returns>
            	<c>true</c> if the string is all white space; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Newtonsoft.Json.Utilities.StringUtils.NullEmptyString(System.String)">
            <summary>
            Nulls an empty string.
            </summary>
            <param name="s">The string.</param>
            <returns>Null if the string was null, otherwise the string unchanged.</returns>
        </member>
        <member name="T:Newtonsoft.Json.WriteState">
            <summary>
            Specifies the state of the <see cref="T:Newtonsoft.Json.JsonWriter"/>.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Error">
            <summary>
            An exception has been thrown, which has left the <see cref="T:Newtonsoft.Json.JsonWriter"/> in an invalid state.
            You may call the <see cref="M:Newtonsoft.Json.JsonWriter.Close"/> method to put the <see cref="T:Newtonsoft.Json.JsonWriter"/> in the <c>Closed</c> state.
            Any other <see cref="T:Newtonsoft.Json.JsonWriter"/> method calls results in an <see cref="T:System.InvalidOperationException"/> being thrown. 
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Closed">
            <summary>
            The <see cref="M:Newtonsoft.Json.JsonWriter.Close"/> method has been called. 
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Object">
            <summary>
            An object is being written. 
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Array">
            <summary>
            A array is being written.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Constructor">
            <summary>
            A constructor is being written.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Property">
            <summary>
            A property is being written.
            </summary>
        </member>
        <member name="F:Newtonsoft.Json.WriteState.Start">
            <summary>
            A write method has not been called.
            </summary>
        </member>
    </members>
</doc>
tools\icsharp\NuGet.Core.dll
 
tools\icsharp\PowerArgs.dll
 
tools\icsharp\PowerArgs.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>PowerArgs</name>
    </assembly>
    <members>
        <member name="T:PowerArgs.IArgMetadataEx">
            <summary>
            Extension methods that make it easy to work with metadata collections
            </summary>
        </member>
        <member name="M:PowerArgs.IArgMetadataEx.HasMeta``1(System.Collections.Generic.IEnumerable{PowerArgs.IArgMetadata})">
            <summary>
            Returns true if the given collection of metadata contains metadata of the generic type T
            provided.
            </summary>
            <typeparam name="T">The type of metadata to search for</typeparam>
            <param name="metadata">The list of metadata to search</param>
            <returns>rue if the given collection of metadata contains metadata of the generic type T
            provided, otherwise false</returns>
        </member>
        <member name="M:PowerArgs.IArgMetadataEx.Meta``1(System.Collections.Generic.IEnumerable{PowerArgs.IArgMetadata})">
            <summary>
            Gets the first instance of metadata of the given generic type T in the collection
            or null if it was not found.
            </summary>
            <typeparam name="T">The type of metadata to search for</typeparam>
            <param name="metadata">The list of metadata to search</param>
            <returns>the first instance of an metadata of the given generic type T in the collection
            or null if it was not found</returns>
        </member>
        <member name="M:PowerArgs.IArgMetadataEx.TryGetMeta``1(System.Collections.Generic.IEnumerable{PowerArgs.IArgMetadata},``0@)">
            <summary>
            Try to get the first instance of metadata of the given generic type T in the collection.
            </summary>
            <typeparam name="T">The type of metadata to search for</typeparam>
            <param name="metadata">The list of metadata to search</param>
            <param name="ret">the our variable to set if the metadata was found</param>
            <returns>true if the metadata was found, otherwise false</returns>
        </member>
        <member name="M:PowerArgs.IArgMetadataEx.Metas``1(System.Collections.Generic.IEnumerable{PowerArgs.IArgMetadata})">
            <summary>
            Gets the subset of metadata of the given generic type T from the collection.
            </summary>
            <typeparam name="T">The type of metadata to search for</typeparam>
            <param name="metadata">The list of metadata to search</param>
            <returns>the subset of metadata of the given generic type T from the collection</returns>
        </member>
        <member name="T:PowerArgs.MatchCollectionEx">
            <summary>
            A simple helper that makes it possible to do Linq queries over a MatchCollection
            </summary>
        </member>
        <member name="M:PowerArgs.MatchCollectionEx.ToList(System.Text.RegularExpressions.MatchCollection)">
            <summary>
            Converts a MatchCollection to a List of Match objects so that you can perform linq queries over the matches.
            </summary>
            <param name="matches">The MatchCollection to convert</param>
            <returns>a list of Match objects</returns>
        </member>
        <member name="T:PowerArgs.MemberInfoEx">
            <summary>
            Provides some reflection helpers in the form of extension methods for the MemberInfo type.
            </summary>
        </member>
        <member name="M:PowerArgs.MemberInfoEx.HasAttr``1(System.Reflection.MemberInfo)">
            <summary>
            Returns true if the given member has an attribute of the given type (including inherited types).
            </summary>
            <typeparam name="T">The type of attribute to test for (will return true for attributes that inherit from this type)</typeparam>
            <param name="info">The member to test</param>
            <returns>true if a matching attribute was found, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.MemberInfoEx.Attr``1(System.Reflection.MemberInfo)">
            <summary>
            Gets the attribute of the given type or null if the member does not have this attribute defined.  The standard reflection helper GetCustomAttributes will
            give you a new instance of the attribute every time you call it.  This helper caches it's results so if you ask for the same attibute twice you will actually
            get back the same attribute.  Note that the cache key is based off of the type T that you provide.  So asking for Attr() where T : BaseType> and then asking for Attr() where T : ConcreteType 
            will result in two different objects being returned.  If you ask for Attr() where T : BaseType and then Attr() where T :BaseType the caching will work and you'll get the same object back
            the second time.
            </summary>
            <typeparam name="T">The type of attribute to search for</typeparam>
            <param name="info">The member to inspect</param>
            <returns>The desired attribute or null if it is not present</returns>
        </member>
        <member name="M:PowerArgs.MemberInfoEx.Attrs``1(System.Reflection.MemberInfo)">
            <summary>
            Gets the attributes of the given type.  The standard reflection helper GetCustomAttributes will give you new instances of the attributes every time you call it.  
            This helper caches it's results so if you ask for the same attibutes twice you will actually get back the same attributes.  Note that the cache key is based off 
            of the type T that you provide.  So asking for Attrs() where T : BaseType and then asking for Attrs() where T : ConcreteType
            will result in two different sets of objects being returned.  If you ask for Attrs() where T : BaseType and then Attrs() where T : BaseType the caching will work and you'll get the
            same results back the second time.
            </summary>
            <typeparam name="T">The type of attribute to search for</typeparam>
            <param name="info">The member to inspect</param>
            <returns>The list of attributes that you asked for</returns>
        </member>
        <member name="T:PowerArgs.ParemeterInfoEx">
            <summary>
            Some useful helper extensions for the ParameterInfo type
            </summary>
        </member>
        <member name="M:PowerArgs.ParemeterInfoEx.HasAttr``1(System.Reflection.ParameterInfo)">
            <summary>
            Returns true if the given parameter has an attribute of the given type (including inherited types).
            </summary>
            <typeparam name="T">The type of attribute to test for (will return true for attributes that inherit from this type)</typeparam>
            <param name="info">The parameter to test</param>
            <returns>true if a matching attribute was found, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.ParemeterInfoEx.Attr``1(System.Reflection.ParameterInfo)">
            <summary>
            Gets the attribute of the given type or null if the parameter does not have this attribute defined.  The standard reflection helper GetCustomAttributes will
            give you a new instance of the attribute every time you call it.  This helper caches it's results so if you ask for the same attibute twice you will actually
            get back the same attribute.  Note that the cache key is based off of the type T that you provide.  So asking for Attr() where T : BaseType> and then asking for Attr() where T : ConcreteType 
            will result in two different objects being returned.  If you ask for Attr() where T : BaseType and then Attr() where T :BaseType the caching will work and you'll get the same object back
            the second time.
            </summary>
            <typeparam name="T">The type of attribute to search for</typeparam>
            <param name="info">The parameter to inspect</param>
            <returns>The desired attribute or null if it is not present</returns>
        </member>
        <member name="M:PowerArgs.ParemeterInfoEx.Attrs``1(System.Reflection.ParameterInfo)">
            <summary>
            Gets the attributes of the given type.  The standard reflection helper GetCustomAttributes will give you new instances of the attributes every time you call it.  
            This helper caches it's results so if you ask for the same attibutes twice you will actually get back the same attributes.  Note that the cache key is based off 
            of the type T that you provide.  So asking for Attrs() where T : BaseType and then asking for Attrs() where T : ConcreteType
            will result in two different sets of objects being returned.  If you ask for Attrs() where T : BaseType and then Attrs() where T : BaseType the caching will work and you'll get the
            same results back the second time.
            </summary>
            <typeparam name="T">The type of attribute to search for</typeparam>
            <param name="info">The parameter to inspect</param>
            <returns>The list of attributes that you asked for</returns>
        </member>
        <member name="T:PowerArgs.AliasCollection">
            <summary>
            This class tracks the command line aliases for a CommandLineArgument and a CommandLineAction.
            It combines the aliases that have been retrieved from the ArgShortcut attibute and any additional
            aliases that may have been added to the model manually into a single collection.  It also makes sure that those two sources
            of aliases don't conflict.
            
            </summary>
        </member>
        <member name="M:PowerArgs.AliasCollection.IndexOf(System.String)">
            <summary>
            Gets the index of the given alias in the collection.
            </summary>
            <param name="item">the alias to look for</param>
            <returns>The index of item if found in the list; otherwise, -1.</returns>
        </member>
        <member name="M:PowerArgs.AliasCollection.Insert(System.Int32,System.String)">
            <summary>
            Not supported
            </summary>
            <param name="index">Not supported</param>
            <param name="item">Not supported</param>
        </member>
        <member name="M:PowerArgs.AliasCollection.RemoveAt(System.Int32)">
            <summary>
            Not supported
            </summary>
            <param name="index">Not supported</param>
        </member>
        <member name="M:PowerArgs.AliasCollection.AddRange(System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Adds the given aliases to the collection. 
            </summary>
            <param name="items">The alias to add</param>
        </member>
        <member name="M:PowerArgs.AliasCollection.Add(System.String)">
            <summary>
            Adds the given alias to the collection.  An InvalidArgDefinitionException is thrown if you try to add
            the same alias twice (case sensitivity is determined by the CommandLineArgument or CommandLineAction).
            </summary>
            <param name="item">The alias to add</param>
        </member>
        <member name="M:PowerArgs.AliasCollection.Clear">
            <summary>
            Clear is not supported, use ClearOverrides() to clear items that have manually been added
            </summary>
        </member>
        <member name="M:PowerArgs.AliasCollection.ClearOverrides">
            <summary>
            Clears the aliases that have been manually addd to this collection via Add() or AddRange().
            Aliases that are inferred from the Metadata will still be present in the collection. 
            </summary>
        </member>
        <member name="M:PowerArgs.AliasCollection.Contains(System.String)">
            <summary>
            Tests to see if this Alias collection contains the given item.  Case sensitivity is enforced
            based on the CommandLineArgument or CommandLineAction.
            </summary>
            <param name="item">The item to test for containment</param>
            <returns>True if the collection contains the item, otherwise false</returns>
        </member>
        <member name="M:PowerArgs.AliasCollection.CopyTo(System.String[],System.Int32)">
            <summary>
            Copies this collection to an array, starting at the given index
            </summary>
            <param name="array">the destination array</param>
            <param name="arrayIndex">the starting index of where to place the elements into the destination</param>
        </member>
        <member name="M:PowerArgs.AliasCollection.Remove(System.String)">
            <summary>
            Removes the given alias from the collection if it was added via Add() or AddRange().  If
            it was added by injecting metadata into a CommandLineArgument or a CommandLineAction then
            an InvalidOperationException will be thrown.  The correct way to remove metadata injected
            aliases is to remove it from the metadata directly.
            </summary>
            <param name="item">the item to remove</param>
            <returns>true if the alias was removed, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.AliasCollection.GetEnumerator">
            <summary>
            Gets an enumerator capable of enumerating all aliases
            </summary>
            <returns>an enumerator capable of enumerating all aliases</returns>
        </member>
        <member name="M:PowerArgs.AliasCollection.System#Collections#IEnumerable#GetEnumerator">
            <summary>
            Gets an enumerator capable of enumerating all aliases
            </summary>
            <returns>an enumerator capable of enumerating all aliases</returns>
        </member>
        <member name="P:PowerArgs.AliasCollection.Item(System.Int32)">
            <summary>
            The setter is not supported.  The getter returns the item at the specified index.
            </summary>
            <param name="index"></param>
            <returns>the item at the specified index</returns>
        </member>
        <member name="P:PowerArgs.AliasCollection.Count">
            <summary>
            Gets the count of aliases
            </summary>
        </member>
        <member name="P:PowerArgs.AliasCollection.IsReadOnly">
            <summary>
            Not read only ever
            </summary>
        </member>
        <member name="T:PowerArgs.ArgAction`1">
            <summary>
            This is the more complex version of the public result that is produced by the parser.
            </summary>
            <typeparam name="T">Represents the custom argument scaffold type that was passed to the parser.</typeparam>
        </member>
        <member name="T:PowerArgs.ArgAction">
            <summary>
            This is the weakly typed, more complex version of the public result that is produced by the parser.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgAction.Invoke">
            <summary>
            This will find the implementation method for your action and invoke it, passing the action specific
            arguments as a parameter.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.Definition">
            <summary>
            The definition or model that was used to parse the arguments
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.Value">
            <summary>
            The instance of your custom scaffold type that the parser generated and parsed.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.ActionArgs">
            <summary>
            If you used the action framework then this will represent the instance of the action specific arguments
            that were parsed.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.ActionArgsProperty">
            <summary>
            If you used the action framework then this will map to the property that the user specified as the first
            parameter on the command line.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.ActionParameters">
            <summary>
            This is set if you defined your action via a method with simple parameters
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.HandledException">
            <summary>
            If an exception was handled by the parser then this property will be populated and others will not be.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction.Cancelled">
            <summary>
            If processing was cancelled then this property will be set to true.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgAction`1.Args">
            <summary>
            The instance of your custom scaffold type that the parser generated and parsed.
            </summary>
        </member>
        <member name="T:PowerArgs.ConsoleHelper">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="F:PowerArgs.ConsoleHelper.ConsoleImpl">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.ConsoleHelper.ParseContext(System.String)">
            <summary>
            The input is the full command line previous to the token to be completed.  This function 
            pulls out the last token before the completion's 'so far' input.
            </summary>
            <param name="commandLine"></param>
            <returns></returns>
        </member>
        <member name="T:PowerArgs.ConsoleCharacter">
            <summary>
            A wrapper for char that encapsulates foreground and background colors.
            </summary>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.#ctor(System.Char,System.Nullable{System.ConsoleColor},System.Nullable{System.ConsoleColor})">
            <summary>
            Create a new ConsoleCharacter given a char value and optionally set the foreground or background coor.
            </summary>
            <param name="value">The character value</param>
            <param name="foregroundColor">The foreground color (defaults to the console's foreground color at initialization time).</param>
            <param name="backgroundColor">The background color (defaults to the console's background color at initialization time).</param>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.Write">
            <summary>
            Write this formatted character to the console
            </summary>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.ToString">
            <summary>
            Gets the string representation of the character
            </summary>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.Equals(System.Object)">
            <summary>
            ConsoleCharacters can be compared to other ConsoleCharacter instances or char values.
            </summary>
            <param name="obj">The ConsoleCharacter or char to compare to.</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.op_Equality(PowerArgs.ConsoleCharacter,PowerArgs.ConsoleCharacter)">
            <summary>
            Operator overload for Equals
            </summary>
            <param name="a">The first operand</param>
            <param name="b">The second operand</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.op_Inequality(PowerArgs.ConsoleCharacter,PowerArgs.ConsoleCharacter)">
            <summary>
            Operator overload for !Equals
            </summary>
            <param name="a">The first operand</param>
            <param name="b">The second operand</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.op_Equality(PowerArgs.ConsoleCharacter,System.Char)">
            <summary>
            Operator overload for Equals
            </summary>
            <param name="a">The first operand</param>
            <param name="b">The second operand</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.op_Inequality(PowerArgs.ConsoleCharacter,System.Char)">
            <summary>
            Operator overload for !Equals
            </summary>
            <param name="a">The first operand</param>
            <param name="b">The second operand</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleCharacter.GetHashCode">
            <summary>
            Override of GetHashcode that returns the internal char's hashcode.
            </summary>
            <returns>the internal char's hashcode.</returns>
        </member>
        <member name="P:PowerArgs.ConsoleCharacter.Value">
            <summary>
            The value of the character
            </summary>
        </member>
        <member name="P:PowerArgs.ConsoleCharacter.ForegroundColor">
            <summary>
            The console foreground color to use when printing this character.
            </summary>
        </member>
        <member name="P:PowerArgs.ConsoleCharacter.BackgroundColor">
            <summary>
            The console background color to use when printing this character.
            </summary>
        </member>
        <member name="T:PowerArgs.ConsoleString">
            <summary>
            A wrapper for string that encapsulates foreground and background colors.
            </summary>
        </member>
        <member name="M:PowerArgs.ConsoleString.#ctor">
            <summary>
            Create a new empty ConsoleString
            </summary>
        </member>
        <member name="M:PowerArgs.ConsoleString.#ctor(System.String,System.Nullable{System.ConsoleColor},System.Nullable{System.ConsoleColor})">
            <summary>
            Create a ConsoleString given an initial text value and optional color info.
            </summary>
            <param name="value"></param>
            <param name="foregroundColor">The foreground color (defaults to the console's foreground color at initialization time).</param>
            <param name="backgroundColor">The background color (defaults to the console's background color at initialization time).</param>
        </member>
        <member name="M:PowerArgs.ConsoleString.Append(System.String,System.Nullable{System.ConsoleColor},System.Nullable{System.ConsoleColor})">
            <summary>
            Appends the given value to this ConsoleString using the given formatting.
            </summary>
            <param name="value"></param>
            <param name="foregroundColor">The foreground color (defaults to the console's foreground color at initialization time).</param>
            <param name="backgroundColor">The background color (defaults to the console's background color at initialization time).</param>
        </member>
        <member name="M:PowerArgs.ConsoleString.Append(PowerArgs.ConsoleString)">
            <summary>
            Concatenates two ConsoleStrings together.
            </summary>
            <param name="other">The string to append.</param>
        </member>
        <member name="M:PowerArgs.ConsoleString.AppendUsingCurrentFormat(System.String)">
            <summary>
            Appends the given value using the formatting of the last character or the default formatting if this ConsoleString is empty.
            </summary>
            <param name="value">The string to append.</param>
        </member>
        <member name="M:PowerArgs.ConsoleString.Replace(System.String,System.String,System.Nullable{System.ConsoleColor},System.Nullable{System.ConsoleColor})">
            <summary>
            Replaces all occurrances of the given string with the replacement value using the specified formatting.
            </summary>
            <param name="toFind">The substring to find</param>
            <param name="toReplace">The replacement value</param>
            <param name="foregroundColor">The foreground color (defaults to the console's foreground color at initialization time).</param>
            <param name="backgroundColor">The background color (defaults to the console's background color at initialization time).</param>
            <returns>A new ConsoleString with the replacements.</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.ReplaceRegex(System.String,System.String,System.Nullable{System.ConsoleColor},System.Nullable{System.ConsoleColor})">
            <summary>
            Replaces all matches of the given regular expression with the replacement value using the specified formatting.
            </summary>
            <param name="regex">The regular expression to find.</param>
            <param name="toReplace">The replacement value</param>
            <param name="foregroundColor">The foreground color (defaults to the console's foreground color at initialization time).</param>
            <param name="backgroundColor">The background color (defaults to the console's background color at initialization time).</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.IndexOf(System.String)">
            <summary>
            Finds the index of a given substring in this ConsoleString.
            </summary>
            <param name="toFind">The substring to search for.</param>
            <returns>The first index of the given substring or -1 if the substring was not found.</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.Contains(System.String)">
            <summary>
            Determines if this ConsoleString contains the given substring.
            </summary>
            <param name="substr">The substring to search for.</param>
            <returns>True if found, false otherwise.</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.Substring(System.Int32)">
            <summary>
            Get a substring of this ConsoleString starting at the given index.
            </summary>
            <param name="start">the start index.</param>
            <returns>A new ConsoleString representing the substring requested.</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.Substring(System.Int32,System.Int32)">
            <summary>
            Get a substring of this ConsoleString starting at the given index and with the given length.
            </summary>
            <param name="start">the start index.</param>
            <param name="length">the number of characters to return</param>
            <returns>A new ConsoleString representing the substring requested.</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.Write">
            <summary>
            Write this ConsoleString to the console using the desired style.
            </summary>
        </member>
        <member name="M:PowerArgs.ConsoleString.ToString">
            <summary>
            Get the string representation of this ConsoleString.
            </summary>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.Equals(System.Object)">
            <summary>
            Compare this ConsoleString to another ConsoleString or a plain string.
            </summary>
            <param name="obj">The ConsoleString or plain string to compare to.</param>
            <returns>True if equal, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.CompareTo(System.String)">
            <summary>
            Compare this ConsoleString to another ConsoleString.
            </summary>
            <param name="other">The ConsoleString to compare to.</param>
            <returns>True if equal, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.GetHashCode">
            <summary>
            Gets the hashcode of the underlying string
            </summary>
            <returns>the hashcode of the underlying string</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.op_Addition(PowerArgs.ConsoleString,PowerArgs.ConsoleString)">
            <summary>
            Operator overload that concatenates 2 ConsoleString instances and returns a new one.
            </summary>
            <param name="a">The left operand</param>
            <param name="b">The right operand</param>
            <returns>A new, concatenated ConsoleString</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.op_Addition(PowerArgs.ConsoleString,System.String)">
            <summary>
            Operator overload that concatenates a ConsoleString with a string and returns a new one.
            </summary>
            <param name="a">The left operand</param>
            <param name="b">The right operand</param>
            <returns>A new, concatenated ConsoleString</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.op_Equality(PowerArgs.ConsoleString,PowerArgs.ConsoleString)">
            <summary>
            Compares 2 ConsoleStrings for equality.
            </summary>
            <param name="a">The left operand</param>
            <param name="b">The right operand</param>
            <returns>True if they are the same, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.ConsoleString.op_Inequality(PowerArgs.ConsoleString,PowerArgs.ConsoleString)">
            <summary>
            Compares 2 ConsoleStrings for inequality.
            </summary>
            <param name="a">The left operand</param>
            <param name="b">The right operand</param>
            <returns>False if they are the same, true otherwise</returns>
        </member>
        <member name="P:PowerArgs.ConsoleString.Empty">
            <summary>
            Represents an empty string.  You will get a new instance each time you access this property.
            </summary>
        </member>
        <member name="P:PowerArgs.ConsoleString.Length">
            <summary>
            The length of the string.
            </summary>
        </member>
        <member name="T:PowerArgs.Args">
            <summary>
            The main entry point for PowerArgs that includes the public parsing functions such as Parse, ParseAction, and InvokeAction.
            </summary>
        </member>
        <member name="M:PowerArgs.Args.SearchAssemblyForRevivers(System.Reflection.Assembly)">
            <summary>
            PowerArgs will manually search the assembly you provide for any custom type revivers.  If you don't specify an
            assembly then the assembly that calls this function will automatically be searched.
            </summary>
            <param name="a">The assembly to search or null if you want PowerArgs to search the assembly that's calling into this function.</param>
        </member>
        <member name="M:PowerArgs.Args.Convert(System.String)">
            <summary>
            Converts a single string that represents a command line to be executed into a string[], 
            accounting for quoted arguments that may or may not contain spaces.
            </summary>
            <param name="commandLine">The raw arguments as a single string</param>
            <returns>a converted string array with the arguments properly broken up</returns>
        </member>
        <member name="M:PowerArgs.Args.GetAmbientArgs``1">
            <summary>
            Gets the last instance of this type of argument that was parsed on the current thread
            or null if PowerArgs did not parse an object of this type.
            </summary>
            <typeparam name="T">The scaffold type for your arguments</typeparam>
            <returns>the last instance of this type of argument that was parsed on the current thread</returns>
        </member>
        <member name="M:PowerArgs.Args.GetAmbientArgs(System.Type)">
            <summary>
            Gets the last instance of this type of argument that was parsed on the current thread
            or null if PowerArgs did not parse an object of this type.
            </summary>
            <param name="t">The scaffold type for your arguments</param>
            <returns>the last instance of this type of argument that was parsed on the current thread</returns>
        </member>
        <member name="M:PowerArgs.Args.ParseAction(PowerArgs.CommandLineArgumentsDefinition,System.String[])">
            <summary>
            Parses the given arguments using a command line arguments definition.  
            </summary>
            <param name="definition">The definition that defines a set of command line arguments and/or actions.</param>
            <param name="args">The command line arguments to parse</param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.Args.ParseAction``1(System.String[])">
            <summary>
            Creates a new instance of T and populates it's properties based on the given arguments.
            If T correctly implements the heuristics for Actions (or sub commands) then the complex property
            that represents the options of a sub command are also populated.
            </summary>
            <typeparam name="T">The argument scaffold type.</typeparam>
            <param name="args">The command line arguments to parse</param>
            <returns>The raw result of the parse with metadata about the specified action.</returns>
        </member>
        <member name="M:PowerArgs.Args.ParseAction(System.Type,System.String[])">
            <summary>
            Creates a new instance of the given type and populates it's properties based on the given arguments.
            If the type correctly implements the heuristics for Actions (or sub commands) then the complex property
            that represents the options of a sub command are also populated.
            </summary>
            <param name="t">The argument scaffold type.</param>
            <param name="args">The command line arguments to parse</param>
            <returns>The raw result of the parse with metadata about the specified action.</returns>
        </member>
        <member name="M:PowerArgs.Args.InvokeMain(System.Type,System.String[])">
            <summary>
            Parses the args for the given scaffold type and then calls the Main() method defined by the type.
            </summary>
            <param name="t">The argument scaffold type.</param>
            <param name="args">The command line arguments to parse</param>
            <returns>The raw result of the parse with metadata about the specified action.</returns>
        </member>
        <member name="M:PowerArgs.Args.InvokeMain``1(System.String[])">
            <summary>
            Parses the args for the given scaffold type and then calls the Main() method defined by the type.
            </summary>
            <typeparam name="T">The argument scaffold type.</typeparam>
            <param name="args">The command line arguments to parse</param>
            <returns>The raw result of the parse with metadata about the specified action.</returns>
        </member>
        <member name="M:PowerArgs.Args.InvokeAction``1(System.String[])">
            <summary>
            Creates a new instance of T and populates it's properties based on the given arguments. T must correctly
            implement the heuristics for Actions (or sub commands) because this method will not only detect the action
            specified on the command line, but will also find and execute the method that implements the action.
            </summary>
            <typeparam name="T">The argument scaffold type that must properly implement at least one action.</typeparam>
            <param name="args">The command line arguments to parse</param>
            <returns>The raw result of the parse with metadata about the specified action.  The action is executed before returning.</returns>
        </member>
        <member name="M:PowerArgs.Args.InvokeAction(PowerArgs.CommandLineArgumentsDefinition,System.String[])">
            <summary>
            Parses the given arguments using a command line arguments definition.  Then, invokes the action
            that was specified.  
            </summary>
            <param name="definition">The definition that defines a set of command line arguments and actions.</param>
            <param name="args"></param>
            <returns>The raw result of the parse with metadata about the specified action.  The action is executed before returning.</returns>
        </member>
        <member name="M:PowerArgs.Args.Parse``1(System.String[])">
            <summary>
            Creates a new instance of T and populates it's properties based on the given arguments.
            </summary>
            <typeparam name="T">The argument scaffold type.</typeparam>
            <param name="args">The command line arguments to parse</param>
            <returns>A new instance of T with all of the properties correctly populated</returns>
        </member>
        <member name="M:PowerArgs.Args.Parse(System.Type,System.String[])">
            <summary>
            Creates a new instance of the given type and populates it's properties based on the given arguments.
            </summary>
            <param name="t">The argument scaffold type</param>
            <param name="args">The command line arguments to parse</param>
            <returns>A new instance of the given type with all of the properties correctly populated</returns>
        </member>
        <member name="M:PowerArgs.Args.Parse(PowerArgs.CommandLineArgumentsDefinition,System.String[])">
            <summary>
            Parses the given arguments using a command line arguments definition. The values will be populated within
            the definition.
            </summary>
            <param name="definition">The definition that defines a set of command line arguments and/or actions.</param>
            <param name="args">The command line arguments to parse</param>
        </member>
        <member name="T:PowerArgs.ArgUsageOptions">
            <summary>
            A class that lets you customize how your usage displays
            </summary>
        </member>
        <member name="M:PowerArgs.ArgUsageOptions.#ctor">
            <summary>
            Creates a new instance of ArgUsageOptions
            </summary>
        </member>
        <member name="P:PowerArgs.ArgUsageOptions.ShowType">
            <summary>
            Set to true if you want to show the type column (true by default)
            </summary>
        </member>
        <member name="P:PowerArgs.ArgUsageOptions.ShowPosition">
            <summary>
            Set to true if you want to show the position column (true by default)
            </summary>
        </member>
        <member name="P:PowerArgs.ArgUsageOptions.ShowPossibleValues">
            <summary>
            Set to true to list possible values (usually for enums, true by default)
            </summary>
        </member>
        <member name="P:PowerArgs.ArgUsageOptions.AppendDefaultValueToDescription">
            <summary>
            Set to true if you want to show default values after the description (true by default)
            </summary>
        </member>
        <member name="P:PowerArgs.ArgUsageOptions.SpecifiedActionOverride">
            <summary>
            Set this to ensure the usage generator only shows usage info for the specified action.  You will typically
            populate this by looking at the ArgException that you're probably catching.
            </summary>
        </member>
        <member name="T:PowerArgs.UsageHook">
            <summary>
            An attribute used to hook into the usage generation process and influence
            the content that is written.
            </summary>
        </member>
        <member name="T:PowerArgs.IGlobalArgMetadata">
            <summary>
            Represents IArgMetadata that is valid for CommandLineArguments, CommandLineActions, and CommandLineArgumentsDefinition instances
            </summary>
        </member>
        <member name="T:PowerArgs.ICommandLineArgumentMetadata">
            <summary>
            Represents IArgMetadata that is valid for CommandLineArguments
            </summary>
        </member>
        <member name="T:PowerArgs.IArgMetadata">
            <summary>
            Any attribute that's purpose is to add information about a command line arguments definiton should
            derive from this type.  
            </summary>
        </member>
        <member name="T:PowerArgs.ICommandLineActionMetadata">
            <summary>
            Represents IArgMetadata that is valid for CommandLineActions
            </summary>
        </member>
        <member name="T:PowerArgs.ICommandLineArgumentsDefinitionMetadata">
            <summary>
            Represents IArgMetadata that is valid for CommandLineArgumentsDefinition instances
            </summary>
        </member>
        <member name="M:PowerArgs.UsageHook.BeforeGenerateUsage(PowerArgs.ArgumentUsageInfo)">
            <summary>
            This hook gets called when the property it is attached to is having
            its usage generated.  You can override this method and manipulate the
            properties of the given usage info object.
            </summary>
            <param name="info">An object that you can use to manipulate the usage output.</param>
        </member>
        <member name="E:PowerArgs.UsageHook.HookExecuting">
            <summary>
            An event you can subscribe to in the case where you created
            your hook in running code rather than as a declarative attribute.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgumentUsageInfo">
            <summary>
            A class that represents usage info to be written to the console.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgumentUsageInfo.#ctor(PowerArgs.CommandLineArgument)">
            <summary>
            Generate a new info instance given a reflected property. 
            </summary>
            <param name="toAutoGen">The property to use to seed the usage info</param>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Name">
            <summary>
            The name that will be written as part of the usage.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Aliases">
            <summary>
            Aliases for this argument that will be honored by the parser.  This
            includes shortcuts and long form aliases, but can be extended further.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.PossibleValues">
            <summary>
            Possible values for this option.  This is auto populated for enums and includes the description if specified.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.IsRequired">
            <summary>
            Indicates that the argument is required.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Type">
            <summary>
            The friendly type name that will be displayed to the user.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Position">
            <summary>
            The expected position of the argument, or null if not a positioning is not supported for the given argument.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Description">
            <summary>
            The description that will be written as part of the usage.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Ignore">
            <summary>
            If set to true, the argument usage will not be written.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.IsAction">
            <summary>
            True if this is the "Action" property
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.IsActionArgs">
            <summary>
            True if this represents a nested action argument property
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Property">
            <summary>
            The reflected property that this info object represents
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.Argument">
            <summary>
            The command line argument that the system is currently generating usage for
            </summary>
        </member>
        <member name="P:PowerArgs.ArgumentUsageInfo.DefaultValue">
            <summary>
            The default value for the argument
            </summary>
        </member>
        <member name="T:PowerArgs.ArgUsage">
            <summary>
            A helper class that generates usage documentation for your command line arguments given a custom argument
            scaffolding type.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgUsage.RegisterHook(System.Reflection.PropertyInfo,PowerArgs.UsageHook)">
            <summary>
            Registers a usage hook for the given property.
            </summary>
            <param name="prop">The property to hook into or null to hook into all properties.</param>
            <param name="hook">The hook implementation.</param>
        </member>
        <member name="M:PowerArgs.ArgUsage.GetUsage``1(System.String,PowerArgs.ArgUsageOptions)">
            <summary>
            Generates usage documentation for the given argument scaffold type.
            </summary>
            <typeparam name="T">Your custom argument scaffold type</typeparam>
            <param name="exeName">The name of your program or null if you want PowerArgs to automatically detect it.</param>
            <param name="options">Specify custom usage options</param>
            <returns>the usage documentation as a string</returns>
        </member>
        <member name="M:PowerArgs.ArgUsage.GetUsage(PowerArgs.CommandLineArgumentsDefinition,System.String,PowerArgs.ArgUsageOptions)">
            <summary>
            Generates usage documentation for the given argument definition.
            </summary>
            <param name="definition">The definition of the command line arguments for a program</param>
            <param name="exeName">The name of your program or null if you want PowerArgs to automatically detect it.</param>
            <param name="options">Specify custom usage options</param>
            <returns>the usage documentation as a string</returns>
        </member>
        <member name="M:PowerArgs.ArgUsage.GetStyledUsage``1(System.String,PowerArgs.ArgUsageOptions)">
            <summary>
            Generates color styled usage documentation for the given argument scaffold type.  
            </summary>
            <typeparam name="T">Your custom argument scaffold type</typeparam>
            <param name="exeName">The name of your program or null if you want PowerArgs to automatically detect it.</param>
            <param name="options">Specify custom usage options</param>
            <returns>the usage documentation as a styled string that can be printed to the console</returns>
        </member>
        <member name="M:PowerArgs.ArgUsage.GetStyledUsage(System.Type,System.String,PowerArgs.ArgUsageOptions)">
            <summary>
            Generates color styled usage documentation for the given argument scaffold type.  
            </summary>
            <param name="t">Your custom argument scaffold type</param>
            <param name="exeName">The name of your program or null if you want PowerArgs to automatically detect it.</param>
            <param name="options">Specify custom usage options</param>
            <returns>the usage documentation as a styled string that can be printed to the console</returns>
        </member>
        <member name="M:PowerArgs.ArgUsage.GetStyledUsage(PowerArgs.CommandLineArgumentsDefinition,System.String,PowerArgs.ArgUsageOptions)">
            <summary>
            Generates color styled usage documentation for the given arguments definition.  
            </summary>
            <param name="definition">The definition of the command line arguments for a program</param>
            <param name="exeName">The name of your program or null if you want PowerArgs to automatically detect it.</param>
            <param name="options">Specify custom usage options</param>
            <returns>the usage documentation as a styled string that can be printed to the console</returns>
        </member>
        <member name="T:PowerArgs.EasterEggs.MatrixMode">
            <summary>
            An easter egg that makes all command line output get written in a green themed, futuristic fasion.  Don't use in a real program :).
            Breaking changes are allowed in the PowerArgs.EasterEggs namespace.
            </summary>
        </member>
        <member name="M:PowerArgs.EasterEggs.MatrixMode.Start">
            <summary>
            Starts MatrixMode.
            </summary>
            <returns>An action that when invoked stops MatrixMode.</returns>
        </member>
        <member name="T:PowerArgs.ArgException">
            <summary>
            An exception that should be thrown when the error condition is caused because of bad user input.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgException.#ctor(System.String)">
            <summary>
            Creates a new ArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.ArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new ArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="P:PowerArgs.ArgException.Context">
            <summary>
            The parser context that may be incomplete since it depends on where the exception was thrown
            </summary>
        </member>
        <member name="T:PowerArgs.InvalidArgDefinitionException">
            <summary>
            An exception that should be thrown when the error condition is caused by an improperly formed
            argument scaffold type.  For example if the user specified the same shortcut value for more than one property.
            </summary>
        </member>
        <member name="M:PowerArgs.InvalidArgDefinitionException.#ctor(System.String)">
            <summary>
            Creates a new InvalidArgDefinitionException given a message.
            </summary>
            <param name="msg">An error message.</param>
        </member>
        <member name="M:PowerArgs.InvalidArgDefinitionException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new InvalidArgDefinitionException given a message.
            </summary>
            <param name="msg">An error message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.UnexpectedArgException">
            <summary>
            An exception that should be thrown when an unexpected named|positional argument is found.
            </summary>
        </member>
        <member name="M:PowerArgs.UnexpectedArgException.#ctor(System.String)">
            <summary>
            Creates a new UnexpectedArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.UnexpectedArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new UnexpectedArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.DuplicateArgException">
            <summary>
            An exception that should be thrown when the same argument is repeated.
            </summary>
        </member>
        <member name="M:PowerArgs.DuplicateArgException.#ctor(System.String)">
            <summary>
            Creates a new DuplicateArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.DuplicateArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new DuplicateArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.MissingArgException">
            <summary>
            An exception that should be thrown when a required argument is missing.
            </summary>
        </member>
        <member name="M:PowerArgs.MissingArgException.#ctor(System.String)">
            <summary>
            Creates a new MissingArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.MissingArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new MissingArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.UnknownActionArgException">
            <summary>
            An exception that should be thrown when an unknown action argument is specified.
            </summary>
        </member>
        <member name="M:PowerArgs.UnknownActionArgException.#ctor(System.String)">
            <summary>
            Creates a new UnknownActionArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.UnknownActionArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new UnknownActionArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.QueryInvalidArgException">
            <summary>
            An exception that should be thrown when the query can not be compiled.
            </summary>
        </member>
        <member name="M:PowerArgs.QueryInvalidArgException.#ctor(System.String)">
            <summary>
            Creates a new QueryInvalidArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.QueryInvalidArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new QueryInvalidArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.ValidationArgException">
            <summary>
            An exception that should be thrown when an argument's value is not valid.
            </summary>
        </member>
        <member name="M:PowerArgs.ValidationArgException.#ctor(System.String)">
            <summary>
            Creates a new ValidationArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
        </member>
        <member name="M:PowerArgs.ValidationArgException.#ctor(System.String,System.Exception)">
            <summary>
            Creates a new ValidationArgException given a user friendly message
            </summary>
            <param name="msg">A user friendly message.</param>
            <param name="inner">The inner exception that caused the problem</param>
        </member>
        <member name="T:PowerArgs.ITabCompletionSource">
            <summary>
            An interface used to implement custom tab completion logic.
            </summary>
        </member>
        <member name="M:PowerArgs.ITabCompletionSource.TryComplete(System.Boolean,System.String,System.String@)">
            <summary>
            PowerArgs will call this method if it has enhanced the command prompt and the user presses tab.  You should use the
            text the user has types so far to determine if there is a completion you'd like to make.  If you find a completion
            then you should assign it to the completion variable and return true.
            </summary>
            <param name="shift">Indicates if shift was being pressed</param>
            <param name="soFar">The text token that the user has typed before pressing tab.</param>
            <param name="completion">The variable that you should assign the completed string to if you find a match.</param>
            <returns>True if you completed the string, false otherwise.</returns>
        </member>
        <member name="T:PowerArgs.IConsoleProvider">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.IConsoleProvider.ReadKey">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.IConsoleProvider.Write(System.Object)">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.IConsoleProvider.WriteLine(System.Object)">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.IConsoleProvider.WriteLine">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.IConsoleProvider.Clear">
            <summary>
            Clears the console window
            </summary>
        </member>
        <member name="P:PowerArgs.IConsoleProvider.CursorLeft">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="P:PowerArgs.IConsoleProvider.CursorTop">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="P:PowerArgs.IConsoleProvider.BufferWidth">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="T:PowerArgs.StdConsoleProvider">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.StdConsoleProvider.ReadKey">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
            <returns>Used for internal implementation, but marked public for testing, please do not use.</returns>
        </member>
        <member name="M:PowerArgs.StdConsoleProvider.Write(System.Object)">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
            <param name="output">Used for internal implementation, but marked public for testing, please do not use.</param>
        </member>
        <member name="M:PowerArgs.StdConsoleProvider.WriteLine(System.Object)">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
            <param name="output">Used for internal implementation, but marked public for testing, please do not use.</param>
        </member>
        <member name="M:PowerArgs.StdConsoleProvider.WriteLine">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="M:PowerArgs.StdConsoleProvider.ReadALineOfConsoleOutput(System.Int32)">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
            <param name="y">Used for internal implementation, but marked public for testing, please do not use.</param>
            <returns>Used for internal implementation, but marked public for testing, please do not use.</returns>
        </member>
        <member name="M:PowerArgs.StdConsoleProvider.Clear">
            <summary>
            Clears the console
            </summary>
        </member>
        <member name="P:PowerArgs.StdConsoleProvider.CursorLeft">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="P:PowerArgs.StdConsoleProvider.CursorTop">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="P:PowerArgs.StdConsoleProvider.BufferWidth">
            <summary>
            Used for internal implementation, but marked public for testing, please do not use.
            </summary>
        </member>
        <member name="T:PowerArgs.ParseResult">
            <summary>
            The raw parse result that contains the dictionary of values that were parsed
            </summary>
        </member>
        <member name="P:PowerArgs.ParseResult.ExplicitParameters">
            <summary>
            Dictionary of values that were either in the format -key value or /key:value on
            the command line.
            </summary>
        </member>
        <member name="P:PowerArgs.ParseResult.ImplicitParameters">
            <summary>
            Dictionary of values that were implicitly specified by position where the key is the position (e.g. 0)
            and the value is the actual parameter value.
            
            Example command line:  Program.exe John Smith
            
            John would be an implicit parameter at position 0.
            Smith would be an implicit parameter at position 1.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgHiddenFromUsage">
            <summary>
            Use this attribute to hide an argument from the usage output.  Users will still be able to provide
            the argument, but it will be undocumented.  This is useful if you want to invlude some secret commands
            or diagnostic commands.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgHiddenFromUsage.BeforeGenerateUsage(PowerArgs.ArgumentUsageInfo)">
            <summary>
            Sets the ignore flag on the info context so the usage generator skips this argument.
            </summary>
            <param name="info">The info about the argument we're hiding</param>
        </member>
        <member name="T:PowerArgs.ArgHook">
            <summary>
            An abstract class that you can implement if you want to hook into various parts of the
            parsing pipeline.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgHook.BeforeParse(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called before the parser ever looks at the command line.  You can do some preprocessing of the 
            raw string arguments here.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.BeforePopulateProperties(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called before the arguments defined in a class are populated.  For actions (or sub commands) this hook will
            get called once for the main class and once for the specified action.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.BeforePopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called before an argument is transformed from a string into a proper type and validated.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.AfterPopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called after an argument is transformed from a string into a proper type and validated.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.AfterPopulateProperties(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called after the arguments defined in a class are populated.  For actions (or sub commands) this hook will
            get called once for the main class and once for the specified action.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.BeforeInvoke(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called after parsing is complete, but before any Action or Main method is invoked.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.AfterInvoke(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called after any Action or Main method is invoked.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.AfterCancel(PowerArgs.ArgHook.HookContext)">
            <summary>
            This hook is called if CancelAllProcessing() is called on a HookContext object.
            </summary>
            <param name="context">An object that has useful context.  See the documentation of each property for information about when those properties are populated.</param>
        </member>
        <member name="P:PowerArgs.ArgHook.BeforeParsePriority">
            <summary>
            The priority of the BeforeParse hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.BeforePopulatePropertiesPriority">
            <summary>
            The priority of the BeforePopulateProperties hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.BeforePopulatePropertyPriority">
            <summary>
            The priority of the BeforePopulateProperty hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.AfterPopulatePropertyPriority">
            <summary>
            The priority of the AfterPopulateProperty hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.AfterPopulatePropertiesPriority">
            <summary>
            The priority of the AfterPopulateProperties hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.BeforeInvokePriority">
            <summary>
            The priority of the BeforeInvoke hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.AfterInvokePriority">
            <summary>
            The priority of the AfterInvoke hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.AfterCancelPriority">
            <summary>
            The priority of the AfterCancel hook.  Higher numbers execute first.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgHook.HookContext">
            <summary>
            Context that is passed to your hook.  Different parts of the context will be available
            depending on which part of the pipeline you're hooking into.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgHook.HookContext.CmdLineArgs">
            <summary>
            The command line arguments that were passed to the Args class.  This is always available and you
            can modify it in the BeforeParse hook at your own risk.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgHook.HookContext.ArgumentValue">
            <summary>
            The string value that was specified for the current argument.  This will align with the value of ArgHook.CurrentArgument.
            
            This is not available during BeforePopulateProperties or
            AfterPopulateProperties.
            
            </summary>
        </member>
        <member name="F:PowerArgs.ArgHook.HookContext.RevivedProperty">
            <summary>
            This is the value of the current property after it has been converted into its proper .NET type.  It is only available
            to the AfterPopulateProperty hook.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgHook.HookContext.GetProperty``1(System.String)">
            <summary>
            Get a value from the context's property bag.
            </summary>
            <typeparam name="T">The type of value you are expecting</typeparam>
            <param name="key">The key for the property you want to get</param>
            <returns>The value or default(T) if no value was found.</returns>
        </member>
        <member name="M:PowerArgs.ArgHook.HookContext.SetProperty``1(System.String,``0)">
            <summary>
            Set a value in the context's property bag.
            </summary>
            <typeparam name="T"></typeparam>
            <param name="key">The key for the property you want to set</param>
            <param name="value">The value of the property to set</param>
        </member>
        <member name="M:PowerArgs.ArgHook.HookContext.HasProperty(System.String)">
            <summary>
            Returns true if the context has a value for the given property.
            </summary>
            <param name="key">The key to check</param>
            <returns>true if the context has a value for the given property, false otherwise</returns>
        </member>
        <member name="M:PowerArgs.ArgHook.HookContext.ClearProperty(System.String)">
            <summary>
            Clear a value in the context's property bag.
            </summary>
            <param name="key">The key for the property you want to clear.</param>
        </member>
        <member name="M:PowerArgs.ArgHook.HookContext.CancelAllProcessing">
            <summary>
            Stops all argument processing, hooks, and action invocation as soon as is feasable.  You
            can implement an ArgHook that receives an event when this is called.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.Current">
            <summary>
            Gets the context for the current parse operation happening on the current thread or
            null if no parse is happening on the current thread.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.Property">
            <summary>
            The current property being operating on.  This is not available during BeforePopulateProperties or
            AfterPopulateProperties.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.CurrentArgument">
            <summary>
            The current argument being operating on. 
            AfterPopulateProperties.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.SpecifiedAction">
            <summary>
            Gets the action that was specified on the command line or null if no action was specified or if the definition exposes no actions.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.Args">
            <summary>
            This is the instance of your argument class.  The amount that it is populated will depend on how far along in the pipeline
            the parser is.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.Definition">
            <summary>
            The definition that's being used throughout the parsing process
            </summary>
        </member>
        <member name="P:PowerArgs.ArgHook.HookContext.ParserData">
            <summary>
            The raw parser data.  This is not available to the BeforeParse hook.  It may be useful for you to look at, but you should rarely have to change the values.  
            Modify the content of this at your own risk.
            </summary>
        </member>
        <member name="T:PowerArgs.DefaultValueAttribute">
            <summary>
            Use this attribute to set the default value for a parameter.  Note that this only
            works for simple types since only compile time constants can be passed to an attribute.
            </summary>
        </member>
        <member name="M:PowerArgs.DefaultValueAttribute.#ctor(System.Object)">
            <summary>
            Creates a new DefaultValueAttribute with the given value.  Note that the value will get
            converted to a string and then fed into the parser to be revived.
            </summary>
            <param name="value">The default value for the property</param>
        </member>
        <member name="M:PowerArgs.DefaultValueAttribute.BeforePopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            Before the property is revived and validated, if the user didn't specify a value, 
            then substitue the default value.
            
            </summary>
            <param name="Context"></param>
        </member>
        <member name="P:PowerArgs.DefaultValueAttribute.Value">
            <summary>
            The default value that was specified on the attribute.  Note that the value will get
            converted to a string and then fed into the parser to be revived.
            </summary>
        </member>
        <member name="T:PowerArgs.HelpHook">
            <summary>
            A hook that lets you turn a boolean property into a command line switch that short circuits processing and displays help.
            </summary>
        </member>
        <member name="M:PowerArgs.HelpHook.#ctor">
            <summary>
            Creates a new help hook instance
            </summary>
        </member>
        <member name="M:PowerArgs.HelpHook.BeforePopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            Makes sure the target is a boolean
            </summary>
            <param name="context">Context passed by the parser</param>
        </member>
        <member name="M:PowerArgs.HelpHook.AfterPopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            This gets called after the target property is populated.  It cancels processing.
            </summary>
            <param name="context">Context passed by the parser</param>
        </member>
        <member name="M:PowerArgs.HelpHook.AfterCancel(PowerArgs.ArgHook.HookContext)">
            <summary>
            Writes the help as long as WriteHelp is true
            </summary>
            <param name="context">Context passed by the parser</param>
        </member>
        <member name="P:PowerArgs.HelpHook.EXEName">
            <summary>
            Optional.  The name of the EXE that is displayed by the help.  By default it will use the entry assembly exe name.
            </summary>
        </member>
        <member name="P:PowerArgs.HelpHook.ShowTypeColumn">
            <summary>
            Optionally show the TYPE column in the auto generated usage.  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.HelpHook.ShowPositionColumn">
            <summary>
            Optionally show the POSITION column in the auto generated usage.  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.HelpHook.ShowPossibleValues">
            <summary>
            Set to true to list possible values (usually for enums).  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.HelpHook.WriteHelp">
            <summary>
            If true (which it is by default) the hook will write the help after the target property is populated.  If false, processing will still stop, but
            the help will not be written (yoy will have to do it yourself).
            </summary>
        </member>
        <member name="T:PowerArgs.StickyArg">
            <summary>
            A useful arg hook that will store the last used value for an argument and repeat it the next time.
            </summary>
        </member>
        <member name="M:PowerArgs.StickyArg.#ctor">
            <summary>
            Marks a property as a sticky arg.  Use the default location to store sticky arguments (AppData/Roaming/PowerArgs/EXE_NAME.txt)
            </summary>
        </member>
        <member name="M:PowerArgs.StickyArg.#ctor(System.String)">
            <summary>
            Marks a property as a sticky arg.  Use the provided location to store sticky arguments (AppData/Roaming/PowerArgs/EXE_NAME.txt)
            </summary>
        </member>
        <member name="M:PowerArgs.StickyArg.BeforePopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            If the user didn't specify a value on the command line then the StickyArg will try to load the last used
            value.
            </summary>
            <param name="Context">Used to see if the property was specified.</param>
        </member>
        <member name="M:PowerArgs.StickyArg.AfterPopulateProperty(PowerArgs.ArgHook.HookContext)">
            <summary>
            If the given property has a non null value then that value is persisted for the next use.
            </summary>
            <param name="Context">Used to see if the property was specified.</param>
        </member>
        <member name="T:PowerArgs.IStickyArgPersistenceProvider">
            <summary>
            An interface used to implement custom saving and loading of persistent (sticky) args.
            </summary>
        </member>
        <member name="M:PowerArgs.IStickyArgPersistenceProvider.Save(System.Collections.Generic.Dictionary{System.String,System.String},System.String)">
            <summary>
            This method is called when it is time to save the sticky args.
            </summary>
            <param name="stickyArgs">The names and values of the arguments to save.</param>
            <param name="pathInfo">The string that was passed to the StickyArg attribue (usually a file path).</param>
        </member>
        <member name="M:PowerArgs.IStickyArgPersistenceProvider.Load(System.String)">
            <summary>
            This method is called when it is time to load the sticky args.
            </summary>
            <param name="pathInfo">The string that was passed to the StickyArg attribue (usually a file path).</param>
            <returns>The loaded sticky args.</returns>
        </member>
        <member name="T:PowerArgs.StickyArgPersistence">
            <summary>
            An attribute you can put on a type in order to override how StickyArg properties are saved and loaded.
            </summary>
        </member>
        <member name="M:PowerArgs.StickyArgPersistence.#ctor(System.Type)">
            <summary>
            Creates a new StickyArgPersistence attribute given the type of the persistence provider.
            </summary>
            <param name="persistenceProviderType">The type that implements IStickyArgPersistenceProvider and defines a default constructor.</param>
        </member>
        <member name="P:PowerArgs.StickyArgPersistence.PersistenceProvider">
            <summary>
            Gets the provider that will be used to save and load sticky args.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgActionMethod">
            <summary>
            Use this attribute to annotate methods that represent your program's actions.  
            </summary>
        </member>
        <member name="T:PowerArgs.ArgActionType">
            <summary>
            Use this attribute if your action implementation methods are defined in a type other than the 
            type being passed to Args.ParseAction() or Args.InvokeAction().
            </summary>
        </member>
        <member name="M:PowerArgs.ArgActionType.#ctor(System.Type)">
            <summary>
            Creates a new ArgActionType attribute given the type that contains the action implementation.
            </summary>
            <param name="t">The type that implements your action methods.</param>
        </member>
        <member name="P:PowerArgs.ArgActionType.ActionType">
            <summary>
            The type that implements your action methods.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgDescription">
            <summary>
            Use this attribute to describe your argument property.  This will show up in the auto generated
            usage documentation.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgDescription.#ctor(System.String)">
            <summary>
            Creates a new ArgDescription attribute.
            </summary>
            <param name="description">A brief description of your argument property.</param>
        </member>
        <member name="P:PowerArgs.ArgDescription.Description">
            <summary>
            A brief description of your argument property.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgExample">
            <summary>
            Use this attribute to provide an example of how to use your program.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgExample.#ctor(System.String,System.String)">
            <summary>
            Creates a new ArgExample class
            </summary>
            <param name="example">The example command line.</param>
            <param name="description">A brief description of what this example does.</param>
        </member>
        <member name="P:PowerArgs.ArgExample.Example">
            <summary>
            The example command line.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgExample.Description">
            <summary>
            A brief description of what this example does.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgExceptionPolicy">
            <summary>
            Enum used to specify how user errors (ArgExceptions) should be handled by the parser.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgExceptionPolicy.DontHandleExceptions">
            <summary>
            The default, PowerArgs will throw these exceptions for your program to handle.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgExceptionPolicy.StandardExceptionHandling">
            <summary>
            PowerArgs will print the user friendly error message as well as the auto-generated usage documentation
            for the program.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgExceptionBehavior">
            <summary>
            Use this attrbiute to opt into standard error handling of user input errors.  
            </summary>
        </member>
        <member name="M:PowerArgs.ArgExceptionBehavior.#ctor(PowerArgs.ArgExceptionPolicy)">
            <summary>
            Creates a new ArgExceptionBehavior attributes with the given policy.
            </summary>
            <param name="policy">The policy to use, defaults to DontHandleExceptions.</param>
        </member>
        <member name="P:PowerArgs.ArgExceptionBehavior.Policy">
            <summary>
            The policy to use, defaults to DontHandleExceptions.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgExceptionBehavior.ShowTypeColumn">
            <summary>
            Optionally show the TYPE column in the auto generated usage.  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgExceptionBehavior.ShowPositionColumn">
            <summary>
            Optionally show the POSITION column in the auto generated usage.  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgExceptionBehavior.ShowPossibleValues">
            <summary>
            Set to true to list possible values (usually for enums).  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgExceptionBehavior.ExeName">
            <summary>
            Optionally override the ExeName.  You need to do this in unit tests.  In a real console app the
            value will be detected automatically if you leave this as null.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgIgnoreAttribute">
            <summary>
            Use this attribute if you want PowerArgs to ignore a property completely.
            </summary>
        </member>
        <member name="T:PowerArgs.IArgumentOrActionMetadata">
            <summary>
            Represents IArgMetadata that is valid for CommandLineArguments or CommandLineActions
            </summary>
        </member>
        <member name="T:PowerArgs.ArgIgnoreCase">
            <summary>
            Use this argument on your class, property, or action method to enforce case sensitivity.  By default,
            case is ignored.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgIgnoreCase.#ctor(System.Boolean)">
            <summary>
            Create a new ArgIgnoreCase attribute.
            </summary>
            <param name="ignore">Whether or not to ignore case</param>
        </member>
        <member name="P:PowerArgs.ArgIgnoreCase.IgnoreCase">
            <summary>
            Flag to set whether or not case is ignored.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgEnforceCase">
            <summary>
            Use this argument on your class or property to enforce case sensitivity.  By default,
            case is ignored.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgEnforceCase.#ctor">
            <summary>
            Create a new ArgEnforceCase attribute.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgPosition">
            <summary>
            Use this attribute if you want users to be able to specify an argument without specifying the name, 
            but rather by it's position on the command line.  All positioned arguments must come before any named arguments.
            Zero '0' represents the first position.  If you are using the Action framework then subcommands must start at
            position 1.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgPosition.#ctor(System.Int32)">
            <summary>
            Creates a new ArgPositionAttribute
            </summary>
            <param name="pos">The expected position of this argument</param>
        </member>
        <member name="P:PowerArgs.ArgPosition.Position">
            <summary>
            The expected position of this argument
            </summary>
        </member>
        <member name="T:PowerArgs.ArgReviverAttribute">
            <summary>
            The attribute used when you want to create an arg reviver. You should put this on public static methods 
            that take 2 string parameters (the first represents the name of the property, the second represents the string value
            and the return type is the type that you are reviving (or converting) the string into.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgShortcutPolicy">
            <summary>
            An enum to represent argument shortcut policies
            </summary>
        </member>
        <member name="F:PowerArgs.ArgShortcutPolicy.Default">
            <summary>
            No special behavior.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgShortcutPolicy.NoShortcut">
            <summary>
            Pass this value to the ArgShortcut attribute's constructor to indicate that the given property
            does not support a shortcut.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgShortcutPolicy.ShortcutsOnly">
            <summary>
            This indicates that the .NET property named should not be used as an indicator.  Instead,
            only the values in the other ArgShortcut attributes should be used.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgShortcut">
            <summary>
            Use this attribute to override the shortcut that PowerArgs automatically assigns to each property.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgShortcut.#ctor(System.String)">
            <summary>
            Creates a new ArgShortcut attribute with a specified value.
            </summary>
            <param name="shortcut">The value of the new shortcut.</param>
        </member>
        <member name="M:PowerArgs.ArgShortcut.#ctor(PowerArgs.ArgShortcutPolicy)">
            <summary>
            Creates a new ArgShortcut using the given policy
            </summary>
            <param name="policy"></param>
        </member>
        <member name="P:PowerArgs.ArgShortcut.Shortcut">
            <summary>
            The shortcut for the given property
            </summary>
        </member>
        <member name="P:PowerArgs.ArgShortcut.Policy">
            <summary>
            Get the ShortcutPolicy for this attribute.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgLongForm">
            <summary>
            An attribute used to define long form aliases for argument
            names.  For example, --log-level instead of -log.
            It also supports an alternate syntax for providing the values.
            For example: --log-level=error instead of -log error or /log:error.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgLongForm.#ctor(System.String)">
            <summary>
            Creates a new instance of an ArgLongForm attribute given the shortcut value.
            </summary>
            <param name="value">The shortcut value</param>
        </member>
        <member name="T:PowerArgs.ArgStyle">
            <summary>
            Obsolete, both the -name value and /name:value styles are supported automatically.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgStyle.PowerShell">
            <summary>
            Obsolete, both the -name value and /name:value styles are supported automatically.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgStyle.SlashColon">
            <summary>
            Obsolete, both the -name value and /name:value styles are supported automatically.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgStyleAttribute">
            <summary>
            Obsolete - Don't use this.  Both the -name value and /name:value styles are now both supported automatically.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgStyleAttribute.#ctor(PowerArgs.ArgStyle)">
            <summary>
            Obsolete - Don't use this.  Both the -name value and /name:value styles are now both supported automatically.
            </summary>
            <param name="style">obsolete</param>
        </member>
        <member name="P:PowerArgs.ArgStyleAttribute.Style">
            <summary>
            Obsolete - Don't use this.  Both the -name value and /name:value styles are now both supported automatically.
            </summary>
        </member>
        <member name="T:PowerArgs.OmitFromUsageDocs">
            <summary>
            An attribute that, when placed on a property or action method, makes sure that property/action does not appear
            in the output created by the ArgUsage class (the class that auto generates usage documentation).
            </summary>
        </member>
        <member name="M:PowerArgs.OmitFromUsageDocs.BeforeGenerateUsage(PowerArgs.ArgumentUsageInfo)">
            <summary>
            sets the ignroe flag on the info object
            </summary>
            <param name="info">the context used to modify the usage documentation</param>
        </member>
        <member name="T:PowerArgs.CommandLineAction">
            <summary>
            A class that represents command line actions that users can specify on the command line.  This is useful for programs like git
            where users first specify an action like 'push' and then the remaining arguments are either global or specific to 'push'.
            </summary>
        </member>
        <member name="M:PowerArgs.CommandLineAction.#ctor(System.Action{PowerArgs.CommandLineArgumentsDefinition})">
            <summary>
            Creates a new command line action given an implementation.
            </summary>
            <param name="actionHandler">The implementation of the aciton.</param>
        </member>
        <member name="M:PowerArgs.CommandLineAction.ToString">
            <summary>
            Gets a string representation of this action.
            </summary>
            <returns>a string representation of this action</returns>
        </member>
        <member name="P:PowerArgs.CommandLineAction.Aliases">
            <summary>
            The values that the user can specify on the command line to specify this action.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.Arguments">
            <summary>
            The action specific arguments that are applicable to the end user should they specify this action.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.Description">
            <summary>
            The description that will be shown in the auto generated usage.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.Source">
            <summary>
            The method or property that was used to define this action.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.IsSpecifiedAction">
            <summary>
            This will be set by the parser if the parse was successful and this was the action the user specified.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.IgnoreCase">
            <summary>
            Indicates whether or not the parser should ignore case when matching a user string with this action.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.DefaultAlias">
            <summary>
            The first alias or null if there are no aliases.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.Metadata">
            <summary>
            The list of metadata that can be used to inject behavior into the action
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.ActionMethod">
            <summary>
            The implementation of the action that can be invoked by the parser if the user specifies this action.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineAction.Examples">
            <summary>
            Examples that show users how to use this action.
            </summary>
        </member>
        <member name="T:PowerArgs.CommandLineArgument">
            <summary>
            Instances of this class represent a single command line argument that users can specify on the command line.
            Supported syntaxes include:
                -argumentName argumentValue
                /argumentName:argumentValue
                -argumentName                   - If the argument is a boolean it will be true in this case.
                --argumentName=argumentValue    - Only works if you have added an alias that starts with --.
                argumentValue                   - Only works if this argument defines the Position property as >= 0
            </summary>
        </member>
        <member name="M:PowerArgs.CommandLineArgument.#ctor(System.Type,System.String,System.Boolean)">
            <summary>
            Creates a command line argument of the given type and sets the first default alias.
            </summary>
            <param name="t">The CLR type of the argument</param>
            <param name="defaultAlias">The default name that users will use to specify this argument</param>
            <param name="ignoreCase">If true, the parser will match this argument even if the specifier doesn't match case.  True by default.</param>
        </member>
        <member name="M:PowerArgs.CommandLineArgument.ToString">
            <summary>
            Gets the string representation of this argument.
            </summary>
            <returns>the string representation of this argument.</returns>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.Aliases">
            <summary>
            The values that can be used as specifiers for this argument on the command line
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.Metadata">
            <summary>
            Metadata that has been injected into this Argument
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.ArgumentType">
            <summary>
            The CLR type of this argument.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.IgnoreCase">
            <summary>
            Specifies whether or not the parser should ignore case when trying to find a match for this argument on the command line.  Defaults to true.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.Position">
            <summary>
            If this is a positional argument then set this value >= 0 and users can specify a value without specifying an argument alias.  Defaults to -1.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.DefaultValue">
            <summary>
            The default value for this argument in the event it is optional and the user did not specify it.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.Description">
            <summary>
            The description for this argument that appears in the auto generated usage.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.IsRequired">
            <summary>
            Gets or sets whether or not this argument is required.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.Source">
            <summary>
            If this argument was inferred from a type then the source is either a PropertyInfo or a ParameterInfo.  If this argument
            was created manually then this value will be null.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.RevivedValue">
            <summary>
            This property will contain the parsed value of the command line argument if parsing completed successfully.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgument.DefaultAlias">
            <summary>
            The first alias of this argument or null if no aliases are defined.
            </summary>
        </member>
        <member name="T:PowerArgs.CommandLineArgumentsDefinition">
            <summary>
            This is the root class used to define a program's command line arguments.  You can start with an empty definition and 
            programatically add arguments or you can start from a Type that you have defined and have the definition inferred from it.
            </summary>
        </member>
        <member name="M:PowerArgs.CommandLineArgumentsDefinition.#ctor">
            <summary>
            Creates an empty command line arguments definition.
            </summary>
        </member>
        <member name="M:PowerArgs.CommandLineArgumentsDefinition.#ctor(System.Type)">
            <summary>
            Creates a command line arguments definition and infers things like Arguments, Actions, etc. from the type's metadata.
            </summary>
            <param name="t">The argument scaffold type used to infer the definition</param>
        </member>
        <member name="M:PowerArgs.CommandLineArgumentsDefinition.FindMatchingArgument(System.String,System.Boolean)">
            <summary>
            Finds the first CommandLineArgument that matches the given key.
            </summary>
            <param name="key">The key as if it was typed in on the command line.  This can also be an alias. </param>
            <param name="throwIfMoreThanOneMatch">If set to true then this method will throw and InvalidArgDeginitionException if more than 1 match is found</param>
            <returns>The first argument that matches the key.</returns>
        </member>
        <member name="M:PowerArgs.CommandLineArgumentsDefinition.FindMatchingAction(System.String,System.Boolean)">
            <summary>
            Finds the first CommandLineAction that matches the given key
            </summary>
            <param name="key">The key as if it was typed in on the command line.  This can also be an alias. </param>
            <param name="throwIfMoreThanOneMatch">If set to true then this method will throw and InvalidArgDeginitionException if more than 1 match is found</param>
            <returns>The first action that matches the key.</returns>
        </member>
        <member name="M:PowerArgs.CommandLineArgumentsDefinition.ToString">
            <summary>
            Gets a basic string representation of the definition.
            </summary>
            <returns>a basic string representation of the definition</returns>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.ArgumentScaffoldType">
            <summary>
            The type that was used to generate this definition.  This will only be populated if you use the constructor that takes in a type and the definition is inferred.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.Arguments">
            <summary>
            The command line arguments that are global to this definition.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.Hooks">
            <summary>
            Global hooks that can execute all hook override methods except those that target a particular argument.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.Actions">
            <summary>
            Actions that are defined for this definition.  If you have at least one action then the end user must specify the action as the first argument to your program.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.Metadata">
            <summary>
            Arbitrary metadata that has been added to the definition
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.Examples">
            <summary>
            Examples that show users how to use your program.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.ExceptionBehavior">
            <summary>
            Determines how end user errors should be handled by the parser.  By default all exceptions flow through to your program.
            </summary>
        </member>
        <member name="P:PowerArgs.CommandLineArgumentsDefinition.SpecifiedAction">
            <summary>
            If your definition declares actions and has been successfully parsed then this property will be populated
            with the action that the end user specified.
            </summary>
        </member>
        <member name="T:PowerArgs.Query">
            <summary>
            A hook you can use to easily query a data source.  See an example here: https://github.com/adamabdelhamed/PowerArgs#data-source-queries
            </summary>
        </member>
        <member name="M:PowerArgs.Query.#ctor(System.Type,System.String[])">
            <summary>
            Creates a new query hook given a data source type and optional reference assemblies.
            </summary>
            <param name="dataSourceType">Your data source implementation. he query will create a new instance of this type and use a property that matches the property name of the PowerArgs property this attribute is on in order to get the data.</param>
            <param name="referencedAssemblies">The names (if in the GAC) or full paths to assemblies you would like to include.  We will automatically add dlls in your bin folder.</param>
        </member>
        <member name="M:PowerArgs.Query.AfterPopulateProperties(PowerArgs.ArgHook.HookContext)">
            <summary>
            After PowerArgs does most of its work this hook looks for string properties on the parsed object called Skip, Take, 
            Where, OrderBy, and OrderByDescending.  These properties are used to construct a linq query that is dynamically compiled
            and executed against the provided data source.
            </summary>
            <param name="context">The context used to detect the query parameters.</param>
        </member>
        <member name="P:PowerArgs.Query.DataSourceType">
            <summary>
            Your data source implementation.  The query will create a new instance of this type and use a property
            that matches the property name of the PowerArgs property this attribute is on in order to get the data.
            </summary>
        </member>
        <member name="T:PowerArgs.Resources">
            <summary>
              A strongly-typed resource class, for looking up localized strings, etc.
            </summary>
        </member>
        <member name="P:PowerArgs.Resources.ResourceManager">
            <summary>
              Returns the cached ResourceManager instance used by this class.
            </summary>
        </member>
        <member name="P:PowerArgs.Resources.Culture">
            <summary>
              Overrides the current thread's CurrentUICulture property for all
              resource lookups using this strongly typed resource class.
            </summary>
        </member>
        <member name="P:PowerArgs.Resources.QueryTemplate">
             <summary>
               Looks up a localized string similar to using System;
            using System.Linq;
            using System.Collections.Generic;
            $Usings$
            
            namespace $Namespace$
            {
                public class $Class$
                {
                    public static List&lt;$ReturnType$&gt; $Method$(IEnumerable&lt;$ReturnType$&gt; source)
                    {
                        IEnumerable&lt;$ReturnType$&gt; query = from item in source select item;
            
                        $WhereComment$              query = from item in query where $Where$ select item;
                        $OrderByDescendingComment$  query = query.OrderByDescending($OrderByDescending$);
                [rest of string was truncated]&quot;;.
             </summary>
        </member>
        <member name="T:PowerArgs.SecureStringArgument">
            <summary>
            A PowerArgs argument type that can be used to accept user input without that input appearing on the command line.
            It uses secure strings under the hood.
            </summary>
        </member>
        <member name="M:PowerArgs.SecureStringArgument.ConvertToNonsecureString">
            <summary>
            Converts the underlying secure string to a regular string.
            </summary>
            <returns>A normal string representation of the user's input.</returns>
        </member>
        <member name="P:PowerArgs.SecureStringArgument.SecureString">
            <summary>
            The secure string value.  The first time your code accesses this property is when the user will be presented with
            the secure input prompt.
            </summary>
        </member>
        <member name="T:PowerArgs.CycledTabCompletionManager">
            <summary>
            This helper class can be leveraged when implementing custom tab completion logic.  It knows how to cycle through multple
            candidates and support tabbing forward and shift/tabbing backwards.  You just pass values from the tab completion methods
            and then provide an evaluation function that knows how to get the list of possible matches.
            </summary>
        </member>
        <member name="M:PowerArgs.CycledTabCompletionManager.Cycle(System.Boolean,System.String@,System.Func{System.Collections.Generic.List{System.String}},System.String@)">
            <summary>
            Cycles through the candidates provided by the given evaluation function using the arguments passed through from
            the tab completion system.
            </summary>
            <param name="shift">You should pass true if the shift key was pressed during the tab</param>
            <param name="soFar">You should pass through a reference to the soFar value that was sent by the tab completion system</param>
            <param name="evaluation">A function that looks at 'soFar' and determines which values might be a match</param>
            <param name="completion">The completion to populate if the conditions all work out</param>
            <returns>True if completion was populated, false otherwise</returns>
        </member>
        <member name="P:PowerArgs.CycledTabCompletionManager.MinCharsBeforeCyclingBegins">
            <summary>
            If the value of soFar is a string that's less than this value then no completion will be returned.
            </summary>
        </member>
        <member name="T:PowerArgs.GroupedRegexArg">
            <summary>
            An abstract class that lets you create custom argument types that match a regular expression.  The 
            class also makes it easy to extract named groups from the regular expression for use by your application.
            </summary>
        </member>
        <member name="F:PowerArgs.GroupedRegexArg.exactMatch">
            <summary>
            The match that exactly matches the given regular expression
            </summary>
        </member>
        <member name="M:PowerArgs.GroupedRegexArg.#ctor(System.String,System.String,System.String)">
            <summary>
            Creates a new grouped regular expression argument instance.
            </summary>
            <param name="regex">The regular expression to enforce</param>
            <param name="input">The user input that was provided</param>
            <param name="errorMessage">An error message to show in the case of a non match</param>
        </member>
        <member name="M:PowerArgs.GroupedRegexArg.Group(System.String,System.String)">
            <summary>
            A helper function you can use to group a particular regular expression.
            </summary>
            <param name="regex">Your regular expression that you would like to put in a group.</param>
            <param name="groupName">The name of the group that you can use to extract the group value later.</param>
            <returns></returns>
        </member>
        <member name="P:PowerArgs.GroupedRegexArg.Item(System.String)">
            <summary>
            Gets the value of the regex group from the exact match.
            </summary>
            <param name="groupName">The name of the group to lookup</param>
            <returns></returns>
        </member>
        <member name="P:PowerArgs.GroupedRegexArg.Item(System.Int32)">
            <summary>
            Gets the value of the regex group from the exact match.
            </summary>
            <param name="groupNumber">The index of the group to lookup</param>
            <returns></returns>
        </member>
        <member name="T:PowerArgs.MultiTabCompletionSource">
            <summary>
            An aggregate tab completion source that cycles through it's inner sources looking for matches.
            </summary>
        </member>
        <member name="M:PowerArgs.MultiTabCompletionSource.#ctor(PowerArgs.ITabCompletionSource[])">
            <summary>
            Create a new MultiTabCompletionSource given an array of sources.
            </summary>
            <param name="sources">The sources to wrap</param>
        </member>
        <member name="M:PowerArgs.MultiTabCompletionSource.#ctor(System.Collections.Generic.IEnumerable{PowerArgs.ITabCompletionSource})">
            <summary>
            Create a new MultiTabCompletionSource given an IEnumerable of sources.
            </summary>
            <param name="sources">The sources to wrap</param>
        </member>
        <member name="M:PowerArgs.MultiTabCompletionSource.TryComplete(System.Boolean,System.String,System.String@)">
            <summary>
            Not implemented since this type implements ITabCompletionSourceWithContext
            </summary>
            <param name="shift"></param>
            <param name="soFar"></param>
            <param name="completion"></param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.MultiTabCompletionSource.TryComplete(System.Boolean,System.String,System.String,System.String@)">
            <summary>
            Iterates over the wrapped sources looking for a match
            </summary>
            <param name="shift">Indicates if shift was being pressed</param>
            <param name="soFar">The text token that the user has typed before pressing tab.</param>
            <param name="context"></param>
            <param name="completion">The variable that you should assign the completed string to if you find a match.</param>
            <returns></returns>
        </member>
        <member name="T:PowerArgs.SimpleTabCompletionSource">
            <summary>
            A simple tab completion source implementation that looks for matches over a set of pre-determined strings.
            </summary>
        </member>
        <member name="M:PowerArgs.SimpleTabCompletionSource.#ctor(System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Creates a new completion source given an enumeration of string candidates
            </summary>
            <param name="candidates"></param>
        </member>
        <member name="M:PowerArgs.SimpleTabCompletionSource.#ctor(System.Func{System.Collections.Generic.IEnumerable{System.String}})">
            <summary>
            Creates a simple tab completion source given a function used to evaluate the candidates.
            </summary>
            <param name="candidateFunction">The function used to evaluate the completions where the input is a string parameter that represents the incomplete token</param>
        </member>
        <member name="M:PowerArgs.SimpleTabCompletionSource.TryComplete(System.Boolean,System.String,System.String@)">
            <summary>
            Not implemented since this type implements ITabCompletionSourceWithContext
            </summary>
            <param name="shift"></param>
            <param name="context"></param>
            <param name="completion"></param>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.SimpleTabCompletionSource.TryComplete(System.Boolean,System.String,System.String,System.String@)">
            <summary>
            Iterates through the candidates to try to find a match.  If there are multiple possible matches it 
            supports cycling through tem as the user continually presses tab.
            </summary>
            <param name="shift">Indicates if shift was being pressed</param>
            <param name="soFar">The text token that the user has typed before pressing tab.</param>
            <param name="context"></param>
            <param name="completion">The variable that you should assign the completed string to if you find a match.</param>
            <returns></returns>
        </member>
        <member name="P:PowerArgs.SimpleTabCompletionSource.MinCharsBeforeCyclingBegins">
            <summary>
            Require that the user type this number of characters before the source starts cycling through ambiguous matches.  The default is 3.
            </summary>
        </member>
        <member name="T:PowerArgs.USPhoneNumber">
            <summary>
            An example of a custom type that uses regular expressions to extract values from the command line
            and implements an ArgReviver to transform the text input into a complex type.
            This class represents a US phone number.
            </summary>
        </member>
        <member name="M:PowerArgs.USPhoneNumber.#ctor(System.String)">
            <summary>
            Creates a phone number object from a string
            </summary>
            <param name="phoneNumber"></param>
        </member>
        <member name="M:PowerArgs.USPhoneNumber.ToString">
            <summary>
            Gets the default string representation of the phone number in the format '1-(aaa)-bbb-cccc'.
            </summary>
            <returns></returns>
        </member>
        <member name="M:PowerArgs.USPhoneNumber.ToString(System.String)">
            <summary>
            Formats the phone number as a string.  
            </summary>
            <param name="format">Use '{aaa}' for the area code, use {bbb} for the first grouping, and use {cccc} for the second grouping.</param>
            <returns>A formatted phone number string</returns>
        </member>
        <member name="M:PowerArgs.USPhoneNumber.Revive(System.String,System.String)">
            <summary>
            Custom PowerArgs reviver that converts a string parameter into a custom phone number
            </summary>
            <param name="key">The name of the argument (not used)</param>
            <param name="val">The value specified on the command line</param>
            <returns>A USPhoneNumber object based on the user input</returns>
        </member>
        <member name="P:PowerArgs.USPhoneNumber.AreaCode">
            <summary>
            The three digit area code of the phone number.
            </summary>
        </member>
        <member name="P:PowerArgs.USPhoneNumber.FirstDigits">
            <summary>
            The three digit first segment of the phone number
            </summary>
        </member>
        <member name="P:PowerArgs.USPhoneNumber.SecondDigits">
            <summary>
            The four digit second segment of the phone number.
            </summary>
        </member>
        <member name="T:PowerArgs.TabCompletion">
            <summary>
            A hook that takes over the command line and provides tab completion for known strings when the user presses
            the tab key.
            </summary>
        </member>
        <member name="M:PowerArgs.TabCompletion.#ctor(System.String)">
            <summary>
            Creates a new tab completion hook.
            </summary>
            <param name="indicator">When this indicator is the only argument the user specifies that triggers the hook to enhance the command prompt.  By default, the indicator is the empty string.</param>
        </member>
        <member name="M:PowerArgs.TabCompletion.#ctor(System.Type,System.String)">
            <summary>
            Creates a new tab completion hook given a custom tab completion implementation.
            </summary>
            <param name="completionSource">A type that implements ITabCompletionSource such as SimpleTabCompletionSource</param>
            <param name="indicator">When this indicator is the only argument the user specifies that triggers the hook to enhance the command prompt.  By default, the indicator is the empty string.</param>
        </member>
        <member name="M:PowerArgs.TabCompletion.BeforeParse(PowerArgs.ArgHook.HookContext)">
            <summary>
            Before PowerArgs parses the args, this hook inspects the command line for the indicator and if found 
            takes over the command line and provides tab completion.
            </summary>
            <param name="context">The context used to inspect the command line arguments.</param>
        </member>
        <member name="M:PowerArgs.TabCompletion.ClearHistory">
            <summary>
            Clears all history saved on disk
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.Indicator">
            <summary>
            When this indicator is the only argument the user specifies that triggers the hook to enhance the command prompt.  By default, the indicator is the empty string.
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.HistoryToSave">
            <summary>
            If this is > 0 then PowerArgs will save this many previous executions of the command line to your application data folder.
            Users can then access the history by pressing arrow up or down from the enhanced command prompt.
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.HistoryFileName">
            <summary>
            The location of the history file name (AppData/PowerArgs/EXE_NAME.TabCompletionHistory.txt
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.ExeName">
            <summary>
            The name of your program (leave null and PowerArgs will try to detect it automatically)
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.REPL">
            <summary>
            If true, then you must use Args.InvokeAction or Args.InvokeMain instead of Args.Parse.  Your user
            will get an interactive prompt that loops until they specify the REPLExitIndicator.
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.REPLExitIndicator">
            <summary>
            The string users can specify in order to exit the REPL (defaults to string.Empty)
            </summary>
        </member>
        <member name="P:PowerArgs.TabCompletion.REPLWelcomeMessage">
            <summary>
            The message to display to the user when the REPL starts.  The default is Type a command or '{{Indicator}}' to exit.
            You can customize this message and use {{Indicator}} for the placeholder for your exit indicator.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgExistingDirectory">
            <summary>
            Validates that if the user specifies a value for a property that the value represents a directory that exists
            as determined by System.IO.Directory.Exists(directory).
            </summary>
        </member>
        <member name="T:PowerArgs.ArgValidator">
            <summary>
            An abstract class that all validators should extend to validate user input from the command line.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgValidator.Validate(System.String,System.String@)">
            <summary>
            Most validators should just override this method. It ONLY gets called if the user specified the 
            given argument on the command line, meaning you will never get a null for 'arg'.
            
            If you want your validator to run even if the user did not specify the argument on the command line
            (for example if you were building something like [ArgRequired] then you should do 3 things.
            
            1 - Override the boolean ImplementsValidateAlways property so that it returns true
            2 - Override the ValidateAlways() method instead
            3 - Don't override the Validate() method since it will no longer be called
            
            </summary>
            <param name="name"></param>
            <param name="arg">The value specified on the command line.  If the user specified the property name, but not a value then arg will equal string.Empty.  The value will never be null.</param>
        </member>
        <member name="M:PowerArgs.ArgValidator.ValidateAlways(System.Reflection.PropertyInfo,System.String@)">
             <summary>
             Always validates the given property, even if it was not specified by the user (arg will be null in this case).
             If you override this method then you should also override ImplementsValidateAlways so it returns true.
            </summary>
             <param name="property">The property that the attribute was placed on.</param>
             <param name="arg">The value specified on the command line or null if the user didn't actually specify a value for the property.  If the user specified the property name, but not a value then arg will equal string.Empty</param>
        </member>
        <member name="M:PowerArgs.ArgValidator.ValidateAlways(PowerArgs.CommandLineArgument,System.String@)">
             <summary>
             Always validates the given argument, even if it was not specified by the user (arg will be null in this case).
             If you override this method then you should also override ImplementsValidateAlways so it returns true.
            </summary>
             <param name="argument">The argument that the attribute was placed on.</param>
             <param name="arg">The value specified on the command line or null if the user didn't actually specify a value for the argument.  If the user specified the argument name, but not a value then arg will equal string.Empty</param>
        </member>
        <member name="P:PowerArgs.ArgValidator.Priority">
            <summary>
            Determines the order in which validators are executed.  Higher numbers execute first.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgValidator.ImplementsValidateAlways">
            <summary>
            If implemented in a derived class then ValidateAlways will be called for each property,
            even if that property wasn't specified by the user on the command line.  In this case the value
            will always be null.  This is useful for implementing validators such as [ArgRequired].
            
            By default, the Validate(string,ref string) method is called unless a validator opts into ValidateAlways
            </summary>
        </member>
        <member name="M:PowerArgs.ArgExistingDirectory.Validate(System.String,System.String@)">
            <summary>
            Validates that the given directory exists and cleans up the argument so that the application has access
            to the full path.
            </summary>
            <param name="name">the name of the property being populated.  This validator doesn't do anything with it.</param>
            <param name="arg">The value specified on the command line</param>
        </member>
        <member name="T:PowerArgs.ArgExistingFile">
            <summary>
            Validates that if the user specifies a value for a property that the value represents a file that exists
            as determined by System.IO.File.Exists(file).
            </summary>
        </member>
        <member name="M:PowerArgs.ArgExistingFile.Validate(System.String,System.String@)">
            <summary>
            Validates that the given file exists and cleans up the argument so that the application has access
            to the full path.
            </summary>
            <param name="name">the name of the property being populated.  This validator doesn't do anything with it.</param>
            <param name="arg">The value specified on the command line</param>
        </member>
        <member name="T:PowerArgs.ArgRange">
            <summary>
            Validates that the value is a number between the min and max (both inclusive) specified
            </summary>
        </member>
        <member name="M:PowerArgs.ArgRange.#ctor(System.Double,System.Double)">
            <summary>
             Creates a new ArgRange validator.
            </summary>
            <param name="min">The minimum value (inclusive)</param>
            <param name="max">The maximum value (inclusive by default, set MaxIsExclusive to true to override)</param>
        </member>
        <member name="M:PowerArgs.ArgRange.Validate(System.String,System.String@)">
            <summary>
            Validates that the value is a number between the min and max (both inclusive) specifie
            </summary>
            <param name="name">the name of the property being populated.  This validator doesn't do anything with it.</param>
            <param name="arg">The value specified on the command line</param>
        </member>
        <member name="P:PowerArgs.ArgRange.MaxIsExclusive">
            <summary>
            Set to true if your max is exclusive.  This value is false by default.
            </summary>
        </member>
        <member name="T:PowerArgs.ArgRegex">
            <summary>
            Performs regular expression validation on a property.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgRegex.regex">
            <summary>
            The regular expression to match
            </summary>
        </member>
        <member name="F:PowerArgs.ArgRegex.errorMessage">
            <summary>
            A prefix for the error message to show in the case of a match.
            </summary>
        </member>
        <member name="F:PowerArgs.ArgRegex.exactMatch">
            <summary>
            The exact match that was found.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgRegex.#ctor(System.String,System.String)">
            <summary>
            Creates a new ArgRegex validator.
            </summary>
            <param name="regex">The regular expression that requires an exact match to be valid</param>
            <param name="errorMessage">A prefix for the error message to show in the case of a match.</param>
        </member>
        <member name="M:PowerArgs.ArgRegex.Validate(System.String,System.String@)">
            <summary>
            Validates that the given arg exactly matches the regular expression provided.
            </summary>
            <param name="name">the name of the property being populated.  This validator doesn't do anything with it.</param>
            <param name="arg">The value specified on the command line.</param>
        </member>
        <member name="T:PowerArgs.ArgRequired">
            <summary>
            Validates that the user actually provided a value for the given property on the command line.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgRequired.#ctor">
            <summary>
            Creates a new ArgRequired attribute.
            </summary>
        </member>
        <member name="M:PowerArgs.ArgRequired.ValidateAlways(PowerArgs.CommandLineArgument,System.String@)">
            <summary>
            Validates that the user actually specified a value and optionally prompts them when it is missing.
            </summary>
            <param name="argument">The argument being populated.  This validator doesn't do anything with it.</param>
            <param name="arg">The value specified on the command line or null if it wasn't specified</param>
        </member>
        <member name="P:PowerArgs.ArgRequired.ImplementsValidateAlways">
            <summary>
            Determines whether or not the validator should run even if the user doesn't specify a value on the command line.
            This value is always true for this validator.
            </summary>
        </member>
        <member name="P:PowerArgs.ArgRequired.PromptIfMissing">
            <summary>
            If you set this to true and the user didn't specify a value then the command line will prompt the user for the value.
            </summary>
        </member>
    </members>
</doc>
tools\icsharp\Roslyn.Compilers.CSharp.dll
 
tools\icsharp\Roslyn.Compilers.CSharp.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>Roslyn.Compilers.CSharp</name>
    </assembly>
    <members>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxVisitor`1">
            <summary>
            Represents a <see cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/> visitor that visits only the single SyntaxNode
            passed into its <see cref="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.Visit(Roslyn.Compilers.CSharp.SyntaxNode)"/> method and produces 
            a value of the type specified by the <typeparamref name="TResult"/> parameter.
            </summary>
            <typeparam name="TResult">
            The type of the return value this visitor's Visit method.
            </typeparam>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitIdentifierName(Roslyn.Compilers.CSharp.IdentifierNameSyntax)">
            <summary>Called when the visitor visits a IdentifierNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitQualifiedName(Roslyn.Compilers.CSharp.QualifiedNameSyntax)">
            <summary>Called when the visitor visits a QualifiedNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitGenericName(Roslyn.Compilers.CSharp.GenericNameSyntax)">
            <summary>Called when the visitor visits a GenericNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTypeArgumentList(Roslyn.Compilers.CSharp.TypeArgumentListSyntax)">
            <summary>Called when the visitor visits a TypeArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAliasQualifiedName(Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax)">
            <summary>Called when the visitor visits a AliasQualifiedNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPredefinedType(Roslyn.Compilers.CSharp.PredefinedTypeSyntax)">
            <summary>Called when the visitor visits a PredefinedTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitArrayType(Roslyn.Compilers.CSharp.ArrayTypeSyntax)">
            <summary>Called when the visitor visits a ArrayTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitArrayRankSpecifier(Roslyn.Compilers.CSharp.ArrayRankSpecifierSyntax)">
            <summary>Called when the visitor visits a ArrayRankSpecifierSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPointerType(Roslyn.Compilers.CSharp.PointerTypeSyntax)">
            <summary>Called when the visitor visits a PointerTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitNullableType(Roslyn.Compilers.CSharp.NullableTypeSyntax)">
            <summary>Called when the visitor visits a NullableTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitOmittedTypeArgument(Roslyn.Compilers.CSharp.OmittedTypeArgumentSyntax)">
            <summary>Called when the visitor visits a OmittedTypeArgumentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitParenthesizedExpression(Roslyn.Compilers.CSharp.ParenthesizedExpressionSyntax)">
            <summary>Called when the visitor visits a ParenthesizedExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPrefixUnaryExpression(Roslyn.Compilers.CSharp.PrefixUnaryExpressionSyntax)">
            <summary>Called when the visitor visits a PrefixUnaryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPostfixUnaryExpression(Roslyn.Compilers.CSharp.PostfixUnaryExpressionSyntax)">
            <summary>Called when the visitor visits a PostfixUnaryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitMemberAccessExpression(Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax)">
            <summary>Called when the visitor visits a MemberAccessExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBinaryExpression(Roslyn.Compilers.CSharp.BinaryExpressionSyntax)">
            <summary>Called when the visitor visits a BinaryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitConditionalExpression(Roslyn.Compilers.CSharp.ConditionalExpressionSyntax)">
            <summary>Called when the visitor visits a ConditionalExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitThisExpression(Roslyn.Compilers.CSharp.ThisExpressionSyntax)">
            <summary>Called when the visitor visits a ThisExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBaseExpression(Roslyn.Compilers.CSharp.BaseExpressionSyntax)">
            <summary>Called when the visitor visits a BaseExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitLiteralExpression(Roslyn.Compilers.CSharp.LiteralExpressionSyntax)">
            <summary>Called when the visitor visits a LiteralExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitMakeRefExpression(Roslyn.Compilers.CSharp.MakeRefExpressionSyntax)">
            <summary>Called when the visitor visits a MakeRefExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitRefTypeExpression(Roslyn.Compilers.CSharp.RefTypeExpressionSyntax)">
            <summary>Called when the visitor visits a RefTypeExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitRefValueExpression(Roslyn.Compilers.CSharp.RefValueExpressionSyntax)">
            <summary>Called when the visitor visits a RefValueExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitCheckedExpression(Roslyn.Compilers.CSharp.CheckedExpressionSyntax)">
            <summary>Called when the visitor visits a CheckedExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitDefaultExpression(Roslyn.Compilers.CSharp.DefaultExpressionSyntax)">
            <summary>Called when the visitor visits a DefaultExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTypeOfExpression(Roslyn.Compilers.CSharp.TypeOfExpressionSyntax)">
            <summary>Called when the visitor visits a TypeOfExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSizeOfExpression(Roslyn.Compilers.CSharp.SizeOfExpressionSyntax)">
            <summary>Called when the visitor visits a SizeOfExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitInvocationExpression(Roslyn.Compilers.CSharp.InvocationExpressionSyntax)">
            <summary>Called when the visitor visits a InvocationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitElementAccessExpression(Roslyn.Compilers.CSharp.ElementAccessExpressionSyntax)">
            <summary>Called when the visitor visits a ElementAccessExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitArgumentList(Roslyn.Compilers.CSharp.ArgumentListSyntax)">
            <summary>Called when the visitor visits a ArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBracketedArgumentList(Roslyn.Compilers.CSharp.BracketedArgumentListSyntax)">
            <summary>Called when the visitor visits a BracketedArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitArgument(Roslyn.Compilers.CSharp.ArgumentSyntax)">
            <summary>Called when the visitor visits a ArgumentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitNameColon(Roslyn.Compilers.CSharp.NameColonSyntax)">
            <summary>Called when the visitor visits a NameColonSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitCastExpression(Roslyn.Compilers.CSharp.CastExpressionSyntax)">
            <summary>Called when the visitor visits a CastExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAnonymousMethodExpression(Roslyn.Compilers.CSharp.AnonymousMethodExpressionSyntax)">
            <summary>Called when the visitor visits a AnonymousMethodExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSimpleLambdaExpression(Roslyn.Compilers.CSharp.SimpleLambdaExpressionSyntax)">
            <summary>Called when the visitor visits a SimpleLambdaExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitParenthesizedLambdaExpression(Roslyn.Compilers.CSharp.ParenthesizedLambdaExpressionSyntax)">
            <summary>Called when the visitor visits a ParenthesizedLambdaExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitInitializerExpression(Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Called when the visitor visits a InitializerExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitObjectCreationExpression(Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax)">
            <summary>Called when the visitor visits a ObjectCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAnonymousObjectMemberDeclarator(Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax)">
            <summary>Called when the visitor visits a AnonymousObjectMemberDeclaratorSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAnonymousObjectCreationExpression(Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax)">
            <summary>Called when the visitor visits a AnonymousObjectCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitArrayCreationExpression(Roslyn.Compilers.CSharp.ArrayCreationExpressionSyntax)">
            <summary>Called when the visitor visits a ArrayCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitImplicitArrayCreationExpression(Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax)">
            <summary>Called when the visitor visits a ImplicitArrayCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitStackAllocArrayCreationExpression(Roslyn.Compilers.CSharp.StackAllocArrayCreationExpressionSyntax)">
            <summary>Called when the visitor visits a StackAllocArrayCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitQueryExpression(Roslyn.Compilers.CSharp.QueryExpressionSyntax)">
            <summary>Called when the visitor visits a QueryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitQueryBody(Roslyn.Compilers.CSharp.QueryBodySyntax)">
            <summary>Called when the visitor visits a QueryBodySyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitFromClause(Roslyn.Compilers.CSharp.FromClauseSyntax)">
            <summary>Called when the visitor visits a FromClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitLetClause(Roslyn.Compilers.CSharp.LetClauseSyntax)">
            <summary>Called when the visitor visits a LetClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitJoinClause(Roslyn.Compilers.CSharp.JoinClauseSyntax)">
            <summary>Called when the visitor visits a JoinClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitJoinIntoClause(Roslyn.Compilers.CSharp.JoinIntoClauseSyntax)">
            <summary>Called when the visitor visits a JoinIntoClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitWhereClause(Roslyn.Compilers.CSharp.WhereClauseSyntax)">
            <summary>Called when the visitor visits a WhereClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitOrderByClause(Roslyn.Compilers.CSharp.OrderByClauseSyntax)">
            <summary>Called when the visitor visits a OrderByClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitOrdering(Roslyn.Compilers.CSharp.OrderingSyntax)">
            <summary>Called when the visitor visits a OrderingSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSelectClause(Roslyn.Compilers.CSharp.SelectClauseSyntax)">
            <summary>Called when the visitor visits a SelectClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitGroupClause(Roslyn.Compilers.CSharp.GroupClauseSyntax)">
            <summary>Called when the visitor visits a GroupClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitQueryContinuation(Roslyn.Compilers.CSharp.QueryContinuationSyntax)">
            <summary>Called when the visitor visits a QueryContinuationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitOmittedArraySizeExpression(Roslyn.Compilers.CSharp.OmittedArraySizeExpressionSyntax)">
            <summary>Called when the visitor visits a OmittedArraySizeExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitGlobalStatement(Roslyn.Compilers.CSharp.GlobalStatementSyntax)">
            <summary>Called when the visitor visits a GlobalStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBlock(Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Called when the visitor visits a BlockSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitLocalDeclarationStatement(Roslyn.Compilers.CSharp.LocalDeclarationStatementSyntax)">
            <summary>Called when the visitor visits a LocalDeclarationStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitVariableDeclaration(Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Called when the visitor visits a VariableDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitVariableDeclarator(Roslyn.Compilers.CSharp.VariableDeclaratorSyntax)">
            <summary>Called when the visitor visits a VariableDeclaratorSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEqualsValueClause(Roslyn.Compilers.CSharp.EqualsValueClauseSyntax)">
            <summary>Called when the visitor visits a EqualsValueClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitExpressionStatement(Roslyn.Compilers.CSharp.ExpressionStatementSyntax)">
            <summary>Called when the visitor visits a ExpressionStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEmptyStatement(Roslyn.Compilers.CSharp.EmptyStatementSyntax)">
            <summary>Called when the visitor visits a EmptyStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitLabeledStatement(Roslyn.Compilers.CSharp.LabeledStatementSyntax)">
            <summary>Called when the visitor visits a LabeledStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitGotoStatement(Roslyn.Compilers.CSharp.GotoStatementSyntax)">
            <summary>Called when the visitor visits a GotoStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBreakStatement(Roslyn.Compilers.CSharp.BreakStatementSyntax)">
            <summary>Called when the visitor visits a BreakStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitContinueStatement(Roslyn.Compilers.CSharp.ContinueStatementSyntax)">
            <summary>Called when the visitor visits a ContinueStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitReturnStatement(Roslyn.Compilers.CSharp.ReturnStatementSyntax)">
            <summary>Called when the visitor visits a ReturnStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitThrowStatement(Roslyn.Compilers.CSharp.ThrowStatementSyntax)">
            <summary>Called when the visitor visits a ThrowStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitYieldStatement(Roslyn.Compilers.CSharp.YieldStatementSyntax)">
            <summary>Called when the visitor visits a YieldStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitWhileStatement(Roslyn.Compilers.CSharp.WhileStatementSyntax)">
            <summary>Called when the visitor visits a WhileStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitDoStatement(Roslyn.Compilers.CSharp.DoStatementSyntax)">
            <summary>Called when the visitor visits a DoStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitForStatement(Roslyn.Compilers.CSharp.ForStatementSyntax)">
            <summary>Called when the visitor visits a ForStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitForEachStatement(Roslyn.Compilers.CSharp.ForEachStatementSyntax)">
            <summary>Called when the visitor visits a ForEachStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitUsingStatement(Roslyn.Compilers.CSharp.UsingStatementSyntax)">
            <summary>Called when the visitor visits a UsingStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitFixedStatement(Roslyn.Compilers.CSharp.FixedStatementSyntax)">
            <summary>Called when the visitor visits a FixedStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitCheckedStatement(Roslyn.Compilers.CSharp.CheckedStatementSyntax)">
            <summary>Called when the visitor visits a CheckedStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitUnsafeStatement(Roslyn.Compilers.CSharp.UnsafeStatementSyntax)">
            <summary>Called when the visitor visits a UnsafeStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitLockStatement(Roslyn.Compilers.CSharp.LockStatementSyntax)">
            <summary>Called when the visitor visits a LockStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitIfStatement(Roslyn.Compilers.CSharp.IfStatementSyntax)">
            <summary>Called when the visitor visits a IfStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitElseClause(Roslyn.Compilers.CSharp.ElseClauseSyntax)">
            <summary>Called when the visitor visits a ElseClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSwitchStatement(Roslyn.Compilers.CSharp.SwitchStatementSyntax)">
            <summary>Called when the visitor visits a SwitchStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSwitchSection(Roslyn.Compilers.CSharp.SwitchSectionSyntax)">
            <summary>Called when the visitor visits a SwitchSectionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSwitchLabel(Roslyn.Compilers.CSharp.SwitchLabelSyntax)">
            <summary>Called when the visitor visits a SwitchLabelSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTryStatement(Roslyn.Compilers.CSharp.TryStatementSyntax)">
            <summary>Called when the visitor visits a TryStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitCatchClause(Roslyn.Compilers.CSharp.CatchClauseSyntax)">
            <summary>Called when the visitor visits a CatchClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitCatchDeclaration(Roslyn.Compilers.CSharp.CatchDeclarationSyntax)">
            <summary>Called when the visitor visits a CatchDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitFinallyClause(Roslyn.Compilers.CSharp.FinallyClauseSyntax)">
            <summary>Called when the visitor visits a FinallyClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitCompilationUnit(Roslyn.Compilers.CSharp.CompilationUnitSyntax)">
            <summary>Called when the visitor visits a CompilationUnitSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitExternAliasDirective(Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax)">
            <summary>Called when the visitor visits a ExternAliasDirectiveSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitUsingDirective(Roslyn.Compilers.CSharp.UsingDirectiveSyntax)">
            <summary>Called when the visitor visits a UsingDirectiveSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitNamespaceDeclaration(Roslyn.Compilers.CSharp.NamespaceDeclarationSyntax)">
            <summary>Called when the visitor visits a NamespaceDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAttributeList(Roslyn.Compilers.CSharp.AttributeListSyntax)">
            <summary>Called when the visitor visits a AttributeListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAttributeTargetSpecifier(Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax)">
            <summary>Called when the visitor visits a AttributeTargetSpecifierSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAttribute(Roslyn.Compilers.CSharp.AttributeSyntax)">
            <summary>Called when the visitor visits a AttributeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAttributeArgumentList(Roslyn.Compilers.CSharp.AttributeArgumentListSyntax)">
            <summary>Called when the visitor visits a AttributeArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAttributeArgument(Roslyn.Compilers.CSharp.AttributeArgumentSyntax)">
            <summary>Called when the visitor visits a AttributeArgumentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitNameEquals(Roslyn.Compilers.CSharp.NameEqualsSyntax)">
            <summary>Called when the visitor visits a NameEqualsSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTypeParameterList(Roslyn.Compilers.CSharp.TypeParameterListSyntax)">
            <summary>Called when the visitor visits a TypeParameterListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTypeParameter(Roslyn.Compilers.CSharp.TypeParameterSyntax)">
            <summary>Called when the visitor visits a TypeParameterSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitClassDeclaration(Roslyn.Compilers.CSharp.ClassDeclarationSyntax)">
            <summary>Called when the visitor visits a ClassDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitStructDeclaration(Roslyn.Compilers.CSharp.StructDeclarationSyntax)">
            <summary>Called when the visitor visits a StructDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitInterfaceDeclaration(Roslyn.Compilers.CSharp.InterfaceDeclarationSyntax)">
            <summary>Called when the visitor visits a InterfaceDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEnumDeclaration(Roslyn.Compilers.CSharp.EnumDeclarationSyntax)">
            <summary>Called when the visitor visits a EnumDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitDelegateDeclaration(Roslyn.Compilers.CSharp.DelegateDeclarationSyntax)">
            <summary>Called when the visitor visits a DelegateDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEnumMemberDeclaration(Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax)">
            <summary>Called when the visitor visits a EnumMemberDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBaseList(Roslyn.Compilers.CSharp.BaseListSyntax)">
            <summary>Called when the visitor visits a BaseListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTypeParameterConstraintClause(Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax)">
            <summary>Called when the visitor visits a TypeParameterConstraintClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitConstructorConstraint(Roslyn.Compilers.CSharp.ConstructorConstraintSyntax)">
            <summary>Called when the visitor visits a ConstructorConstraintSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitClassOrStructConstraint(Roslyn.Compilers.CSharp.ClassOrStructConstraintSyntax)">
            <summary>Called when the visitor visits a ClassOrStructConstraintSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitTypeConstraint(Roslyn.Compilers.CSharp.TypeConstraintSyntax)">
            <summary>Called when the visitor visits a TypeConstraintSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitFieldDeclaration(Roslyn.Compilers.CSharp.FieldDeclarationSyntax)">
            <summary>Called when the visitor visits a FieldDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEventFieldDeclaration(Roslyn.Compilers.CSharp.EventFieldDeclarationSyntax)">
            <summary>Called when the visitor visits a EventFieldDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitExplicitInterfaceSpecifier(Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax)">
            <summary>Called when the visitor visits a ExplicitInterfaceSpecifierSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitMethodDeclaration(Roslyn.Compilers.CSharp.MethodDeclarationSyntax)">
            <summary>Called when the visitor visits a MethodDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitOperatorDeclaration(Roslyn.Compilers.CSharp.OperatorDeclarationSyntax)">
            <summary>Called when the visitor visits a OperatorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitConversionOperatorDeclaration(Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax)">
            <summary>Called when the visitor visits a ConversionOperatorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitConstructorDeclaration(Roslyn.Compilers.CSharp.ConstructorDeclarationSyntax)">
            <summary>Called when the visitor visits a ConstructorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitConstructorInitializer(Roslyn.Compilers.CSharp.ConstructorInitializerSyntax)">
            <summary>Called when the visitor visits a ConstructorInitializerSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitDestructorDeclaration(Roslyn.Compilers.CSharp.DestructorDeclarationSyntax)">
            <summary>Called when the visitor visits a DestructorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPropertyDeclaration(Roslyn.Compilers.CSharp.PropertyDeclarationSyntax)">
            <summary>Called when the visitor visits a PropertyDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEventDeclaration(Roslyn.Compilers.CSharp.EventDeclarationSyntax)">
            <summary>Called when the visitor visits a EventDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitIndexerDeclaration(Roslyn.Compilers.CSharp.IndexerDeclarationSyntax)">
            <summary>Called when the visitor visits a IndexerDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAccessorList(Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Called when the visitor visits a AccessorListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitAccessorDeclaration(Roslyn.Compilers.CSharp.AccessorDeclarationSyntax)">
            <summary>Called when the visitor visits a AccessorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitParameterList(Roslyn.Compilers.CSharp.ParameterListSyntax)">
            <summary>Called when the visitor visits a ParameterListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBracketedParameterList(Roslyn.Compilers.CSharp.BracketedParameterListSyntax)">
            <summary>Called when the visitor visits a BracketedParameterListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitParameter(Roslyn.Compilers.CSharp.ParameterSyntax)">
            <summary>Called when the visitor visits a ParameterSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitIncompleteMember(Roslyn.Compilers.CSharp.IncompleteMemberSyntax)">
            <summary>Called when the visitor visits a IncompleteMemberSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitSkippedTokensTrivia(Roslyn.Compilers.CSharp.SkippedTokensTriviaSyntax)">
            <summary>Called when the visitor visits a SkippedTokensTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitDocumentationCommentTrivia(Roslyn.Compilers.CSharp.DocumentationCommentTriviaSyntax)">
            <summary>Called when the visitor visits a DocumentationCommentTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlElement(Roslyn.Compilers.CSharp.XmlElementSyntax)">
            <summary>Called when the visitor visits a XmlElementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlElementStartTag(Roslyn.Compilers.CSharp.XmlElementStartTagSyntax)">
            <summary>Called when the visitor visits a XmlElementStartTagSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlElementEndTag(Roslyn.Compilers.CSharp.XmlElementEndTagSyntax)">
            <summary>Called when the visitor visits a XmlElementEndTagSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlEmptyElement(Roslyn.Compilers.CSharp.XmlEmptyElementSyntax)">
            <summary>Called when the visitor visits a XmlEmptyElementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlName(Roslyn.Compilers.CSharp.XmlNameSyntax)">
            <summary>Called when the visitor visits a XmlNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlPrefix(Roslyn.Compilers.CSharp.XmlPrefixSyntax)">
            <summary>Called when the visitor visits a XmlPrefixSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlAttribute(Roslyn.Compilers.CSharp.XmlAttributeSyntax)">
            <summary>Called when the visitor visits a XmlAttributeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlText(Roslyn.Compilers.CSharp.XmlTextSyntax)">
            <summary>Called when the visitor visits a XmlTextSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlCDataSection(Roslyn.Compilers.CSharp.XmlCDataSectionSyntax)">
            <summary>Called when the visitor visits a XmlCDataSectionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlProcessingInstruction(Roslyn.Compilers.CSharp.XmlProcessingInstructionSyntax)">
            <summary>Called when the visitor visits a XmlProcessingInstructionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitXmlComment(Roslyn.Compilers.CSharp.XmlCommentSyntax)">
            <summary>Called when the visitor visits a XmlCommentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitIfDirectiveTrivia(Roslyn.Compilers.CSharp.IfDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a IfDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitElifDirectiveTrivia(Roslyn.Compilers.CSharp.ElifDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ElifDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitElseDirectiveTrivia(Roslyn.Compilers.CSharp.ElseDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ElseDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEndIfDirectiveTrivia(Roslyn.Compilers.CSharp.EndIfDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a EndIfDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitRegionDirectiveTrivia(Roslyn.Compilers.CSharp.RegionDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a RegionDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitEndRegionDirectiveTrivia(Roslyn.Compilers.CSharp.EndRegionDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a EndRegionDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitErrorDirectiveTrivia(Roslyn.Compilers.CSharp.ErrorDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ErrorDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitWarningDirectiveTrivia(Roslyn.Compilers.CSharp.WarningDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a WarningDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitBadDirectiveTrivia(Roslyn.Compilers.CSharp.BadDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a BadDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitDefineDirectiveTrivia(Roslyn.Compilers.CSharp.DefineDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a DefineDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitUndefDirectiveTrivia(Roslyn.Compilers.CSharp.UndefDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a UndefDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitLineDirectiveTrivia(Roslyn.Compilers.CSharp.LineDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a LineDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPragmaWarningDirectiveTrivia(Roslyn.Compilers.CSharp.PragmaWarningDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a PragmaWarningDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitPragmaChecksumDirectiveTrivia(Roslyn.Compilers.CSharp.PragmaChecksumDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a PragmaChecksumDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor`1.VisitReferenceDirectiveTrivia(Roslyn.Compilers.CSharp.ReferenceDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ReferenceDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BinderFactory.InSpan(Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.CSharp.SyntaxTree,Roslyn.Compilers.TextSpan)">
            <summary>
            Returns true if the location is within the syntax tree and span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BinderFactory.GetImportsBinder(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Returns binder that binds usings and aliases 
            </summary>
            <param name="unit">
            Specify <see cref="T:Roslyn.Compilers.CSharp.NamespaceDeclarationSyntax"/> imports in the corresponding namespace, or
            <see cref="T:Roslyn.Compilers.CSharp.CompilationUnitSyntax"/> for top-level imports.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BinderFactory.IsInUsing(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Returns true if containingNode has a child that contains the specified position
            and has kind UsingDirective.
            </summary>
            <remarks>
            Usings can't see other usings, so this is extra info when looking at a namespace
            or compilation unit scope.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.EarlyWellKnownAttributeBinder">
            <summary>
            This is a special binder used for decoding some special well-known attributes very early in the attribute binding phase.
            It only binds those attribute argument syntax which can produce valid attribute arguments, but doesn't report any diagnostics.
            Subsequent binding phase will rebind such erroneous attributes and generate appropriate diagnostics.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Binder">
            <summary>
            This portion of the binder converts a QueryExpressionSyntax into a BoundExpression
            </summary>
            <summary>
            This portion of the binder reports errors arising from resolving queries.
            </summary>
            <summary>
            This portion of the binder converts a AnonymousObjectCreationExpressionSyntax into 
            a bound anonymous object creation node
            </summary>
            <summary>
            A Binder converts names in to symbols and syntax nodes into bound trees. It is context
            dependent, relative to a location in source code.
            </summary>
            <summary>
            This portion of the binder converts an ExpressionSyntax into a BoundExpression
            </summary>
            <summary>
            This portion of the binder converts StatementSyntax nodes into BoundStatements
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.EnsureInvariantMeaningInScope(Roslyn.Compilers.CSharp.SimpleNameSyntax,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            <para>Once a simple name has been bound to a particular symbol, we need to ensure that symbol is the
            <em>only</em>
            binding for that simple name in that local scope or any nested local scope.  We do that by constructing a
            data structure that records, for each scope (LocalScopeBinder), the meaning of every simple name used within
            that scope.
            </para>
            <para>
            The "meaning" is recorded in a dictionary in the local scope that is keyed by simple name (string).  The
            meaning records the symbol that was previously found to be the symbol's definition, the location of the
            reference, and a "Direct" flag that distinguishes between references directly within that scope
            (Direct=true), and references that appear somewhere within more deeply nested scopes (Direct=false).  A
            meaning also has a "Reported" boolean flag that is set once a meaning conflict has been reported, to
            suppress duplicate or cascaded diagnostics.
            </para>
            <para>
            The algorithm works as follows: Once a definition or use of a particular symbol is found within a given
            local scope, an entry with Direct=true is made for that symbol.  It is then resolved against any meaning
            already stored for that scope.  Any entry for that name in the scope indicates an error, which is reported.
            If the existing entry was Direct=true, then both symbols were used or defined directly within that scope. In
            that case an error is reported and their "Reported" flags are set to true to supporess any further
            diagnostics. If the existing entry was "Direct=false", then a conflicting reference appeared in a more
            nested scope, and the conflict is reported a the location of the more nested scope; only the more nested's
            "Reported" flag is then set to true.
            </para>
            <para>
            If no entry was found in the innermost local scope, then a separate entry with "Direct=false" is created and
            resolved, one by one, against all enclosing local scopes.  A scope without an existing entry receives a
            reference to this new entry.  A scope with an existing "Direct=false" entry is skipped.  And a scope
            containing a "Direct=true" entry for a different symbol represents a conflict, which is reported at the
            position of the new "Direct=false" reference, which is the more nested scope.  We also set the "Reported"
            flag for the more nested reference.
            </para>
            <para>
            The correctness of this algorithm depends on a subtle condition that doesn't appear explicitly in the code,
            so it is worth calling out.  You might worry about reporting a single-definition rule conflict somewhere
            while processing a trial binding of a lambda which is later discarded.  Where has the diagnostic gone?  If the
            trial binding is discarded but the meaning's "Reported" flag has been set to true, won't we miss reporting
            an error?  In fact, that cannot happen.  This diagnostic is consistently reported during any (sequential)
            compilation of a given method's body, as explained below.  In "speculative" and SemanticModel trial bindings,
            which may occur in the face of concurrency, these diagnostics do not affect the result of the API (the
            diagnostics are discarded).
            </para>
            <para>
            The conflicts that arise from two meanings that are Direct references within the same scope do not cause a
            problem, because the scope and their entries are either both within the same lambda or not within a lambda
            at all.  If they are both within the same lambda, then the diagnostic will be reported each time we attempt
            to bind the innermost lambda body.
            </para>
            <para>
            The more subtle situation is when the conflict arises between a Direct and a !Direct meaning.  The Direct
            meaning represents a definition of a name or a use of a name in an outer scope, and the !Direct meaning
            within a more nested scope.  We always report such conflicts at the location of the more nested scope.  There
            are two cases to consider: either the Direct meaning is recorded in the scope before the !Direct entry, for
            example when we bind code such as
            </para>
            <code>{ int i; { int i; } }</code>
            <para>
            Or the !Direct entry is recorded first, for example in code such as</para>
            <code>{ { int i; } int i; }</code>
            <para>
            Let us first consider the former.  If the more nested reference appears within a lambda, the diagnostic will
            be reported during every binding of the lambda, because every binding introduces a new meaning for the
            nested variable.
            </para>
            <para>
            Let us now consider the latter situation, and consider what happens if the nested reference appears within a
            lambda.  We have the lambda possibly being bound before the outer variable declaration. In that case the
            error is not reported until we bind the outer definition. But now the error is reported outside the lambda
            binder.  The lambda bindings will appear to succeed without errors.
            </para>
            <para>
            The important points to note are that (1) in either case, we report exactly one error for the conflict, and
            (2) it is the same error in both cases, not depending on binding order.  However, in one case the lambda
            binding "fails", while in the other it "succeeds"; this may result in subtle differences observable in the
            SemanticModel API and possibly different suppression of cascaded diagnostics, as is seen in Dev10.  However,
            I have not been able to reproduce these effects in Roslyn
            </para>
            </summary>
            <param name="node">The simple name syntax whose meaning should be invariant within every enclosing
            scope</param>
            <param name="expression">The bound node to which the given simple name resolved</param>
            <param name="diagnostics">A bag into which diagnostics are to be reported</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ExpressionSymbol(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            A symbol referenced by the bound expression for the purpose of ensuring an invariant meaning in a local
            scope.  For a method group, we select one of the methods.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.EnsureInvariantMeaningInScopeInternal(Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Given that we've found a reference to a symbol as a simple name, ensure that it is the only symbol
            associated with that simple name in this scope or any nested scope.
            <para>
            </para>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUnsafe(Roslyn.Compilers.CSharp.Diagnostic,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Add the unsafe diagnostic to the diagnostic bag, as long as it isn't supposed to be
            suppressed for some reason (usually because another one was reported in the same local
            scope).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUnsafeIfNotAllowed(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.DiagnosticBag)">
            <returns>True if a diagnostic was reported, or would have been reported if not for
            the suppress flag.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUnsafeIfNotAllowed(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.DiagnosticBag)">
            <returns>True if a diagnostic was reported, or would have been reported if not for
            the suppress flag.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUnsafeIfNotAllowed(Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.DiagnosticBag)">
            <returns>True if a diagnostic was reported, or would have been reported if not for
            the suppress flag.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUnsafeIfNotAllowed(Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.DiagnosticBag)">
            <returns>True if a diagnostic was reported, or would have been reported if not for
            the suppress flag.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindTypeParameterConstraintClauses(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeParameterSymbol},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Return a collection of bound constraint clauses indexed by type parameter
            ordinal. All constraint clauses are bound, even if there are multiple constraints
            for the same type parameter, or constraints for unrecognized type parameters.
            Extra constraints are not included in the returned collection however.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindTypeParameterConstraints(System.String,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintSyntax},Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Bind and return a single type parameter constraint clause.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsValidConstraintType(Roslyn.Compilers.CSharp.TypeConstraintSyntax,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Returns true if the type is a valid constraint type.
            Otherwise returns false and generates a diagnostic.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportQueryLookupFailed(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,System.String,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This is a clone of the Dev10 logic for reporting query errors.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsAnonymousTypesAllowed(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Actually, defines if an error ERR_AnonymousTypeNotAvailable is to be generated; 
            
            Dev10 rules (which are based on BindingContext::InMethod()) are difficult to 
            reproduce, so this implementation checks both current symbol as well as syntax nodes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetAnonymousTypeFieldType(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            Returns the type to be used as a field type; generates errors in case the type is not
            supported for anonymous type fields.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetRewrittenAttributeConstructorArguments(Roslyn.Compilers.ReadOnlyArray{System.Int32}@,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.Common.CommonTypedConstant[],Roslyn.Compilers.ReadOnlyArray{System.String})">
            <summary>
            Gets the rewritten attribute constructor arguments, i.e. the arguments
            are in the order of parameters, which may differ from the source
            if named constructor arguments are used.
            
            For example:
                void Foo(int x, int y, int z, int w = 3);
            
                Foo(0, z: 2, y: 1);
                
                Arguments returned: 0, 1, 2, 3
            </summary>
            <returns>Rewritten attribute constructor arguments</returns>
            <remarks>
            CONSIDER: Can we share some code will call rewriting in the local rewriter?
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.MemberGroupFinalValidation(Roslyn.Compilers.CSharp.BoundExpression,System.Boolean,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This method implements the algorithm in spec section 7.6.5.1.
            
            For method group conversions, there are situations in which the conversion is
            considered to exist ("Otherwise the algorithm produces a single best method M having
            the same number of parameters as D and the conversion is considered to exist"), but
            application of the conversion fails.  These are the "final validation" steps of
            overload resolution.
            </summary>
            <returns>
            True if there is any error.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.WasImplicitReceiver(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Was the receiver expression compiler-generated?
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.MethodGroupIsCompatibleWithDelegate(Roslyn.Compilers.CSharp.BoundExpression,System.Boolean,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This method implements the checks in spec section 15.2.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.MethodGroupConversionHasErrors(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.Conversion,Roslyn.Compilers.CSharp.BoundExpression,System.Boolean,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This method combines final validation (section 7.6.5.1) and delegate compatibility (section 15.2).
            </summary>
            <param name="syntax">SyntaxNode of the expression requiring method group conversion.</param>
            <param name="conversion">Conversion to be performed.</param>
            <param name="receiverOpt">Optional receiver.</param>
            <param name="isExtensionMethod">Method invoked as extension method.</param>
            <param name="delegateType">Target delegate type.</param>
            <param name="diagnostics">Where diagnostics should be added.</param>
            <returns>True if a diagnostic has been added.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.MethodGroupConversionDoesNotExistOrHasErrors(Roslyn.Compilers.CSharp.BoundMethodGroup,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.Conversion@)">
            <summary>
            This method is a wrapper around MethodGroupConversionHasErrors.  As a preliminary step,
            it checks whether a conversion exists.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindEventAssignment(Roslyn.Compilers.CSharp.BinaryExpressionSyntax,Roslyn.Compilers.CSharp.BoundEventAccess,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BinaryOperatorKind,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            For "receiver.event += expr", produce "receiver.add_event(expr)".
            For "receiver.event -= expr", produce "receiver.remove_event(expr)".
            </summary>
            <remarks>
            Performs some validation of the accessor that couldn't be done in CheckEventValueKind, because
            the specific accessor wasn't known.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.TryFoldingNullableEquality(Roslyn.Compilers.CSharp.BinaryOperatorKind,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            If one of the (unconverted) operands has constant value null and the other has
            a null constant value other than null, then they are definitely not equal
            and we can give a constant value for either == or !=.  This is a spec violation
            that we retain from Dev10.
            </summary>
            <param name="kind">The operator kind.  Nothing will happen if it is not a lifted equality operator.</param>
            <param name="left">The left-hand operand of the operation (possibly wrapped in a conversion).</param>
            <param name="right">The right-hand operand of the operation (possibly wrapped in a conversion).</param>
            <returns>
            If the operator represents lifted equality, then constant value true if both arguments have constant
            value null, constant value false if exactly one argument has constant value null, and null otherwise.
            If the operator represents lifted inequality, then constant value false if both arguments have constant
            value null, constant value true if exactly one argument has constant value null, and null otherwise.
            </returns>
            <remarks>
            SPEC VIOLATION: according to the spec (section 7.19) constant expressions cannot
            include implicit nullable conversions or nullable subexpressions.  However, Dev10
            specifically folds over lifted == and != (see ExpressionBinder::TryFoldingNullableEquality).
            Dev 10 does do compile-time evaluation of simple lifted operators, but it does so
            in a rewriting pass (see NullableRewriter) - they are not treated as constant values.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsFixedStatementAddressOfExpression(Roslyn.Compilers.CSharp.PrefixUnaryExpressionSyntax)">
            <remarks>
            The real implementation is in FixedStatementBinder.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindConditionalOperator(Roslyn.Compilers.CSharp.ConditionalExpressionSyntax,Roslyn.Compilers.DiagnosticBag)">
             <remarks>
             From ExpressionBinder::EnsureQMarkTypesCompatible:
             
             The v2.0 specification states that the types of the second and third operands T and S of a ternary operator
             must be TT and TS such that either (a) TT==TS, or (b), TT->TS or TS->TT but not both.
            
             Unfortunately that is not what we implemented in v2.0.  Instead, we implemented
             that either (a) TT=TS or (b) T->TS or S->TT but not both.  That is, we looked at the
             convertibility of the expressions, not the types.
            
            
             Changing that to the algorithm in the standard would be a breaking change.
            
             b ? (Func&lt;int&gt;)(delegate(){return 1;}) : (delegate(){return 2;})
            
             and
            
             b ? 0 : myenum
            
             would suddenly stop working.  (The first because o2 has no type, the second because 0 goes to
             any enum but enum doesn't go to int.)
            
             It gets worse.  We would like the 3.0 language features which require type inference to use
             a consistent algorithm, and that furthermore, the algorithm be smart about choosing the best
             of a set of types.  However, the language committee has decided that this algorithm will NOT
             consume information about the convertibility of expressions. Rather, it will gather up all
             the possible types and then pick the "largest" of them.
            
             To maintain backwards compatibility while still participating in the spirit of consistency,
             we implement an algorithm here which picks the type based on expression convertibility, but
             if there is a conflict, then it chooses the larger type rather than producing a type error.
             This means that b?0:myshort will have type int rather than producing an error (because 0->short,
             myshort->int).
             </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.FoldConditionalOperator(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Constant folding for conditional (aka ternary) operators.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetBinder(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Some nodes have special binder's for their contents (like Block's)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetIteratorElementType(Roslyn.Compilers.CSharp.YieldStatementSyntax,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Get the element type of this iterator.
            </summary>
            <param name="node">Node to report diagnostics, if any, such as "yield statement cannot be used
            inside a lambda expression"</param>
            <param name="diagnostics">Where to place any diagnostics</param>
            <returns>Element type of the current iterator, or an error type.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportDiagnosticsIfObsolete(Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Issue an error or warning for a symbol if it is Obsolete. If there is not enough
            information to report diagnostics, then store the symbols so that diagnostics
            can be reported at a later stage.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUseSiteErrorForSynthesizedAttribute(Roslyn.Compilers.WellKnownMember,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This method reports use site errors if a required attribute member is missing.
            Some attributes are considered to be optional (e.g. the CompilerGeneratedAttribute). In this case the use site
            errors will be ignored.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReportUseSiteErrorForSynthesizedAttribute(Roslyn.Compilers.WellKnownMember,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This method reports use site errors if a required attribute member is missing.
            Some attributes are considered to be optional (e.g. the CompilerGeneratedAttribute). In this case the use site
            errors will be ignored.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsUnboundTypeAllowed(Roslyn.Compilers.CSharp.GenericNameSyntax)">
            <summary>
            Returns true if the node is in a position where an unbound type
            such as (C&lt;,&gt;) is allowed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.NYIExpression(Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SyntaxNode,System.String,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundNode},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupResultKind,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Generates a new BoundBadExpression to report a not yet implemented error.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BadExpression(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundNode[])">
            <summary>
            Generates a new BoundBadExpression with no known type, and the given bound children.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BadExpression(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.LookupResultKind,Roslyn.Compilers.CSharp.BoundNode[])">
            <summary>
            Generates a new BoundBadExpression with no known type, given lookup resultKind and the given bound children.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BadExpression(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.LookupResultKind,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.BoundNode[])">
            <summary>
            Generates a new BoundBadExpression with no known type, given lookupResultKind and given symbols for GetSemanticInfo API,
            and the given bound children.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BadExpression(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.LookupResultKind,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundExpression})">
            <summary>
            Generates a new BoundBadExpression with no known type, given lookupResultKind and given symbols for GetSemanticInfo API,
            and the given bound children.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ToBadExpression(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.LookupResultKind)">
            <summary>
            Helper method to generate a bound expression with HasErrors set to true.
            Returned bound expression is guaranteed to have a non-null type, except when <paramref name="expr"/> is an unbound lambda.
            If <paramref name="expr"/> already has errors and meets the above type requirements, then it is returned unchanged.
            Otherwise, if <paramref name="expr"/> is a BoundBadExpression, then it is updated with the <paramref name="resultKind"/> and non-null type.
            Otherwise, a new BoundBadExpression wrapping <paramref name="expr"/> is returned. 
            </summary>
            <remarks>
            Returned expression need not be a BoundBadExpression, but is guaranteed to have HasErrors set to true.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindValue(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.Binder.BindValueKind)">
            <summary>
            Bind the expression and verify the expression matches the combination of lvalue and
            rvalue requirements given by valueKind. If the expression was bound successfully, but
            did not meet the requirements, the return value will be a BoundBadExpression that
            (typically) wraps the subexpression.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindQualifiedName(Roslyn.Compilers.CSharp.QualifiedNameSyntax,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            This function is only needed for SemanticModel to perform binding for erroneous cases.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindIdentifier(Roslyn.Compilers.CSharp.SimpleNameSyntax,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Binds a simple identifier.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.MakeInvocationExpression(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,System.String,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundExpression},Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Helper method to create a synthesized method invocation expression.
            </summary>
            <param name="node">Syntax Node.</param>
            <param name="receiver">Receiver for the method call.</param>
            <param name="methodName">Method to be invoked on the receiver.</param>
            <param name="args">Arguments to the method call.</param>
            <param name="diagnostics">Diagnostics.</param>
            <param name="typeArgsSyntax">Optional type arguments syntax.</param>
            <param name="typeArgs">Optional type arguments.</param>
            <param name="queryClause">The syntax for the query clause generating this invocation expression, if any.</param>
            <returns>Synthesized method invocation expression.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindInvocationExpression(Roslyn.Compilers.CSharp.InvocationExpressionSyntax,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Bind an expression as a method invocation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindInvocationExpression(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,System.String,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.AnalyzedArguments,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Bind an expression as a method invocation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindInvocationExpressionContinued(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,System.String,Roslyn.Compilers.CSharp.OverloadResolutionResult{Roslyn.Compilers.CSharp.MethodSymbol},Roslyn.Compilers.CSharp.AnalyzedArguments,Roslyn.Compilers.CSharp.MethodGroup,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Perform overload resolution on the method group or expression (BoundMethodGroup)
            and arguments and return a BoundExpression representing the invocation.
            </summary>
            <param name="node">Invocation syntax node.</param>
            <param name="expression">The syntax for the invoked method, including receiver.</param>
            <param name="methodName">Name of the invoked method.</param>
            <param name="result">Overload resolution result for method group executed by caller.</param>
            <param name="analyzedArguments">Arguments bound by the caller.</param>
            <param name="methodGroup">Method group if the invocation represents a potentially overloaded member.</param>
            <param name="delegateTypeOpt">Delegate type if method group represents a delegate.</param>
            <param name="diagnostics">Diagnostics.</param>
            <param name="queryClause">The syntax for the query clause generating this invocation expression, if any.</param>
            <returns>BoundCall, BoundDelegateCall, or error expression representing the invocation.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ReplaceTypeOrValueReceiver(Roslyn.Compilers.CSharp.BoundExpression,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Replace a BoundTypeOrValueExpression with a BoundExpression for either a type (if useType is true)
            or a value (if useType is false).  Any other node is unmodified.
            </summary>
            <remarks>
            Call this once overload resolution has succeeded on the method group of which the BoundTypeOrValueExpression
            is the receiver.  Generally, useType will be true if the chosen method is static and false otherwise.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetDelegateType(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Return the delegate type if this expression represents a delegate.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetNameSyntax(Roslyn.Compilers.CSharp.SyntaxNode,System.String@)">
            <summary>
            Gets the NameSyntax associated with the syntax node
            If no syntax is attached it sets the nameString to plain text
            name and returns a null NameSyntax
            </summary>
            <param name="syntax">Syntax node</param>
            <param name="nameString">Plain text name</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetName(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Gets the plain text name associated with the the expression syntax node
            </summary>
            <param name="syntax">Expression syntax node</param>
            <returns>Plain text name</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindArrayInitializerExpressions(Roslyn.Compilers.CSharp.InitializerExpressionSyntax,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.BoundExpression},Roslyn.Compilers.DiagnosticBag,System.Int32,System.Int32)">
            <summary>
            This method walks through the array's InitializerExpressionSyntax and binds all the initializer expressions recursively.
            NOTE: It doesn't convert the bound initializer expressions to array's element type.
            NOTE: This is done separately in ConvertAndBindArrayInitialization method below.
            </summary>
            <param name="initializer">Initializer Syntax.</param>
            <param name="exprBuilder">Bound expression builder.</param>
            <param name="diagnostics">Diagnostics.</param>
            <param name="dimension">Current array dimension being processed.</param>
            <param name="rank">Rank of the array type.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ConvertAndBindArrayInitialization(Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.InitializerExpressionSyntax,Roslyn.Compilers.CSharp.ArrayTypeSymbol,System.Nullable{System.Int32}[],System.Int32,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundExpression},System.Int32@)">
            <summary>
            Given an array of bound initializer expressions, this method converts these bound expressions
            to array's element type and generates a BoundArrayInitialization with the converted initializers.
            </summary>
            <param name="diagnostics">Diagnostics.</param>
            <param name="node">Initializer Syntax.</param>
            <param name="type">Array type.</param>
            <param name="knownSizes">Known array bounds.</param>
            <param name="dimension">Current array dimension being processed.</param>
            <param name="boundInitExpr">Array of bound initializer expressions.</param>
            <param name="boundInitExprIndex">
            Index into the array of bound initializer expressions to fetch the next bound expression.
            </param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindConstructorInitializer(Roslyn.Compilers.CSharp.ConstructorInitializerSyntax,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Bind the (implicit or explicit) constructor initializer of a constructor symbol (in source).
            </summary>
            <param name="initializerSyntaxOpt">Null for implicit, SyntaxKind BaseConstructorInitializer or ThisConstructorInitializer for explicit.</param>
            <param name="constructor">Constructor containing the initializer.</param>
            <param name="diagnostics">Accumulates errors (e.g. unable to find constructor to invoke).</param>
            <returns>A bound expression for the constructor initializer call.</returns>
            <remarks>
            This method should be kept consistent with Compiler.BindConstructorInitializer (e.g. same error codes).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.PerformConstructorOverloadResolution(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.MethodSymbol},Roslyn.Compilers.CSharp.AnalyzedArguments,System.String,Roslyn.Compilers.CSharp.Location,System.Boolean,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.MemberResolutionResult{Roslyn.Compilers.CSharp.MethodSymbol}@,System.Boolean)">
            <summary>
            Given a list of constructors, use overload resolution to determine which one should be called.
            </summary>
            <param name="typeContainingConstructors">The containing type of the constructors.</param>
            <param name="constructors">The candidate constructors.</param>
            <param name="analyzedArguments">The already bound arguments to the constructor.</param>
            <param name="methodName">The name of the constructor method.</param>
            <param name="errorLocation">The location at which to report overload resolution result diagnostics.</param>
            <param name="suppressResultDiagnostics">True to suppress overload resolution result diagnostics (but not argument diagnostics).</param>
            <param name="diagnostics">Where diagnostics will be reported.</param>
            <param name="memberResolutionResult">If this method returns true, then it will contain a valid MethodResolutionResult.
            Otherwise, it may contain a MethodResolutionResult for an inaccessible constructor or nothing at all.</param>
            <param name="allowProtectedConstructorsOfBaseType">It is always legal to access a protected base class constructor
            via a constructor initializer, but not from an object creation expression.</param>
            <returns>True if overload resolution successfully chose an accessible constructor.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindMemberAccess(Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Binds a member access expression
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindLeftOfPotentialColorColorMemberAccess(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Attempt to bind the LHS of a member access expression.  If this is a Color Color case (spec 7.6.4.1),
            then return a BoundExpression if we can easily disambiguate or a BoundTypeOrValueExpression if we
            cannot.  If this is not a Color Color case, then return null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindMemberAccessWithBoundLeft(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.SimpleNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Bind the RHS of a member access expression, given the bound LHS.
            It is assumed that CheckValue has not been called on the LHS.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.MakeMemberAccessValue(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Create a value from the expression that can be used as a left-hand-side
            of a member access. This method special-cases method and property
            groups only. All other expressions are returned as is.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindMemberAccessReportError(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,System.String,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.DiagnosticInfo,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Report the error from member access lookup. Or, if there
            was no explicit error from lookup, report "no such member".
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindMemberAccessBadResult(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,System.String,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.DiagnosticInfo,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.LookupResultKind)">
            <summary>
            Return a BoundExpression representing the invalid member.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.CombineExtensionMethodArguments(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.AnalyzedArguments,Roslyn.Compilers.CSharp.AnalyzedArguments)">
            <summary>
            Combine the receiver and arguments of an extension method
            invocation into a single argument list to allow overload resolution
            to treat the invocation as a static method invocation with no receiver.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindMemberOfType(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,System.String,System.Int32,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.CSharp.LookupResult,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Binds a static or instance member access.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetSymbolOrMethodOrPropertyGroup(Roslyn.Compilers.CSharp.LookupResult,Roslyn.Compilers.CSharp.SyntaxNode,System.String,System.Int32,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            Given a viable LookupResult, report any ambiguity errors and return either a single
            non-method symbol or a method or property group. If the result set represents a
            collection of methods or a collection of properties where at least one of the properties
            is an indexed property, then 'methodOrPropertyGroup' is populated with the method or
            property group and the method returns null. Otherwise, the method returns a single
            symbol and 'methodOrPropertyGroup' is empty. (Since the result set is viable, there
            must be at least one symbol.) If the result set is ambiguous - either containing multiple
            members of different member types, or multiple properties but no indexed properties -
            then a diagnostic is reported for the ambiguity and a single symbol is returned.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ResolveMethodGroup(Roslyn.Compilers.CSharp.BoundMethodGroup,Roslyn.Compilers.CSharp.AnalyzedArguments,System.Boolean)">
            <summary>
            Perform lookup and overload resolution on methods defined directly on the class and any
            extension methods in scope. Lookup will occur for extension methods in all nested scopes
            as necessary until an appropriate method is found. If analyzedArguments is null, the first
            method group is returned, without overload resolution being performed. That method group
            will either be the methods defined on the receiver class directly (no extension methods)
            or the first set of extension methods.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.LookupSymbols(Roslyn.Compilers.CSharp.LookupResult,System.String,System.Int32,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Look for any symbols in scope with the given name and arity
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.LookupSymbolsOrMembers(Roslyn.Compilers.CSharp.LookupResult,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,System.String,System.Int32,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupOptions,System.Boolean)">
            <summary>
            If qualifierOpt is null, look for any symbols in
            scope with the given name and arity.
            Otherwise look for symbols that are members of the specified qualifierOpt.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.LookupMembers(Roslyn.Compilers.CSharp.LookupResult,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,System.String,System.Int32,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Look for symbols that are members of the specified namespace or type
            </summary>
            <param name="result"></param>
            <param name="nsOrType"></param>
            <param name="name"></param>
            <param name="arity"></param>
            <param name="basesBeingResolved"></param>
            <param name="options"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.LookupMembersInSubmissions(Roslyn.Compilers.CSharp.LookupResult,Roslyn.Compilers.CSharp.TypeSymbol,System.String,System.Int32,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupOptions,Roslyn.Compilers.CSharp.Binder,System.Boolean)">
            <summary>
            Lookup a member name in a submission chain.
            </summary>
            <remarks>
            We start with the current submission class and walk the submission chain back to the first submission.
            The search has two phases
            1) We are looking for any symbol matching the given name, arity, and options. If we don't find any the search is over.
               If we find and overloadable symbol(s) (a method or an indexer) we start looking for overloads of this kind 
               (lookingForOverloadsOfKind) of symbol in phase 2.
            2) If a visited submission contains a matching member of a kind different from lookingForOverloadsOfKind we stop 
               looking further. Otherwise, if we find viable overload(s) we add them into the result.
               
            Note that indexers are not supported in script but we deal with them here to handle errors.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.LookupAttributeType(Roslyn.Compilers.CSharp.LookupResult,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,System.String,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupOptions,System.Boolean,System.Boolean)">
            <summary>
            Lookup attribute name in the given binder. By default two name lookups are performed:
                (1) With the provided name
                (2) With an Attribute suffix added to the provided name
            Lookup with Attribute suffix is performed only if LookupOptions.VerbatimAttributeName is not set.
            
            If either lookup is ambiguous, we return the corresponding result with ambiguous symbols.
            Else if exactly one result is single viable attribute type, we return that result.
            Otherwise, we return a non-viable result with LookupResult.NotAnAttributeType or an empty result.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetCandidateExtensionMethods(System.Boolean,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.MethodSymbol},System.String,System.Int32,Roslyn.Compilers.CSharp.LookupOptions,System.Boolean)">
            <summary>
            Return the extension methods from this specific binding scope that match the name and optional
            arity. Since the lookup of extension methods is iterative, proceeding one binding scope at a time,
            GetCandidateExtensionMethods should not defer to the next binding scope. Instead, the caller is
            responsible for walking the nested binding scopes from innermost to outermost. This method is overridden
            to search the available members list in binding types that represent types, namespaces, and usings.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsMethodOrIndexer(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            This helper is used to determine whether this symbol hides / is hidden
            based on its signature, as opposed to its name.
            </summary>
            <remarks>
            CONSIDER: It might be nice to generalize this - maybe an extension method
            on Symbol (e.g. IsOverloadable or HidesByName).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Check whether "symbol" is accessible from this binder.
            Also checks protected access via "accessThroughType".
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.IsAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean@,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Check whether "symbol" is accessible from this binder.
            Also checks protected access via "accessThroughType", and sets "failedThroughTypeCheck" if fails
            the protected access check.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.AddLookupSymbolsInfo(Roslyn.Compilers.CSharp.LookupSymbolsInfo,Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Look for names in scope
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.AddMemberLookupSymbolsInfo(Roslyn.Compilers.CSharp.LookupSymbolsInfo,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,Roslyn.Compilers.CSharp.LookupOptions,Roslyn.Compilers.CSharp.Binder)">
            <summary>
            Look for names of members
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindStatement(Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.DiagnosticBag)">
            <remarks>
            Noteworthy override is in MemberSemanticModel.IncrementalBinder (used for caching).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetFixedLocalCollectionInitializer(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.MethodSymbol,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Wrap the initializer in a BoundFixedLocalCollectionInitializer so that the rewriter will have the
            information it needs (e.g. conversions, helper methods).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.CheckValue(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.Binder.BindValueKind,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Check the expression is of the required lvalue and rvalue specified by valueKind.
            The method returns the original expression if the expression is of the required
            type. Otherwise, an appropriate error is added to the diagnostics bag and the
            method returns a BoundBadExpression node. The method returns the original
            expression without generating any error if the expression has errors.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.RequiresVariableReceiver(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            SPEC: When a property or indexer declared in a struct-type is the target of an 
            SPEC: assignment, the instance expression associated with the property or indexer 
            SPEC: access must be classified as a variable. If the instance expression is 
            SPEC: classified as a value, a compile-time error occurs. Because of 7.6.4, 
            SPEC: the same rule also applies to fields.
            </summary>
            <remarks>
            NOTE: The spec fails to impose the restriction that the receiver must be classified
            as a variable (unlike for properties - 7.17.1).  This seems like a bug, but we have
            production code that won't build with the restriction in place (see DevDiv #15674).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.CurrentOrNext``1">
            <summary>
            Get the next binder of type T. This can be used to skip over binders of other types
            in the binder chain. This is not a general purpose helper and should be used with great caution!
            </summary>
            <typeparam name="T">The type that the preceding binder should have.</typeparam>
            <exception cref="T:System.NullReferenceException">If there is no such binder.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.CurrentOrNextOpt``1">
            <summary>
            Get the next binder of type T. This can be used to skip over binders of other types
            in the binder chain. This is not a general purpose helper and should be used with great caution!
            May return null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindType(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            Binds the type for the syntax taking into account possibility of "var" type.
            </summary>
            <param name="syntax">Type syntax to bind.</param>
            <param name="diagnostics">Diagnostics.</param>
            <param name="isVar">
            Set to false if syntax binds to a type in the current context and true if
            syntax is "var" and it binds to "var" keyword in the current context.
            </param>
            <returns>
            Bound type if syntax binds to a type in the current context and
            null if syntax binds to "var" keyword in the current context.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindType(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.DiagnosticBag,System.Boolean@,Roslyn.Compilers.CSharp.AliasSymbol@)">
            <summary>
            Binds the type for the syntax taking into account possibility of "var" type.
            </summary>
            <param name="syntax">Type syntax to bind.</param>
            <param name="diagnostics">Diagnostics.</param>
            <param name="isVar">
            Set to false if syntax binds to a type in the current context and true if
            syntax is "var" and it binds to "var" keyword in the current context.
            </param>
            <param name="alias">Alias symbol if syntax binds to an alias.</param>
            <returns>
            Bound type if syntax binds to a type in the current context and
            null if syntax binds to "var" keyword in the current context.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindTypeOrAlias(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            Binds the type for the syntax taking into account possibility of "var" type.
            If the syntax binds to an alias symbol to a type, it returns the alias symbol.
            </summary>
            <param name="syntax">Type syntax to bind.</param>
            <param name="diagnostics">Diagnostics.</param>
            <param name="isVar">
            Set to false if syntax binds to a type or alias to a type in the current context and true if
            syntax is "var" and it binds to "var" keyword in the current context.
            </param>
            <returns>
            Bound type or alias if syntax binds to a type or alias to a type in the current context and
            null if syntax binds to "var" keyword in the current context.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetContainingNamespaceOrType(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            The immediately containing namespace or named type, or the global
            namespace if containing symbol is neither a namespace or named type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.BindSimpleName(Roslyn.Compilers.CSharp.SimpleNameSyntax,Roslyn.Compilers.DiagnosticBag,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},System.Boolean,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol)">
            <summary>
            Binds a simple name or the simple name portion of a qualified name. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ConstructNamedTypeUnlessTypeArgumentOmitted(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.DiagnosticBag)">
            <remarks>
            Keep check and error in sync with ConstructBoundMethodGroupAndReportOmittedTypeArguments.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.ConstructBoundMethodGroupAndReportOmittedTypeArguments(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.CSharp.BoundExpression,System.String,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.LookupResult,System.Boolean,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <remarks>
            Keep check and error in sync with ConstructNamedTypeUnlessTypeArgumentOmitted.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetSpecialTypeMember(Roslyn.Compilers.SpecialMember,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            This is a layer on top of the Compilation version that generates a diagnostic if the special
            member isn't found.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetSpecialTypeMember(Roslyn.Compilers.SpecialMember,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.DiagnosticInfo@)">
            <summary>
            This is a layer on top of the Compilation version that generates a diagnostic if the special
            member isn't found.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetWellKnownType(Roslyn.Compilers.WellKnownType,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            This is a layer on top of the Compilation version that generates a diagnostic if the well-known
            type isn't found.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetWellKnownTypeMember(Roslyn.Compilers.WellKnownMember,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            This is a layer on top of the Compilation version that generates a diagnostic if the well-known
            member isn't found.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetWellKnownTypeMember(Roslyn.Compilers.WellKnownMember,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.DiagnosticInfo@)">
            <summary>
            This is a layer on top of the Compilation version that generates a diagnostic if the well-known
            member isn't found.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.NotFound(Roslyn.Compilers.CSharp.Location,System.String,System.Int32,System.String,Roslyn.Compilers.DiagnosticBag,System.String,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,Roslyn.Compilers.CSharp.LookupOptions)">
            <remarks>
            This is only intended to be called when the type isn't found (i.e. not when it is found but is inaccessible, has the wrong arity, etc).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Binder.GetForwardedToAssembly(System.String,System.Int32,System.Boolean@)">
            <summary>
            Look for a type forwarder for the given type in the containing assembly and any referenced assemblies.
            If one is found, search again in the target assembly.  Return the last assembly in the chain.
            </summary>
            <param name="fullName">The metadata name of the (potentially) forwarded type, including the arity (if non-zero).</param>
            <param name="arity">The arity of the forwarded type.</param>
            <param name="encounteredCycle">Set to true if a cycle was found in the type forwarders.</param>
            <returns></returns>
            <remarks>
            Since this method is intended to be used for error reporting, it stops as soon as it finds
            any type forwarder - it does not check other assemblies for consistency or better results.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.InUnsafeRegion">
            <summary>
            True if we are currently in an unsafe region (type, member, or block).
            </summary>
            <remarks>
            Does not imply that this compilation allows unsafe regions (could be in an error recovery scenario).
            To determine that, check this.Compilation.Options.AllowUnsafe.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.Next">
            <summary>
            Get the next binder in which to look up a name, if not found by this binder.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.CheckOverflow">
            <summary>
            True if we are in an explicitly checked context (within checked block or expression).
            False if we are in an explcitly unchecked context (within unchecked block or expression).
            Null otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.CheckOverflowAtRuntime">
            <summary>
            True if instructions that check overflow should be generated.
            </summary>
            <remarks>
            Spec 7.5.12:
            For non-constant expressions (expressions that are evaluated at run-time) that are not 
            enclosed by any checked or unchecked operators or statements, the default overflow checking
            context is unchecked unless external factors (such as compiler switches and execution 
            environment configuration) call for checked evaluation.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.CheckOverflowAtCompileTime">
            <summary>
            True if the compiler should check for overflow while evaluating constant expressions.
            </summary>
            <remarks>
            Spec 7.5.12:
            For constant expressions (expressions that can be fully evaluated at compile-time), 
            the default overflow checking context is always checked. Unless a constant expression 
            is explicitly placed in an unchecked context, overflows that occur during the compile-time 
            evaluation of the expression always cause compile-time errors.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.ContainingMemberOrLambda">
            <summary>
            The member containing the binding context.  Note that for the purposes of the compiler,
            a lambda expression is considered a "member" of its enclosing method, field, or lambda.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.IsInIterator">
            <summary>
            Is the contained code within an iterator block?
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.ImportsList">
            <summary>
            The Imports for all containing namespace declarations (innermost-to-outermost, including global).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.ContainingType">
            <summary>
            The type containing the binding context
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.BindingTopLevelScriptCode">
            <summary>
            Returns true if the binder is binding top-level script code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Binder.ShouldCheckConstraints">
            <summary>
            Check generic type constraints unless the type is used as part of a type or method
            declaration. In those cases, constraints checking is handled by the caller.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.OverflowChecks.Implicit">
            <summary>
            Outside of <c>checked</c>, <c>unchecked</c> expression/block.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.OverflowChecks.Disabled">
            <summary>
            Within <c>unchecked</c> expression/block.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.OverflowChecks.Enabled">
            <summary>
            Within <c>checked</c> expression/block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Binder.RangeVariableMap">
            <summary>
            We represent the set of query variables in scope at a particular point by a RangeVariableMap.
            Each query variable in scope has a key in this map.  If the corresponding value is empty, then
            that query variable is represented directly by a lambda parameter.  If it is non-empty, then
            to get the value of that query variable one starts with the first parameter of the current
            lambda (the first parameter is always the transparent one), and dot through its members using
            the names in the value list, in reverse order.  So, for example, if the query variable "x" has
            a value in this map of ["Item2", "Item1", "Item1"], then the way to compute the value of that
            query variable is starting with the current lambda's first parameter P, compute "P.Item1.Item1.Item2".
            See also WithQueryLambdaParametersBinder.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LocalScopeBinder.singleMeaning">
            <summary>
            A map from a name (string) to its single meaning within that scope.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalScopeBinder.EnsureSingleDefinition(Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning,Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            Givn a meaning, ensure that it is the only meaning within this scope (or report a diagnostic that it isn't).
            Returns true if a diagnostic was reported.  Sets done=true if there is no need to check further enclosing
            scopes (for example, when this meaning is the same as a previous meaning, or it can be determined that a
            diagnostic had previously been reported).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalScopeBinder.ResolveConflict(Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning,Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning,Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            We've found a possible violation of the single-definition rule.  Check that it is an actual conflict, and if
            so report it.
            </summary>
            <param name="oldMeaning">Previously recorded single meaning for this local scope</param>
            <param name="newMeaning">New single meaning found for this local scope</param>
            <param name="diagnostics">Where to place any diagnostics</param>
            <param name="done">Set to true if the caller should stop checking enclosing scope</param>
            <returns>true if an error was reported</returns>
            <remarks>
            Diagnostics produce by this method should not satisfy ErrorFacts.PreventsSuccessfulDelegateConversion because
            name conflicts are independent of the delegate type to which an anonymous function is converted.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalScopeBinder.ForceSingleDefinitions``1(Roslyn.Compilers.ReadOnlyArray{``0})">
            <summary>
            Enter each symbol as the unique single meaning in the current scope.  This assumes that any conflicts among
            them have been previously reported.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalScopeBinder.LookupLocal(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Call this when you are sure there is a local declaration on this token.  Returns the local.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning">
            <summary>
            The meaning assigned to a name within a given scope.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Name">
            <summary>
            The name
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Symbol">
            <summary>
            The symbol that is its meaning, if known.  May be null in the case of lambda parameters, to allow for the
            fact that each binding the the lambda gets a different set of parameter symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Direct">
            <summary>
            True when used or defined directly in this scope. False when used or defined in some more nested,
            enclosed scope.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Location">
            <summary>
            The location of its use or declaration
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Reported">
            <summary>
            True once a diagnostic has been reported at this location.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Position">
            <summary>
            The location of the use or definition, for the purpooses of reporting conflicts.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalScopeBinder.SingleMeaning.Definition">
            <summary>
            Is this a definition (rather than use) of the given name.  This generally doesn't affect the legality of
            a conflict, but may change the diagnostic by which it is reported.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Binder.AttributeExpressionVisitor">
            <summary>
            Walk a custom attribute argument bound node and return a TypedConstant.  Verify that the expression is a constant expression.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Binder.BindValueKind">
            <summary>
            Expression lvalue and rvalue requirements.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.RValue">
            <summary>
            Expression is the RHS of an assignment operation.
            </summary>
            <remarks>
            The following are rvalues: values, variables, null literals, properties
            and indexers with getters, events. The following are not rvalues:
            namespaces, types, method groups, anonymous functions.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.RValueOrMethodGroup">
            <summary>
            Expression is the RHS of an assignment operation
            and may be a method group.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.Assignment">
            <summary>
            Expression is the LHS of a simple assignment operation.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.IncrementDecrement">
            <summary>
            Expression is the operand of an increment
            or decrement operation.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.CompoundAssignment">
            <summary>
            Expression is the LHS of a compound assignment
            operation (such as +=).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.OutParameter">
            <summary>
            Expression is an out parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Binder.BindValueKind.AddressOf">
            <summary>
            Expression is the operand of an address-of operation (&amp;).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EarlyWellKnownAttributeBinder.CanBeValidAttributeArgument(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.Binder)">
            <remarks>
            Since this method is expected to be called on every nested expression of the argument, it doesn't
            need to recurse (directly).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CommandLineParser.IsValidDefine(System.String)">
            <summary>
            Is this identifier a valid one for /define?
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedStringHashFunctionSymbol">
            <summary>
            Represents a compiler generated synthesized method symbol
            representing string switch hash function
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedGlobalMethodSymbol">
            <summary>
            Represents a compiler generated synthesized method symbol
            that must be emitted in the compiler generated
            PrivateImplementationDetails class
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodSymbol">
            <summary>
            Represents a method or method-like symbol (including constructor,
            destructor, operator, or property/event accessor).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Symbol">
            <summary>
            The base class for all symbols (namespaces, classes, method, parameters, etc.) that are 
            exposed by the compiler.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributes">
            <summary>
            Gets the attributes for this symbol. Returns an empty <see cref="T:Roslyn.Compilers.ReadOnlyArray`1"/> if
            there are no attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributes(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Gets the attributes of a given attribute class on this symbol. Returns an empty
            array if there are no attributes.
            </summary>
            <param name="attributeType">The type of attribute to check for.</param>
            <returns>All attributes of the given type, or an empty array if none.</returns>
            
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributes(System.String,System.String)">
            <summary>
            Gets the attributes on this symbol that match the namespace and type name.
            Returns an empty array if there are no such attributes.
            </summary>
            <param name="namespaceName">Namespace name to match</param>
            <param name="typeName">Type name to match</param>
            <returns>Matching attributes</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributes(Roslyn.Compilers.AttributeDescription)">
            <summary>
            Gets the attributes on this symbol that match the namespace name, type name and signature.
            Returns an empty array if there are no such attributes.
            </summary>
            <param name="description">Attribute to match.</param>
            <returns>Matching attributes</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributes(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Gets the attributes on this symbol which are specified with the given attribute constructor.
            Returns an empty array if there are no such attributes.
            </summary>
            <param name="attributeConstructor">Attribute constructor to check for.</param>
            <returns>Attributes specified with the given constructor, or an empty array if none.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributeTarget">
            <summary>
            Gets the attribute target kind corresponding to the symbol kind
            If attributes cannot be applied to this symbol kind, returns
            an invalid AttributeTargets value of 0
            </summary>
            <returns>AttributeTargets or 0</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.EarlyDecodeWellKnownAttributeType(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.AttributeSyntax)">
            <summary>
            Method to early decode the type of well-known attribute which can be queried during the BindAttributeType phase.
            This method is called first during attribute binding so that any attributes that affect semantics of type binding
            can be decoded here.
            </summary>
            <remarks>
            NOTE: If you are early decoding any new well-known attribute, make sure to update PostEarlyDecodeWellKnownAttributeTypes 
            to default initialize this data.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.PostEarlyDecodeWellKnownAttributeTypes">
            <summary>
            This method is called during attribute binding after EarlyDecodeWellKnownAttributeTypes has been executed.
            Symbols should default initialize the data for early decoded well-known attributes here.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.EarlyDecodeWellKnownAttribute(Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments{Roslyn.Compilers.CSharp.EarlyWellKnownAttributeBinder,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.AttributeSyntax,Roslyn.Compilers.CSharp.AttributeLocation}@)">
            <summary>
            Method to early decode applied well-known attribute which can be queried by the binder.
            This method is called during attribute binding after we have bound the attribute types for all attributes,
            but haven't yet bound the attribute arguments/attribute constructor.
            Early decoding certain well-known attributes enables the binder to use this decoded information on this symbol
            when binding the attribute arguments/attribute constructor without causing attribute binding cycle.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.DecodeWellKnownAttribute(Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments{Roslyn.Compilers.CSharp.AttributeSyntax,Roslyn.Compilers.CSharp.AttributeData,Roslyn.Compilers.CSharp.AttributeLocation}@)">
            <summary>
            This method is called by the binder when it is finished binding a set of attributes on the symbol so that
            the symbol can extract data from the attribute arguments and potentially perform validation specific to
            some well known attributes.
            <para>
            NOTE: If we are decoding a well-known attribute that could be queried by the binder, consider decoding it during early decoding pass.
            </para>
            </summary>
            <remarks>
            <para>
            Symbol types should override this if they want to handle a specific well-known attribute.
            If the attribute is of a type that the symbol does not wish to handle, it should delegate back to
            this (base) method.
            </para>
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.PostDecodeWellKnownAttributes(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AttributeData},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AttributeSyntax},Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.AttributeLocation,Roslyn.Compilers.WellKnownAttributeData)">
            <summary>
            Called to report attribute related diagnostics after all attributes have been bound and decoded.
            Called even if there are no attributes.
            </summary>
            <remarks>
            This method is called by the binder from <see cref="M:LoadAndValidateAttributes"/> after it has finished binding attributes on the symbol,
            has executed <see cref="M:DecodeWellKnownAttributes"/> for attributes applied on the symbol and has stored the decoded data in the
            lazyCustomAttributesBag on the symbol. Bound attributes haven't been stored on the bag yet.
            
            Post-validation for attributes that is dependant on other attributes can be done here.
            
            This method should not have any side effects on the symbol, i.e. it SHOULD NOT change the symbol state.
            </remarks>
            <param name="boundAttributes">Bound attributes.</param>
            <param name="allAttributeSyntaxNodes">Syntax nodes of attributes in order they are specified in source, or null if there are no attributes.</param>
            <param name="diagnostics">Diagnostic bag.</param>
            <param name="symbolPart">Specific part of the symbol to which the attributes apply, or <see cref="F:Roslyn.Compilers.CSharp.AttributeLocation.None"/> if the attributes apply to the symbol itself.</param>
            <param name="decodedData">Decoded well-known attribute data, could be null.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.LoadAndValidateAttributes(Roslyn.Utilities.OneOrMany{Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax}},Roslyn.Compilers.CustomAttributesBag{Roslyn.Compilers.CSharp.AttributeData}@,Roslyn.Compilers.CSharp.AttributeLocation,System.Boolean)">
            <summary>
            This method does the following set of operations in the specified order:
            (1) GetAttributesToBind: Merge attributes from the given attributesSyntaxLists and filter out attributes by attribute target.
            (2) BindAttributeTypes: Bind all the attribute types to enable early decode of certain well-known attributes by type.
            (3) EarlyDecodeWellKnownAttributes: Perform early decoding of certain well-known attributes that could be queried by the binder in subsequent steps.
                (NOTE: This step has the side effect of updating the symbol state based on the data extracted from well known attributes).
            (4) GetAttributes: Bind the attributes (attribute arguments and constructor) using bound attribute types.
            (5) DecodeWellKnownAttributes: Decode and validate bound well known attributes.
                (NOTE: This step has the side effect of updating the symbol state based on the data extracted from well known attributes).
            (6) StoreBoundAttributesAndDoPostValidation:
                (a) Store the bound attributes in lazyCustomAttributes in a thread safe manner.
                (b) Perform some additional post attribute validations, such as
                    1) Duplicate attributes, attribute usage target validation, etc.
                    2) Post validation for attributes dependant on other attributes
                    These validations cannot be performed prior to step 6(a) as we might need to
                    perform a GetAttributes() call on a symbol which can introduce a cycle in attribute binding.
                    We avoid this cycle by performing such validations in PostDecodeWellKnownAttributes after lazyCustomAttributes have been set.
                NOTE: PostDecodeWellKnownAttributes SHOULD NOT change the symbol state.
            </summary>
            <remarks>
            Current design of early decoding well-known attributes doesn't permit decoding attribute arguments/constructor as this can lead to binding cycles.
            For well-known attributes used by the binder, where we need the decoded arguments, we must handle them specially in one of the following possible ways:
              (a) Avoid decoding the attribute arguments during binding and delay the corresponding binder tasks to a separate post-pass executed after binding.
              (b) As the cycles can be caused only when we are binding attribute arguments/constructor, special case the corresponding binder tasks based on the current BindingLocation.
            </remarks>
            <param name="attributesSyntaxLists"></param>
            <param name="lazyCustomAttributesBag"></param>
            <param name="symbolPart">Specific part of the symbol to which the attributes apply, or <see cref="F:Roslyn.Compilers.CSharp.AttributeLocation.None"/> if the attributes apply to the symbol itself.</param>
            <param name="earlyDecodingOnly">Indicates that only early decoding should be performed.  WARNING: the resulting bag will not be sealed.</param>
            <returns>Flag indicating whether lazyCustomAttributes were stored on this thread. Caller should check for this flag and perform NotePartComplete if true.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetAttributesToBind(Roslyn.Utilities.OneOrMany{Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax}},Roslyn.Compilers.CSharp.AttributeLocation,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Binder}@)">
            <summary>
            Method to merge attributes from the given attributesSyntaxLists and filter out attributes by attribute target.
            This is the first step in attribute binding.
            </summary>
            <remarks>
            This method can generate diagnostics for few cases where we have an invalid target specifier and the parser hasn't generated the necessary diagnostics.
            It should not perform any bind operations as it can lead to an attribute binding cycle.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.EarlyDecodeWellKnownAttributes(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Binder},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.NamedTypeSymbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AttributeSyntax},Roslyn.Compilers.CSharp.AttributeLocation,Roslyn.Compilers.CSharp.AttributeData[])">
            <summary>
            Method to early decode certain well-known attributes which can be queried by the binder.
            This method is called during attribute binding after we have bound the attribute types for all attributes,
            but haven't yet bound the attribute arguments/attribute constructor.
            Early decoding certain well-known attributes enables the binder to use this decoded information on this symbol
            when binding the attribute arguments/attribute constructor without causing attribute binding cycle.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.ValidateAttributeUsageAndDecodeWellKnownAttributes(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Binder},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AttributeSyntax},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AttributeData},Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.AttributeLocation)">
            <summary>
            This method validates attribute usage for each bound attribute and calls <see cref="M:DecodeWellKnownAttribute"/>
            on attributes with valid attribute usage.
            This method is called by the binder when it is finished binding a set of attributes on the symbol so that
            the symbol can extract data from the attribute arguments and potentially perform validation specific to
            some well known attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.ValidateAttributeUsage(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.AttributeSyntax,Roslyn.Compilers.CSharp.AttributeLocation,Roslyn.Compilers.DiagnosticBag,System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.NamedTypeSymbol})">
            <summary>
            Validate attribute usage target and duplicate attributes.
            </summary>
            <param name="attributeType">Attribute class for the attribute</param>
            <param name="node">Syntax node for attribute specification</param>
            <param name="symbolPart">Symbol part to which the attribute has been applied.</param>
            <param name="diagnostics">Diagnostics</param>
            <param name="uniqueAttributeTypes">Set of unique attribute types applied to the symbol</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.ForceCompleteObsoleteAttribute">
            <summary>
            Ensure that attributes are bound and the ObsoleteState of this symbol is known.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.ForceComplete(Roslyn.Compilers.CSharp.SourceLocation,System.Threading.CancellationToken)">
            <summary>
            Used to force (source) symbols to a given state of completion.
            </summary>
            <param name="locationOpt">The location within which binders should be completed</param>
            <param name="cancellationToken">A cancellation token that can be used to cancel out of
            this operation early at the behest of the caller.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.HasAtMostOneBitSet(Roslyn.Compilers.CSharp.Symbol.CompletionPart)">
            <remarks>
            Since this formula is rather opaque, a demonstration of its correctness is
            provided in Roslyn.Compilers.CSharp.UnitTests.CompletionTests.TestHasAtMostOneBitSet.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.CheckDefinitionInvariant">
            <summary>
            Checks if this symbol is a definition and its containing module is a SourceModuleSymbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.IsDefinitionOrDistinct">
            <summary>
            Return whether the symbol is either the original definition
            or distinct from the original. Intended for use in Debug.Assert
            only since it may include a deep comparison.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetCustomAttributesToEmit(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AttributeData},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.SynthesizedAttributeData},System.Boolean)">
            <summary>
            Returns a list of attributes to emit to CustomAttribute table.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.MakeMetadataName(System.String@)">
            <summary>
            The CLI spec puts limits the maximum length of name and paths
            (when encoded as UTF-8).  The Metadata name of a symbol is the
            name after having been modified to satisfy the length restrictions.
            </summary>
            <param name="metadataName">The truncated name.</param>
            <returns>True if truncation occurred.</returns>
            <remarks>Not guaranteed to be unique.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetDeclaringSyntaxNodeHelper``1(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Location})">
            <summary>
            Helper for implementing DeclaringSyntaxNodes for derived classes that store a location but not a 
            SyntaxNode or SyntaxReference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetDeclaringSyntaxNodeHelper(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxReference})">
            <summary>
            Helper for implementing DeclaringSyntaxNodes for derived classes that store SyntaxReferences.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.AfterAddingTypeMembersChecks(Roslyn.Compilers.CSharp.ConversionsBase,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Perform additional checks after the member has been
            added to the member list of the containing type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.op_Equality(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Compare two symbol objects to see if they refer to the same symbol. You should always
            use == and !=, or the Equals method, to compare two symbols for equality.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.op_Inequality(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Compare two symbol objects to see if they refer to the same symbol. You should always
            use == and !=, or the Equals method, to compare two symbols for equality.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.ToString">
            <summary>
            Returns a string representation of this symbol, suitable for debugging purposes, or
            for placing in an error message.
            </summary>
            <remarks>
            This will provide a useful representation, but it would be clearer to call ToDisplayString
            directly and provide an explicit format.
            Sealed so that ToString and ToDisplayString can't get out of sync.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.System#IFormattable#ToString(System.String,System.IFormatProvider)">
            <summary>
            This is intended primarily for inserting localized descriptions of symbols into
            user-facing error messages.  If you need more fine-grained control of the output, try
            calling Symbol.ToDisplayString directly.
            </summary>
            <remarks>
            Generally speaking, this method should not be called directly.  Instead, they should be
            passed directly to errors/diagnostics.  To use a different format string, update the
            error message (e.g. Change "Problem with {0}" to "Problem with {0:S}" to display the
            short name of a symbol).
            
            We could have subclasses do their own parsing of the format string (to accept other
            formats), but we can probably do everything from here using Symbol.Kind.
            </remarks>
            <param name="format">
                G - general: default (determined by SymbolDisplay.ToDisplayString)
                E - error: format to be used in compiler error messages
                T - test: includes lots of qualification, parameters, modifiers, etc
                S - short: just the (user-facing) name of the symbol
                I - IL: to be used when visualizing IL
            </param>
            <param name="formatProvider">Usually a CultureInfo object.</param>
            <returns>A description of this symbol.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetSynthesizedAttributes">
            <summary>
            Gets the synthesized attributes for this symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetDocumentationComment(System.Globalization.CultureInfo,System.Threading.CancellationToken)">
            <summary>
            Fetches the documentation comment for this element with a cancellation token.
            </summary>
            <returns>A DocumentationComment object.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.GetUseSiteErrorInfo">
            <summary>
            Returns error info for an error, if any, that should be reported at the use site of the symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Symbol.DeriveUseSiteErrorInfoFromType(Roslyn.Compilers.CSharp.TypeSymbol,System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.TypeSymbol}@)">
            <summary>
            Derive error info from a type symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.Name">
            <summary>
            Gets the name of this symbol. Symbols without a name return the empty string; null is
            never returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.MetadataName">
            <summary>
            Gets the name of a symbol as it appears in metadata. Most of the time, this
            is the same as the Name property, with the following exceptions:
            1) The metadata name of generic types includes the "`1", "`2" etc. suffix that
            indicates the number of type parameters (it does not include, however, names of
            containing types or namespaces).
            2) The metadata name of explicit interface names have spaces removed, compared to
            the name property.
            3) The length of names is limited to not exceed metadata restrictions.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ContainingSymbol">
            <summary>
            Get the symbol that logically contains this symbol. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ContainingType">
            <summary>
            Returns the nearest lexically enclosing type, or null if there is none.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ContainingNamespace">
            <summary>
            Gets the nearest enclosing namespace for this namespace or type. For a nested type,
            returns the namespace that contains its container.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ContainingAssembly">
            <summary>
            Returns the assembly containing this symbol. If this symbol is shared across multiple
            assemblies, or doesn't belong to an assembly, returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ContainingModule">
            <summary>
            Returns the module containing this symbol. If this symbol is shared across multiple
            modules, or doesn't belong to a module, returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.OriginalDefinition">
            <summary>
            The original definition of this symbol. If this symbol is constructed from another
            symbol by type substitution then OriginalDefinition gets the original symbol as it was defined in
            source or metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsDefinition">
            <summary>
            Returns whether this the original definition of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.Locations">
            <summary>
            Gets the locations where this symbol was originally defined, either in source or
            metadata. Some symbols (for example, partial classes) may be defined in more than one
            location.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.DeclaringSyntaxNodes">
            <summary>
            Get the syntax node(s) where this symbol was declared in source. Some symbols (for
            example, partial classes) may be defined in more than one location. This property should
            return one or more syntax nodes only if the symbol was declared in source code and also
            was not implicitly declared (see the IsImplicitlyDeclared property). 
            
            Note that for namespace symbol, the declaring syntax might be declaring a nested
            namespace. For example, the declaring syntax node for N1 in "namespace N1.N2 {...}" is
            the entire NamespaceDeclarationSyntax for N1.N2. For the global namespace, the declaring
            syntax will be the CompilationUnitSyntax.
            </summary>
            <returns>
            The syntax node(s) that declared the symbol. If the symbol was declared in metadata or
            was implicitly declared, returns an empty read-only array.
            </returns>
            <remarks>
            To go the opposite direction (from syntax node to symbol), see <see cref="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.MemberDeclarationSyntax,System.Threading.CancellationToken)"/>.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.DeclaredAccessibility">
            <summary>
            Get this accessibility that was declared on this symbol. For symbols that do not have
            accessibility declared on them, returns NotApplicable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsStatic">
            <summary>
            Returns true if this symbol is "static"; i.e., declared with the "static" modifier or
            implicitly static.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsVirtual">
            <summary>
            Returns true if this symbol is "virtual", has an implementation, and does not override a
            base class member; i.e., declared with the "virtual" modifier. Does not return true for
            members declared as abstract or override.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsOverride">
            <summary>
            Returns true if this symbol was declared to override a base class member; i.e., declared
            with the "override" modifier. Still returns true if member was declared to override
            something, but (erroneously) no member to override exists.
            </summary>
            <remarks>
            Even for metadata symbols, IsOverride = true does not imply that OverriddenMethod will
            be non-null.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsAbstract">
            <summary>
            Returns true if this symbol was declared as requiring an override; i.e., declared with
            the "abstract" modifier. Also returns true on a type declared as "abstract", all
            interface types, and members of interface types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsSealed">
            <summary>
            Returns true if this symbol was declared to override a base class member and was also
            sealed from further overriding; i.e., declared with the "sealed" modifier.  Also set for
            types that do not allow a derived class (declared with "sealed" or "static" or "struct"
            or "enum" or "delegate").
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsExtern">
            <summary>
            Returns true if this symbol has external implementation; i.e., declared with the 
            "extern" modifier. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsImplicitlyDeclared">
            <summary>
            Returns true if this symbol was automatically created by the compiler, and does not
            have an explicit corresponding source code declaration.  
            
            This is intended for symbols that are ordinary symbols in the language sense,
            and may be used by code, but that are simply declared implicitly rather than
            with explicit language syntax.
            
            Examples include (this list is not exhaustive):
              the default constructor for a class or struct that is created if one is not provided,
              the BeginInvoke/Invoke/EndInvoke methods for a delegate,
              the generated backing field for an auto property or a field-like event,
              this "this" parameter for non-static methods,
              the "value" parameter for a property setter,
              the parameters on indexer accessor methods (not on the indexer itself),
              methods in anonymous types,
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.CanBeReferencedByName">
            <summary>
            Returns true if this symbol can be referenced by its name in code. Examples of symbols
            that cannot be referenced by name are:
               constructors, destructors, operators, explicit interface implementations,
               accessor methods for properties and events, array types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.CanBeReferencedByNameIgnoringIllegalCharacters">
            <summary>
            As an optimization, viability checking in the lookup code should use this property instead
            of CanBeReferencedByName.  The full name check will then be performed in the SemanticModel.
            </summary>
            <remarks>
            This property exists purely for performance reasons.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.IsFromSource">
            <summary>
            True if and only if the symbol is the one original symbol resulting from some
            declaration in the source. The declaration might be implicit, for example a synthesized
            constructor is considered to come from source. Constructed and substituted symbols
            are from source if their original symbol is from source. ErrorTypeSymbols are
            never from source. Array types and pointer types never return true for this property, 
            as they are not "declared" in the source.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.HighestPriorityUseSiteError">
            <summary>
            Return error code that has highest priority while calculating use site error for this symbol. 
            Supposed to be ErrorCode, but it causes inconsistent accessibility error.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute. 
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Symbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Symbol.CompletionPart">
            <summary>
            This enum describes the types of components that could give
            us diagnostics.  We shouldn't read the list of diagnostics
            until all of these types are accounted for.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.IsMetadataNewSlot(System.Boolean)">
            <summary>
            This method indicates whether or not the runtime will regard the method
            as newslot (as indicated by the presence of the "newslot" modifier in the
            signature).
            WARN WARN WARN: We won't have a final value for this until declaration
            diagnostics have been computed for all SourceNamedTypeSymbols, so pass
            ignoringInterfaceImplementationChanges: true if you need a value sooner
            and aren't concerned about tweaks made to satisfy interface implementation 
            requirements.
            NOTE: Not ignoring changes can only result in a value that is more true.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.IsMetadataVirtual(System.Boolean)">
            <summary>
            This method indicates whether or not the runtime will regard the method
            as virtual (as indicated by the presence of the "virtual" modifier in the
            signature).
            WARN WARN WARN: We won't have a final value for this until declaration
            diagnostics have been computed for all SourceNamedTypeSymbols, so pass
            ignoringInterfaceImplementationChanges: true if you need a value sooner
            and aren't concerned about tweaks made to satisfy interface implementation 
            requirements.
            NOTE: Not ignoring changes can only result in a value that is more true.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetDllImportData">
            <summary>
            Platform invoke information, or null if the method isn't a P/Invoke.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetSecurityInformation">
            <summary>
            Declaration security information associated with this type, or null if there is none.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetReturnTypeAttributes">
            <summary>
            Gets the attributes on method's return type.
            Returns an empty array if there are no attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetReturnTypeAttributes(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Gets the attributes of a given attribute class on method's return type.
            Returns an empty array if there are no attributes.
            </summary>
            <param name="attributeType">The type of attribute to check for.</param>
            <returns>All attributes of the given type, or an empty array if none.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetReturnTypeAttributes(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Gets the attributes on method's return type which are specified with the given attribute constructor.
            Returns an empty array if there are no such attributes.
            </summary>
            <param name="attributeConstructor">Attribute constructor to check for.</param>
            <returns>Attributes specified with the given constructor, or an empty array if none.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetOriginalConstructedOverriddenMethod(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Returns the original virtual or abstract method which a given method symbol overrides,
            ignoring any other overriding methods in base classes. Also, if the given method symbol
            is generic then the resulting virtual or abstract method is constructed with the
            same type arguments as the given method.
            </summary>
            <param name="callingType">The search must respect accessibility from this type.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.CallsAreOmitted(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Returns true if calls to this method are omitted in this syntax tree. Calls are omitted
            when the called method is a partial method with no implementation part, or when the
            called method is a conditional method whose condition is not true in the source file
            corresponding to the given syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.CallsAreConditionallyOmitted(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Calls are conditionally omitted if both the following requirements are true:
             (a) IsConditional == true, i.e. it has at least one applied/inherited conditional attribute AND
             (b) None of conditional symbols corresponding to these conditional attributes are defined in the given syntaxTree.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GetAppliedConditionalSymbols">
            <summary>
            Returns a sequence of preprocessor symbols specified in <see cref="T:ConditionalAttribute"/> applied on this symbol, or null if there are none.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.CanOverrideOrHide(Roslyn.Compilers.CSharp.MethodKind)">
            <summary>
            Some method kinds do not participate in overriding/hiding (e.g. constructors).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.HasEntryPointSignature">
            <summary>
            Checks if the method has an entry point compatible signature, i.e.
            - the return type is either void or int
            - has either no parameter or a single parameter of type string[]
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.ReduceExtensionMethod(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            If this is an extension method that can be applied to a receiver of the given type,
            returns a reduced extension method symbol thus formed. Otherwise, returns null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.ReduceExtensionMethod">
            <summary>
            If this is an extension method, returns a reduced extension method
            symbol representing the method. Otherwise, returns null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.Construct(Roslyn.Compilers.CSharp.TypeSymbol[])">
            <summary>
            Apply type substitution to a generic method to create an method symbol with the given type parameters supplied.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.Construct(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Apply type substitution to a generic method to create an method symbol with the given type parameters supplied.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodSymbol.lazyParameterSignature">
            <summary>
            As a performance optimization, cache parameter types and refkinds - overload resolution uses them a lot.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbol.GenerateMethodBody(Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Generates bound block representing method's body for methods in lowered form and adds it to
            a collection of method bodies of the current module. This method is supposed to only be 
            called for method symbols which return SynthesizesLoweredBoundBody == true.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.MethodKind">
            <summary>
            Gets what kind of method this is. There are several different kinds of things in the
            C# language that are represented as methods. This property allow distinguishing those things
            without having to decode the name of the method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.Arity">
            <summary>
            Returns the arity of this method, or the number of type parameters it takes.
            A non-generic method has zero arity.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsGenericMethod">
            <summary>
            Returns whether this method is generic; i.e., does it have any type parameters?
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsExtensionMethod">
            <summary>
            Returns true if this method is an extension method. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.HasSpecialName">
            <summary>
            True if this symbol has a special name (metadata flag SpecialName is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ImplementationAttributes">
            <summary>
            Misc implementation metadata flags (ImplFlags in metadata).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.HasDeclarativeSecurity">
            <summary>
            True if the type has declarative security information (HasSecurity flags).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ReturnValueMarshallingInformation">
            <summary>
            Marshalling information for return value (FieldMarshal in metadata). 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.RequiresSecurityObject">
            <summary>
            True if the method calls another method containing security code (metadata flag RequiresSecurityObject is set).
            </summary>
            <remarks>
            A method can me marked as RequiresSecurityObject by applying the DynamicSecurityMethodAttribute in source.
            DynamicSecurityMethodAttribute is a pseudo custom attribute defined as an internal class in System.Security namespace.
            This attribute is set on certain security methods defined within mscorlib.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.HidesBaseMethodsByName">
            <summary>
            Returns true if this method hides base methods by name. This cannot be specified directly
            in the C# language, but can be true for methods defined in other languages imported from
            metadata. The equivalent of the "hidebyname" flag in metadata. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsVararg">
             <summary>
             Returns whether this method is using CLI VARARG calling convention. This is used for C-style variable
             argument lists. This is used extremely rarely in C# code and is represented using the undocumented “__arglist” keyword.
            
             Note that methods with “params” on the last parameter are indicated with the “IsParams” property on ParameterSymbol, and
             are not represented with this property.
             </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ReturnsVoid">
            <summary>
            Returns true if this method has no return type; i.e., returns "void".
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ReturnType">
            <summary>
            Gets the return type of the method
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.TypeArguments">
            <summary>
            Returns the type arguments that have been substituted for the type parameters. 
            If nothing has been substituted for a given type parameter,
            then the type parameter itself is consider the type argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.TypeParameters">
            <summary>
            Get the type parameters on this method. If the method has not generic,
            returns an empty list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ThisParameter">
            <summary>
            Get the "this" parameter for this method.  This is only valid for original source methods.
            For other methods it throws an InvalidOperationException. Returns null for a static method,
            or a parameter symbol for a non-static method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ParameterCount">
            <summary>
            Optimization: in many cases, the parameter count (fast) is sufficient and we
            don't need the actual parameter symbols (slow).
            </summary>
            <remarks>
            The default implementation is always correct, but may be unnecessarily slow.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.Parameters">
            <summary>
            Gets the parameters of this method. If this method has no parameters, returns
            an empty list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ConstructedFrom">
            <summary>
            Returns the method symbol that this method was constructed from. The resulting
            method symbol
            has the same containing type (if any), but has type arguments that are the same
            as the type parameters (although its containing type might not).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsExplicitInterfaceImplementation">
            <summary>
            Source: Was the member name qualified with a type name?
            Metadata: Is the member an explicit implementation?
            </summary>
            <remarks>
            Will not always agree with ExplicitInterfaceImplementations.Any()
            (e.g. if binding of the type part of the name fails).
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ExplicitInterfaceImplementations">
            <summary>
            Returns interface methods explicitly implemented by this method.
            </summary>
            <remarks>
            Methods imported from metadata can explicitly implement more than one method, 
            that is why return type is ReadOnlyArray.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ReturnTypeCustomModifiers">
            <summary>
            Returns the list of custom modifiers, if any, associated with the returned value. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.AssociatedPropertyOrEvent">
            <summary>
            If this method has MethodKind of MethodKind.PropertyGet or MethodKind.PropertySet,
            returns the property that this method is the getter or setter for.
            If this method has MethodKind of MethodKind.EventAdd or MethodKind.EventRemove,
            returns the event that this method is the adder or remover for.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.OverriddenMethod">
            <summary>
            If this method overrides another method (because it both had the override modifier
            and there correctly was a method to override), returns the overridden method.
            Note that if an overriding method D.M overrides C.M, which in turn overrides 
            virtual method B.M, the "overridden method" of D.M is C.M, not the original virtual
            method B.M. Note also that constructed generic methods are not considered to 
            override anything.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsConditional">
            <summary>
            Returns a flag indicating whether this symbol has at least one applied/inherited conditional attribute.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.Kind">
            <summary>
            Returns value 'Method' of the <see cref="T:Roslyn.Compilers.CSharp.SymbolKind"/>
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsScriptConstructor">
            <summary>
            Returns true if this symbol represents a constructor of a script class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsImplicitConstructor">
            <summary>
            Returns if the method is implicit constructor (normal and static)
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsSubmissionConstructor">
            <summary>
            Returns true if this symbol represents a constructor of an interactive submission class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IsEntryPointCandidate">
            <summary>
            Determines whether this method is a candidate for a default assembly entry point 
            (i.e. it is a static method called "Main").
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ReducedFrom">
            <summary>
            If this method is a reduced extension method, returns the extension
            method from which this was reduced. Otherwise, returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.PartialImplementationPart">
            <summary>
            If this is a partial method declaration without a body, and the method also
            has a part that implements it with a body, returns that implementing
            definition.  Otherwise null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.PartialDefinitionPart">
            <summary>
            If this is a partial method with a body, returns the corresponding
            definition part (without a body).  Otherwise null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.ParameterRefKinds">
            <summary>
            Null if no paremter is ref/out. Otherwise the RefKind for each parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.TypeSubstitution">
            <summary>
            Returns the map from type parameters to type arguments.
            If this is not a generic method instantiation, returns null.
            The map targets the original definition of the method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.HighestPriorityUseSiteError">
            <summary>
            Return error code that has highest priority while calculating use site error for this symbol. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.IteratorElementType">
            <summary>
            If the method was written as an iterator method (i.e. with yield statements in its body) returns the
            element type of the iterator.  Otherwise returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.SynthesizesLoweredBoundBody">
            <summary>
            Returns true for synthesized sybols which generate synthesized body in lowered form
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodSymbol.SuppressDebugInfo">
            <summary>
            If true, suppresses generation of debug info in this method even if generateDebugInfo is true
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SynthesizedGlobalMethodSymbol.ContainingSymbol">
            <summary>
            Synthesized methods that must be emitted in the compiler generated
            PrivateImplementationDetails class have null containing type symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedExplicitImplementationMethod">
            <summary>
            When C# interface implementation differs from CLR interface implementation,
            we insert a synthesized explicit interface implementation that delegates
            to the method that C# considers an implicit implementation.
            There are two key scenarios for this:
            1) A single source method is implicitly implementing one or more interface
               methods from metadata and the interface methods have different custom
               modifiers.  In this case, we explicitly implement the interface methods
               and have (all) implementations delegate to the source method.
            2) A non-virtual, non-source method in a base type is implicitly implementing
               an interface method.  Since we can't change the "virtualness" of the 
               non-source method, we introduce an explicit implementation that delegates
               to it instead.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceSynthesizedMethodSymbol">
            <summary>
            A base class for synthesized methods that want a this parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceSynthesizedMethodSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceSynthesizedMethodSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SynthesizedExplicitImplementationMethod.GenerateMethodBody(Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Given a SynthesizedExplicitImplementationMethod (effectively a tuple (interface method, implementing method, implementing type)),
            construct a BoundBlock body.  Consider the tuple (Interface.Foo, Base.Foo, Derived).  The generated method will look like:
            
            R Interface.Foo&lt;T1, T2, ...&gt;(A1 a1, A2 a2, ...)
            {
                //don't return the output if the return type is void
                return this.Foo&lt;T1, T2, ...&gt;(a1, a2, ...);
            }
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedSealedPropertyAccessor">
            <summary>
            If a sealed override property defines fewer accessors than the
            original virtual property, it is necessary to synthesize a sealed
            accessor so that the accessor will not be overridable from metadata.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SynthesizedSealedPropertyAccessor.GenerateMethodBody(Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Given a SynthesizedSealedPropertyAccessor (an accessor with a reference to the accessor it overrides),
            construct a BoundBlock body.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodToClassRewriter">
            <summary>
            a bound node rewriter that rewrites types properly (which in some cases the automatically-generated
            base class does not).  This is used in the lambda rewriter, the iterator rewriter, and the async rewriter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodToClassRewriter.CompilationState">
            <summary> A not-null collection of synthesized methods generated for the current source type. </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodToClassRewriter.BaseMethodWrapperSymbol">
            <summary>
            A wrapper method that is created for non-virtually calling a base-class 
            virtual method from other classes (like those created for lambdas...).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodToClassRewriter.SynthesizedMethodBaseSymbol">
            <summary>
            A base method symbol used as a base class for lambda method symbol and base method wrapper symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IAttributeTargetSymbol">
            <summary>
            Implemented by symbols that can be targetted by an attribute declaration (i.e. source symbols).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IAttributeTargetSymbol.AttributesOwner">
            <summary>
            Returns the owner of attributes that apply to this symbol.
            </summary>
            <remarks>
            Attributes for this symbol might be retrieved from attribute list of another (owning) symbol.
            In that case this property returns that owning symbol, otherwise it returns "this".
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IAttributeTargetSymbol.AllowedAttributeLocations">
            <summary>
            Returns a bit set of attribute locations applicable to this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IAttributeTargetSymbol.DefaultAttributeLocation">
            <summary>
            Attribute location corresponding to this symbol.
            </summary>
            <remarks>
            Location of an attribute if an explicit location is not specified via attribute target specification syntax.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetAttributeDeclarations">
            <summary>
            Gets the syntax list of custom attributes that declares atributes for this method symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetReturnTypeAttributeDeclarations">
            <summary>
            Gets the syntax list of custom attributes that declares atributes for return type of this method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetEarlyDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from special early bound well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetDecodedReturnTypeWellKnownAttributeData">
            <summary>
            Returns information retrieved from custom attributes on return type in source, or null if the symbol is not source symbol or there are none.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetReturnTypeAttributesBag">
            <summary>
            Returns a bag of custom attributes applied on the method return value and data decoded from well-known attributes. Returns null if there are no attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMethodSymbol.GetReturnTypeAttributes">
            <summary>
            Gets the attributes applied on the return value of this method symbol.
            Returns an empty array if there are no attributes.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMethodSymbol.Locations">
            <summary>
            Overridden by <see cref="T:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol"/>, 
            which might return locations of partial methods.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMethodSymbol.BoundAttributesSource">
            <summary>
            Symbol to copy bound attributes from, or null if the attributes are not shared among multiple source method symbols.
            </summary>
            <remarks>
            Used for example for event accessors. The "remove" method delegates attribute binding to the "add" method. 
            The bound attribute data are then applied to both accessors.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMethodSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute. 
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMethodSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodToClassRewriter.BaseMethodWrapperSymbol.GenerateMethodBody(Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Given a SynthesizedSealedPropertyAccessor (an accessor with a reference to the accessor it overrides),
            construct a BoundBlock body.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodBodySynthesizer">
            <summary>
            Contains methods related to synthesizing bound nodes in lowered form 
            that does not need any processing before passing to codegen
            </summary>
            <summary>
            Contains methods related to synthesizing bound nodes in initial binding 
            form that needs lowering, primarily method bodies for compiler-generated methods.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodySynthesizer.ConstructSingleInvocationMethodBody(Roslyn.Compilers.CSharp.SyntheticBoundNodeFactory,Roslyn.Compilers.CSharp.MethodSymbol,System.Boolean)">
            <summary>
            Construct a body for a method containing a call to a single other method with the same signature (modulo name).
            </summary>
            <param name="F">Bound node factory.</param>
            <param name="methodToInvoke">Method to invoke in constructed body.</param>
            <param name="useBaseReference">True for "base.", false for "this.".</param>
            <returns>Body for implementedMethod.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodySynthesizer.MakeSubmissionInitialization(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.SynthesizedSubmissionFields,Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Generates a submission initialization part of a Script type constructor that represents an interactive submission.
            </summary>
            <remarks>
            The constructor takes a parameter of type <see cref="T:Roslyn.Scripting.Session"/> - the session reference.
            It adds the object being constructed into the session by calling <see cref="M:Microsoft.CSharp.RuntimeHelpers.SessionHelpers.SetSubmission(Roslyn.Scripting.Session,System.Int32,System.Object)"/>,
            and retrieves strongly typed references on all previous submission script classes whose members are referenced by this submission.
            The references are stored to fields of the submission (<paramref name="synthesizedFields"/>).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodySynthesizer.ConstructAutoPropertyAccessorBody(Roslyn.Compilers.CSharp.SourceMethodSymbol)">
            <summary>
            Construct a body for an auto-property accessor (updating or returning the backing field).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodySynthesizer.ConstructFieldLikeEventAccessorBody(Roslyn.Compilers.CSharp.SourceEventSymbol,System.Boolean,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Generate a thread-safe accessor for a field-like event.
            
            DelegateType tmp0 = _event; //backing field
            DelegateType tmp1;
            DelegateType tmp2;
            do {
                tmp1 = tmp0;
                tmp2 = (DelegateType)Delegate.Combine(tmp1, value); //Remove for -=
                tmp0 = Interlocked.CompareExchange&lt;DelegateType&gt;(ref _event, tmp2, tmp1);
            } while ((object)tmp0 != (object)tmp1);
            </summary>
            <remarks>
            CONSIDER: Dev10 has fallback logic - if Interlocked.CompareExchange is not available, just call
            Delegate.Combine/Remove and mark the method synchronized (unless it is a struct method).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodySynthesizer.GetConstructedCompareExchangeMethod(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Get the MethodSymbol for System.Threading.Interlocked.CompareExchange&lt;T&gt; for a given T.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodySynthesizer.GetBaseTypeFinalizeMethod(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Look for a base type method named "Finalize" that is protected (or protected internal), has no parameters, 
            and returns void.  It doesn't need to be virtual or a destructor.
            </summary>
            <remarks>
            You would think that this would share code and logic with PEMethodSymbol.OverridesRuntimeFinalizer, 
            but FUNCBRECCS::bindDestructor has its own loop that performs these checks (differently).
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NamespaceScopeBuilder">
            <summary>
            Class to cache and build namespace scopes. Should be released and collected once all namespace scopes
            are built, since it contains caches that won't be needed anymore.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceScopeBuilder.GetNamespaceScopes(Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Imports})">
            <remarks>
            CONSIDER: in the case of field initializers, it is possible that different parts of a method could have different
            namespace scopes (i.e. if they come from different parts of a partial type).  Currently, we're following Dev10's
            approach of using the context of the (possibly synthesized) constructor into which the field initializers are
            inserted.  It might be possible to give field initializers their own scopes, assuming the EE supports it.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceScopeBuilder.BuildNamespaceString(Roslyn.Compilers.CSharp.NamespaceSymbol)">
            <summary>
            Qualified name of namespace.
            e.g. "A.B.C"
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceScopeBuilder.BuildNamespaceStringHelper(Roslyn.Compilers.CSharp.NamespaceSymbol)">
            <summary>
            Empty string for the global namespace, "A.B." for everything else (i.e. trailing dot).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceScopeBuilder.BuildTypeString(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Qualified name of type followed by full assembly name, with square brackets in place of
            angle brackets and around type arguments.
            e.g. "A.B.C`2[[D.E,assembly], [F.G,assembly]],assembly"
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceScopeBuilder.BuildTypeStringHelper(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Same as GetTypeString, but without containing type/namespace.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.EmptyStructTypeCache">
            <summary>
            A small cache for remembering empty struct types for flow analysis.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EmptyStructTypeCache.IsEmptyStructType(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determine if the given type is an empty struct type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EmptyStructTypeCache.IsEmptyStructType(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.NamedTypeSymbol})">
            <summary>
            Determine if the give type is an empty struct type,. "typesWithMembersOfThisType" contains
            a list of types that have members (directly or indirectly) of this type.
            to remove circularity.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.UnassignedAddressTakenVariablesWalker">
            <summary>
            An analysis that computes the set of variables that may be used
            before being assigned anywhere within a method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.compilation">
            <summary>
            The compilation in which the analysis is taking place.  This is needed to determine which
            conditional methods will be compiled and which will be omitted.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.method">
            <summary>
            The method whose body is being analyzed. Method attribute is only being used for
            references to method parameters. Thus, 'method' should not be used directly, but
            'MethodParameters', 'MethodThisParameter' and 'AnalyzeOutParameters(...)' should be used
            instead.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.methodMainNode">
            <summary>
            The bound node of the method or initializer being analyzed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.labels">
            <summary>
            The flow analysis state at each label, computed by merging the state from branches to
            that label with the state when we fall into the label.  Entries are created when the
            label is encountered.  One case deserves special attention: when the destination of the
            branch is a label earlier in the code, it is possible (though rarely occurs in practice)
            that we are changing the state at a label that we've already analyzed. In that case we
            run another pass of the analysis to allow those changes to propagate. This repeats until
            no further changes to the state of these labels occurs.  This can result in quadratic
            performance in unlikely but possible code such as this: "int x; if (cond) goto l1; x =
            3; l5: print x; l4: goto l5; l3: goto l4; l2: goto l3; l1: goto l2;"
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.backwardBranchChanged">
            <summary>
            Set to true after an analysis scan if the analysis was incomplete due to a backward
            "goto" branch changing some analysis result.  In this case the caller scans again (until
            this is false). Since the analysis proceeds by monotonically changing the state computed
            at each label, this must terminate.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.pendingBranches">
            <summary>
            See property PendingBranches
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.labelsSeen">
            <summary>
            All of the labels seen so far in this forward scan of the body
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.State">
            <summary>
            The definite assignment and/or reachability state at the point currently being analyzed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AbstractFlowPass`1.loopHeadState">
            <summary>
            A cache of the state at the backward branch point of each loop.  This is not needed
            during normal flow analysis, but is needed for DataFlowsOut region analysis.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.EnterRegion">
            <summary>
            Subclasses may override EnterRegion to perform any actions at the entry to the region.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.LeaveRegion">
            <summary>
            Subclasses may override LeaveRegion to perform any action at the end of the region.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.Scan(System.Boolean@)">
            <summary>
            Perform a single pass of flow analysis.  Note that after this pass,
            this.backwardBranchChanged indicates if a further pass is required.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.ShouldAnalyzeOutParameters(Roslyn.Compilers.CSharp.Location@)">
            <summary>
            Specifies whether or not method's out parameters should be analyzed. If there's more
            than one location in the method being analyzed, then the method is partial and we prefer
            to report an out parameter in partial method error.
            </summary>
            <param name="location">location to be used</param>
            <returns>true if the out parameters of the method should be analyzed</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.LabelState(Roslyn.Compilers.CSharp.LabelSymbol)">
            <summary>
            Return the flow analysis state associated with a label.
            </summary>
            <param name="label"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.RemoveReturns">
            <summary>
            Return to the caller the set of pending return statements.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.SetUnreachable">
            <summary>
            Set the current state to one that indicates that it is unreachable.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.VisitCondition(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundNode)">
            <summary>
            Visit a boolean condition expression.
            </summary>
            <param name="node"></param>
            <param name="parent"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.VisitRvalue(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Visit a general expression, where we will only need to determine if variables are
            assigned (or not). That is, we will not be needing AssignedWhenTrue and
            AssignedWhenFalse.
            </summary>
            <param name="node"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.VisitStatement(Roslyn.Compilers.CSharp.BoundStatement)">
            <summary>
            Visit a statement.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.LoopHead(Roslyn.Compilers.CSharp.BoundLoopStatement)">
            <summary>
            Called at the point in a loop where the backwards branch would go to.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.LoopTail(Roslyn.Compilers.CSharp.BoundLoopStatement)">
            <summary>
            Called at the point in a loop where the backward branch is placed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.ResolveBreaks(`0,Roslyn.Compilers.CSharp.LabelSymbol)">
            <summary>
            Used to resolve break statements in each statement form that has a break statement
            (loops, switch).
            </summary>
            <param name="breakState"></param>
            <param name="label"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.ResolveContinues(Roslyn.Compilers.CSharp.LabelSymbol)">
            <summary>
            Used to resolve continue statements in each statement form that supports it.
            </summary>
            <param name="continueLabel"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.NoteBranch(Roslyn.Compilers.CSharp.AbstractFlowPass{`0}.PendingBranch,Roslyn.Compilers.CSharp.BoundStatement,Roslyn.Compilers.CSharp.BoundStatement)">
            <summary>
            Subclasses override this if they want to take special actions on processing a goto
            statement, when both the jump and the label have been located.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.ResolveBranches(Roslyn.Compilers.CSharp.LabelSymbol,Roslyn.Compilers.CSharp.BoundStatement)">
            <summary>
            To handle a label, we resolve all branches to that label.  Returns true if the state of
            the label changes as a result.
            </summary>
            <param name="label">Target label</param>
            <param name="target">Statement containing the target label</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.SavePending">
            <summary>
            Since branches cannot branch into constructs, only out, we save the pending branches
            when visiting more nested constructs.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.RestorePending(Roslyn.Compilers.CSharp.AbstractFlowPass{`0}.SavedPending)">
            <summary>
            We use this to restore the old set of pending branches after visiting a construct that contains nested statements.
            </summary>
            <param name="oldPending">The old pending branches, which are to be merged with the current ones</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.Unimplemented(Roslyn.Compilers.CSharp.BoundNode,System.String)">
            <summary>
            Report an unimplemented language construct.
            </summary>
            <param name="node"></param>
            <param name="feature"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.DefaultVisit(Roslyn.Compilers.CSharp.BoundNode)">
            <summary>
            Since each language construct must be handled according to the rules of the language specification,
            the default visitor reports that the construct for the node is not implemented in the compiler.
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.TypeIsImmutable(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Certain (struct) types are known by the compiler to be immutable.  In these cases calling a method on
            the type is known (by flow analysis) not to write the receiver.
            </summary>
            <param name="t"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.VisitAddressOfOperator(Roslyn.Compilers.CSharp.BoundAddressOfOperator,System.Boolean)">
            <summary>
            If the operand is definitely assigned, we may want to perform a read (in addition to
            a write) so that the operand can show up as ReadInside/DataFlowsIn.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AbstractFlowPass`1.PendingBranches">
            <summary>
            Pending escapes generated in the current scope (or more deeply nested scopes). When jump
            statements (goto, break, continue, return) are processed, they are placed in the
            pendingBranches buffer to be processed later by the code handling the destination
            statement. As a special case, the processing of try-finally statements might modify the
            contents of the pendingBranches buffer to take into account the behavior of
            "intervening" finally clauses.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AbstractFlowPass`1.Diagnostics">
            <summary>
            Where all diagnostics are deposited.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AbstractFlowPass`1.MethodParameters">
            <summary>
            If a method is currently being analyzed returns its parameters, returns an empty array
            otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AbstractFlowPass`1.MethodThisParameter">
            <summary>
            If a method is currently being analyzed returns its 'this' parameter, returns null
            otherwise.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractFlowPass`1.AbstractLocalState.Clone">
            <summary>
            Produce a duplicate of this flow analysis state.
            </summary>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AbstractFlowPass`1.PendingBranch">
            <summary>
            A pending branch.  There are created for a return, break, continue, or goto statement.
            The idea is that we don't know if the branch will eventually reach its destination
            because of an intervening finally block that cannot complete normally.  So we store them
            up and handle them as we complete processing each construct.  At the end of a block, if
            there are any pending branches to a label in that block we process the branch.  Otherwise
            we relay it up to the enclosing construct as a pending branch of the enclosing
            construct.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.initiallyAssignedVariables">
            <summary>
            Some variables that should be considered initially assigned.  Used for region analysis.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.usedVariables">
            <summary>
            Variables that were used anywhere, in the sense required to suppress warnings about
            unused variables.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.writtenVariables">
            <summary>
            Variables that were initialized or written anywhere.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.unsafeAddressTakenVariables">
            <summary>
            Map from variables that had their addresses taken, to the location of the first corresponding
            address-of expression.
            </summary>
            <remarks>
            Doesn't include fixed statement address-of operands.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.capturedVariables">
            <summary>
            Variables that were captured by anonymous functions.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.sourceAssembly">
            <summary>
            The current source assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.variableSlot">
            <summary>
            A mapping from local variables to the index of their slot in a flow analysis local state.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.unassignedVariableAddressOfSyntaxes">
            <summary>
            A set of address-of expressions for which the operand is not definitely assigned.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.variableBySlot">
            <summary>
            A mapping from the local variable slot to the symbol for the local variable itself.  This
            is used in the implementation of region analysis (support for extract method) to compute
            the set of variables "always assigned" in a region of code.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.nextVariableSlot">
            <summary>
            Variable slots are allocated to local variables sequentially and never reused.  This is
            the index of the next slot number to use.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.alreadyReported">
            <summary>
            Tracks variables for which we have already reported a definite assignment error.  This
            allows us to report at most one such error per variable.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.emptyStructTypeCache">
            <summary>
            A cache for remember which structs are empty.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.requireOutParamsAssigned">
            <summary>
            true if we should check to ensure that out parameters are assigned on every exit point.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.DataFlowPass.topLevelMethod">
            <summary>
            The topmost method of this analysis.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.Analyze(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.BoundNode,Roslyn.Compilers.DiagnosticBag,System.Boolean)">
            <summary>
            Perform data flow analysis, reporting all necessary diagnostics.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.Analyze(System.Boolean@,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Analyze the body, reporting all necessary diagnostics.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.WriteConsideredUse(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            This reflects the Dev10 compiler's rules for when a variable initialization is considered a "use"
            for the purpose of suppressing the warning about unused variables.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.VariableSlot(Roslyn.Compilers.CSharp.Symbol,System.Int32)">
            <summary>
            Locals are given slots when their declarations are encountered.  We only need give slots
            to local variables, out parameters, and the "this" variable of a struct constructs.
            Other variables are not given slots, and are therefore not tracked by the analysis.  This
            returns -1 for a variable that is not tracked, for fields of structs that have the same
            assigned status as the container, and for structs that (recursively) contain no data members.
            We do not need to track references to
            variables that occur before the variable is declared, as those are reported in an
            earlier phase as "use before declaration". That allows us to avoid giving slots to local
            variables before processing their declarations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.MakeSlot(Roslyn.Compilers.CSharp.Symbol,System.Int32)">
            <summary>
            Force a variable to have a slot.  Returns -1 if the variable has an empty struct type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.MakeSlot(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Return the slot for a variable, or -1 if it is not tracked (because, for example, it is an empty struct).
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.CheckAssigned(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Check that the given variable is definitely assigned.  If not, produce an error.
            </summary>
            <param name="symbol"></param>
            <param name="node"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.ReportUnassigned(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Report a given variable as not definitely assigned.  Once a variable has been so
            reported, we suppress further reports of that variable.
            </summary>
            <param name="symbol"></param>
            <param name="node"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.Assign(Roslyn.Compilers.CSharp.BoundNode,Roslyn.Compilers.CSharp.BoundExpression,System.Boolean)">
            <summary>
            Mark a variable as assigned (or unassigned).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.FieldsAllSet(System.Int32,Roslyn.Compilers.CSharp.DataFlowPass.LocalState)">
            <summary>
            Does the struct variable at the given slot have all of its instance fields assigned?
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.VisitUsingStatement(Roslyn.Compilers.CSharp.BoundUsingStatement)">
            <remarks>
            Variables declared in a using statement are always considered used, so this is just an assert.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowPass.currentMethodOrLambda">
            <summary>
            Reflects the enclosing method or lambda at the current location (in the bound tree).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DataFlowPass.LocalState.Clone">
            <summary>
            Produce a duplicate of this flow analysis state.
            </summary>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CompilationReference">
            <summary>
            Represents a reference to another C# compilation. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CompilationReference.#ctor(Roslyn.Compilers.CSharp.Compilation,System.String,System.Boolean)">
            <summary>
            Create a metadata reference to a compilation.
            </summary>
            <param name="compilation">The compilation to reference.</param>
            <param name="alias">A namespace alias for this reference.</param>
            <param name="embedInteropTypes">Should interop types be embedded in the created assembly?</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CompilationReference.Compilation">
            <summary>
            Returns the referenced Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ExpressionLambdaRewriter.VisitExactType(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Visit the expression, but do so in a way that ensures that its type is precise.  That means that any
            sometimes-unnecessary conversions (such as an implicit reference conversion) are retained.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeConversion(Roslyn.Compilers.CSharp.BoundConversion,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.ConversionKind,Roslyn.Compilers.CSharp.MethodSymbol,System.Boolean,System.Boolean,System.Boolean,Roslyn.Compilers.ConstantValue,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Helper method to generate a lowered conversion.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeConversion(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean)">
            <summary>
            Helper method to generate a lowered conversion from the given rewrittenOperand to the given rewrittenType.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeConversion(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.ConversionKind,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean,Roslyn.Compilers.ConstantValue)">
            <summary>
            Helper method to generate a lowered conversion from the given rewrittenOperand to the given rewrittenType with the given conversion kind.
            </summary>
            <remarks>
            Conversion kind must not be a user defined conversion, use the other overload which takes a 'Conversion' parameter for generating synthesized user defined conversions.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.VisitForEachStatement(Roslyn.Compilers.CSharp.BoundForEachStatement)">
            <summary>
            This is the entry point for foreach-loop lowering.  It delegates to
              RewriteEnumeratorForEachStatement
              RewriteSingleDimensionalArrayForEachStatement
              RewriteMultiDimensionalArrayForEachStatement
              RewriteStringForEachStatement
            </summary>
            <remarks>
            NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE
            We are diverging from the C# 4 spec (and Dev10) to follow the C# 5 spec.
            The iteration variable will be declared *inside* each loop iteration,
            rather than outside the loop.
            NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE NOTE
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteEnumeratorForEachStatement(Roslyn.Compilers.CSharp.BoundForEachStatement)">
            <summary>
            Lower a foreach loop that will enumerate a collection using an enumerator.
            
            E e = ((C)(x)).GetEnumerator()
            try {
                while (e.MoveNext()) {
                    V v = (V)(T)e.Current;
                    // body
                }
            }
            finally {
                // clean up e
            }
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.SynthesizeCall(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.Conversion,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Synthesize a no-argument call to a given method, possibly applying a conversion to the receiver.
            
            If the receiver is of struct type and the method is an interface method, then skip the conversion
            and just call the interface method directly - the code generator will detect this and generate a 
            constrained virtual call.
            </summary>
            <param name="syntax">A syntax node to attach to the synthesized bound node.</param>
            <param name="receiver">Receiver of method call.</param>
            <param name="method">Method to invoke.</param>
            <param name="receiverConversion">Conversion to be applied to the receiver if not calling an interface method on a struct.</param>
            <param name="convertedReceiverType">Type of the receiver after applying the conversion.</param>
            <returns>A BoundExpression representing the call.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteStringForEachStatement(Roslyn.Compilers.CSharp.BoundForEachStatement)">
            <summary>
            Lower a foreach loop that will enumerate the characters of a string.
            
            string s = x;
            for (int p = 0; p &lt; s.Length; p = p + 1) {
                V v = (V)s.Chars[p];
                // body
            }
            </summary>
            <remarks>
            We will follow Dev10 in diverging from the C# 4 spec by ignoring string's 
            implementation of IEnumerable and just indexing into its characters.
            
            NOTE: We're assuming that sequence points have already been generated.
            Otherwise, lowering to for-loops would generated spurious ones.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteSingleDimensionalArrayForEachStatement(Roslyn.Compilers.CSharp.BoundForEachStatement)">
            <summary>
            Lower a foreach loop that will enumerate a single-dimensional array.
            
            A[] a = x;
            for (int p = 0; p &lt; a.Length; p = p + 1) {
                V v = (V)a[p];
                // body
            }
            </summary>
            <remarks>
            We will follow Dev10 in diverging from the C# 4 spec by ignoring Array's 
            implementation of IEnumerable and just indexing into its elements.
            
            NOTE: We're assuming that sequence points have already been generated.
            Otherwise, lowering to for-loops would generated spurious ones.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteMultiDimensionalArrayForEachStatement(Roslyn.Compilers.CSharp.BoundForEachStatement)">
            <summary>
            Lower a foreach loop that will enumerate a multi-dimensional array.
            
            A[...] a = x;
            int q_0 = a.GetUpperBound(0), q_1 = a.GetUpperBound(1), ...;
            for (int p_0 = a.GetLowerBound(0); p_0 &lt;= q_0; p_0 = p_0 + 1)
                for (int p_1 = a.GetLowerBound(1); p_1 &lt;= q_1; p_1 = p_1 + 1)
                    ...
                        { V v = (V)a[p_0, p_1, ...]; /* body */ }
            </summary>
            <remarks>
            We will follow Dev10 in diverging from the C# 4 spec by ignoring Array's 
            implementation of IEnumerable and just indexing into its elements.
            
            NOTE: We're assuming that sequence points have already been generated.
            Otherwise, lowering to nested for-loops would generated spurious ones.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.GetUnconvertedCollectionExpression(Roslyn.Compilers.CSharp.BoundForEachStatement)">
            <summary>
            So that the binding info can return an appropriate SemanticInfo.Converted type for the collection
            expression of a foreach node, it is wrapped in a BoundConversion to the collection type in the
            initial bound tree.  However, we may be able to optimize away (or entirely disregard) the conversion
            so we pull out the bound node for the underlying expression.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.AddForEachExpressionSequencePoint(Roslyn.Compilers.CSharp.ForEachStatementSyntax,Roslyn.Compilers.CSharp.BoundStatement@)">
            <summary>
            Add sequence point |here|:
            
            foreach (Type var in |expr|) { }
            </summary>
            <remarks>
            Hit once, before looping begins.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.AddForEachIterationVariableSequencePoint(Roslyn.Compilers.CSharp.ForEachStatementSyntax,Roslyn.Compilers.CSharp.BoundStatement@)">
            <summary>
            Add sequence point |here|:
            
            foreach (|Type var| in expr) { }
            </summary>
            <remarks>
            Hit every iteration.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.AddForEachKeywordSequencePoint(Roslyn.Compilers.CSharp.ForEachStatementSyntax,Roslyn.Compilers.CSharp.BoundStatement@)">
            <summary>
            Add sequence point |here|:
            
            |foreach| (Type var in expr) { }
            </summary>
            <remarks>
            Hit once, before looping begins.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.VisitLockStatement(Roslyn.Compilers.CSharp.BoundLockStatement)">
             <summary>
             Lowers a lock statement to a try-finally block that calls Monitor.Enter and Monitor.Exit
             before and after the body, respectively.
             
             C# 4.0 version
             
             L locked;
             bool flag = false;
             try {
                 locked = `argument`;
                 Monitor.Enter(locked, ref flag);
                 `body`
             } finally {
                 if (flag) Monitor.Exit(locked);
             }
            
             Pre-4.0 version
             
             L locked = `argument`;
             Monitor.Enter(locked, ref flag);
             try {
                 `body`
             } finally {
                 Monitor.Exit(locked);
             }
             </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.VisitUsingStatement(Roslyn.Compilers.CSharp.BoundUsingStatement)">
            <summary>
            Rewrite a using statement into a try finally statement.  Two forms are possible:
              1) using (expr) stmt
              2) using (C c = expr) stmt
              
            The former is handled by RewriteExpressionUsingStatement and the latter is handled by
            RewriteDeclarationUsingStatement (called in a loop, once for each local declared).
            </summary>
            <remarks>
            It would be more in line with our usual pattern to rewrite using to try-finally
            in the ControlFlowRewriter, but if we don't do it here the BoundMultipleLocalDeclarations
            will be rewritten into a form that makes them harder to separate.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteExpressionUsingStatement(Roslyn.Compilers.CSharp.BoundUsingStatement,Roslyn.Compilers.CSharp.BoundBlock)">
            <summary>
            Lower "using (expression) statement" to a try-finally block.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteDeclarationUsingStatement(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundLocalDeclaration,Roslyn.Compilers.CSharp.BoundBlock,Roslyn.Compilers.CSharp.Conversion)">
            <summary>
            Lower "using (ResourceType resource = expression) statement" to a try-finally block.
            </summary>
            <remarks>
            Assumes that the local symbol will be declared (i.e. in the LocalsOpt array) of an enclosing block.
            Assumes that using statements with multiple locals have already been split up into multiple using statements.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteWinRtEvent(Roslyn.Compilers.CSharp.BoundEventAssignmentOperator,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            If we are in a WinRT type event, we need to encapsulate the adder call
            (Which returns an EventRegistrationToken) with a call to 
            WindowsRuntimeMarshal.AddEventHandler or RemoveEventHandler, but these
            require us to create a new Func representing the adder and another
            Action representing the Remover.
            
            The rewritten call looks something like:
            
            WindowsRuntimeMarshal.AddEventHandler&lt;EventHandler&gt;
                (new Func&lt;EventHandler, EventRegistrationToken&gt;(@object.add), 
                 new Action&lt;EventRegistrationToken&gt;(@object.remove), handler);
            
            Where @object is a compiler - generated local temp.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeAssignmentOperator(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean)">
            <summary>
            Generates a lowered form of the assignment operator for the given left and right sub-expressions.
            Left and right sub-expressions must be in lowered form.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeArguments(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundExpression},Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.MethodSymbol,System.Boolean,Roslyn.Compilers.ReadOnlyArray{System.Int32},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.RefKind}@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.LocalSymbol}@)">
            <summary>
            Rewrites arguments of an invocation according to the receiving method or indexer.
            It is assumed that the each argument has already been lowered, but we may need
            additional rewriting for the arguments, such as generating a params array, re-ordering
            arguments based on argsToParamsOpt map, inserting arguments for optional parameters, etc.
            'optionalParametersMethod' is the method used for values of any optional parameters.
            For indexers, this method must be an accessor, and for methods it must be the method
            itself. 'optionalParametersMethod' is needed for indexers since the getter and setter
            may have distinct optional parameter values.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MergeArgumentsAndSideEffects(Roslyn.Compilers.CSharp.BoundExpression[],Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.RefKind},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.BoundAssignmentOperator})">
            <summary>
            Process tempStores and add them as sideeffects to arguments where needed. The return
            value tells how many temps are actually needed. For unnecessary temps the corresponding
            temp store will be cleared.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.CreateObjectCreationExpression(Roslyn.Compilers.CSharp.BoundObjectCreationExpression,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundExpression},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.RefKind},Roslyn.Compilers.ConstantValue,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Build an object creation expression without performing any rewriting
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.VisitUnaryOperator(Roslyn.Compilers.CSharp.BoundUnaryOperator)">
            <summary>
            This rewriter lowers pre-/post- increment/decrement operations (initially represented as
            unary operators). We use BoundSequenceExpressions because we need to capture the RHS of the
            assignment in a temp variable.
            </summary>
            <remarks>
            This rewriter assumes that it will be run before decimal rewriting (so that it does not have
            to lower decimal constants and operations) and call rewriting (so that it does not have to
            lower property accesses).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.VisitIncrementOperator(Roslyn.Compilers.CSharp.BoundIncrementOperator)">
            <summary>
            The rewrites are as follows: suppose the operand x is a variable of type X. The
            chosen increment/decrement operator is modelled as a static method on a type T,
            which takes a value of type T and returns the result of incrementing or decrementing
            that value.
            
            x++
                X temp = x
                x = (X)(T.Increment((T)temp))
                return temp
            x--
                X temp = x
                x = (X)(T.Decrement((T)temp))
                return temp
            ++x
                X temp = (X)(T.Increment((T)x))
                x = temp
                return temp
            --x
                X temp = (X)(T.Decrement((T)x))
                x = temp
                return temp
                
            For example, we might have a class X with user-defined implicit conversions
            to and from short, but no user-defined increment or decrement operators. We
            would bind x++ as "X temp = x; x = (X)(short)((int)(short)temp + 1); return temp;"
            </summary>
            <param name="node">The unary operator expression representing the increment/decrement.</param>
            <returns>A bound sequence that uses a temp to acheive the correct side effects and return value.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeRValue(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Transform an expression from a form suitable as an lvalue to a form suitable as an rvalue.
            </summary>
            <param name="rewrittenExpression"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.RewriteBuiltInShiftOperation(Roslyn.Compilers.CSharp.BoundBinaryOperator,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BinaryOperatorKind,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,System.Int32)">
            <summary>
            Spec section 7.9: if the left operand is int or uint, mask the right operand with 0x1F;
            if the left operand is long or ulong, mask the right operand with 0x3F.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.MakeSizeOfMultiplication(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.PointerTypeSymbol,System.Boolean)">
            <summary>
            This rather confusing method tries to reproduce the functionality of ExpressionBinder::bindPtrAddMul and
            ExpressionBinder::bindPtrMul.  The basic idea is that we have a numeric expression, x, and a pointer type, 
            T*, and we want to multiply x by sizeof(T).  Unfortunately, we need to stick in some conversions to make
            everything work.
            
              1) If x is an int, then convert it to a IntPtr (i.e. a native int).  Dev10 offers no explanation (ExpressionBinder::bindPtrMul).
              2) Do overload resolution based on the (possibly converted) type of X and int (the type of sizeof(T)).
              3) If the result type of the chosen multiplication operator is signed, convert the product to IntPtr;
                 otherwise, convert the product to UIntPtr.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.VisitConditionalOperator(Roslyn.Compilers.CSharp.BoundConditionalOperator)">
            <summary>
            If the condition has a constant value, then just use the selected branch.
            e.g. "true ? x : y" becomes "x".
            
            In some special cases, it is also necessary to make implicit reference conversions
            explicit to satisfy CLR verification rules.  See IsUpdateRequiredForExplicitConversion.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.UpdateForExplicitConversionIfNecessary(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.BoundExpression@,Roslyn.Compilers.CSharp.BoundExpression@)">
            <summary>
            Determines whether it is necessary to perform an explicit conversion so that the
            types of two conditional branches will verifiably reconcile.
            </summary>
            <param name="destinationType">The expected type of both branches.</param>
            <param name="rewrittenConsequence">The first branch.</param>
            <param name="rewrittenAlternative">The second branch.  Updated (i.e. visited, converted, etc) if necessary.</param>
            <remarks>
            From ILGENREC::GenQMark
            See VSWhideby Bugs #49619 and 108643. If the destination type is an interface we need
            to force a static cast to be generated for any cast result expressions. The static cast
            should be done before the unifying jump so the code is verifiable and to allow the JIT to
            optimize it away. NOTE: Since there is no staticcast instruction, we implement static cast
            with a stloc / ldloc to a temporary.
            http://bugcheck/bugs/VSWhidbey/49619
            http://bugcheck/bugs/VSWhidbey/108643
            http://bugcheck/bugs/DevDivBugs/42645
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.TransformCompoundAssignmentLHS(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.BoundExpression},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.LocalSymbol})">
            <summary>
            In the expanded form of a compound assignment (or increment/decrement), the LHS appears multiple times.
            If we aren't careful, this can result in repeated side-effects.  This creates (ordered) temps for all of the
            subexpressions that could result in side-effects and returns a side-effect-free expression that can be used
            in place of the LHS in the expanded form.
            </summary>
            <param name="originalLHS">The LHS sub-expression of the compound assignment (or increment/decrement).</param>
            <param name="stores">Populated with a list of assignment expressions that initialize the temporary locals.</param>
            <param name="temps">Populated with a list of temporary local symbols.</param>
            <returns>A side-effect-free expression representing the LHS.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LocalRewriter.Rewrite(System.Boolean,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.BoundStatement,Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.SynthesizedSubmissionFields,System.Boolean@)">
            <summary>
            Lower a block of code by performing local rewritings.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.IteratorRewriter.state">
            <summary>
            The "state" of the state machine that is the translation of the iterator method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.IteratorRewriter.current">
            <summary>
            The field of the generated iterator class that underlies the Current property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.IteratorRewriter.dispatches">
            <summary>
            For each distinct label, the set of states that need to be dispatched to that label.
            Note that there is a dispatch occurring at every try-finally statement, so this
            variable takes on a new set of values inside each try block.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.IteratorRewriter.finalizerStateMap">
            <summary>
            A mapping from each state of the state machine to the new state that will be used to execute
            finally blocks in case the state machine is disposed.  The Dispose method computes the new state
            and then runs MoveNext.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.IteratorRewriter.hasFinalizerState">
            <summary>
            A try block might have no state (transitions) within it, in which case it does not need
            to have a state to represent finalization.  This flag tells us whether the current try
            block that we are within has a finalizer state.  Initially true as we have the (trivial)
            finalizer state of -1 at the top level.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.IteratorRewriter.currentFinalizerState">
            <summary>
            If hasFinalizerState is true, this is the state for finalization from anywhere in this
            try block.  Initially set to -1, representing the no-op finalization required at the top
            level.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.IteratorRewriter.RewriteIterator(Roslyn.Compilers.CSharp.BoundStatement,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Rewrite an iterator method into a state machine class.
            </summary>
            <param name="body">The original body of the method</param>
            <param name="method">The method's identity</param>
            <param name="compilationState">The collection of generated methods that result from this transformation and which must be emitted</param>
            <param name="diagnostics">Diagnostic bag for diagnostics.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.IteratorRewriter.VisitTryStatement(Roslyn.Compilers.CSharp.BoundTryStatement)">
            <summary>
            The try statement is the most complex part of the state machine transformation.
            Since the CLR will not allow a 'goto' into the scope of a try statement, we must
            generate the dispatch to the state's label stepwise.  That is done by translating
            the try statements from the inside to the outside.  Within a try statement, we
            start with an empty dispatch table (representing the mapping from state numbers
            to labels).  During translation of the try statement's body, the dispatch table
            will be filled in with the data necessary to dispatch once we're inside the try
            block.  We generate that at the head of the translated try statement.  Then, we
            copy all of the states from that table into the table for the enclosing construct,
            but associate them with a label just before the translated try block.  That way
            the enclosing construct will generate the code necessary to get control into the
            try block for all of those states.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IteratorRewriter.IteratorCaptureWalker">
            <summary>
            A walker that computes the set of local variables of an iterator
            method that must be moved to fields of the generated class.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IteratorRewriter.IteratorClass">
            <summary>
            The class that represents a translated iterator method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedClass">
            <summary>
            A class synthesized for a lambda or iterator method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NamedTypeSymbol">
            <summary>
            Represents a type other than an array, a pointer, a type parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeSymbol">
            <summary>
            A TypeSymbol is a base class for all the symbols that represent a type
            in C#.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol">
            <summary>
            Represents either a namespace or a type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetMembers">
            <summary>
            Get all the members of this symbol.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol. If this symbol has no members,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetMembers(System.String)">
            <summary>
            Get all the members of this symbol that have a particular name.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol with the given name. If there are
            no members with this name, returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetTypeMembers">
            <summary>
            Get all the members of this symbol that are types.
            </summary>
            <returns>An IEnumerable containing all the types that are members of this symbol. If this symbol has no type members,
            returns an empty IEnumerable. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetTypeMembers(System.String)">
            <summary>
            Get all the members of this symbol that are types that have a particular name, of any arity.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol with the given name.
            If this symbol has no type members with this name,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetTypeMembers(System.String,System.Int32)">
            <summary>
            Get all the members of this symbol that are types that have a particular name and arity
            </summary>
            <returns>An IEnumerable containing all the types that are members of this symbol with the given name and arity.
            If this symbol has no type members with this name and arity,
            returns an empty IEnumerable. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetSourceTypeMember(Roslyn.Compilers.CSharp.TypeDeclarationSyntax)">
            <summary>
            Get a source type symbol for the given declaration syntax.
            </summary>
            <returns>Null if there is no matching declaration.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetSourceTypeMember(Roslyn.Compilers.CSharp.DelegateDeclarationSyntax)">
            <summary>
            Get a source type symbol for the given declaration syntax.
            </summary>
            <returns>Null if there is no matching declaration.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetSourceTypeMember(System.String,System.Int32,Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Get a source type symbol of given name, arity and kind.  If a tree and syntax are provided, restrict the results
            to those that are declared within the given syntax.
            </summary>
            <returns>Null if there is no matching declaration.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.LookupMetadataType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup an immediately nested type referenced from metadata, names should be
            compared case-sensitively.
            </summary>
            <param name="emittedTypeName">
            Simple type name, possibly with generic name mangling.
            </param>
            <returns>
            Symbol for the type, or MissingMetadataSymbol if the type isn't found.
            </returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetNamespaceOrTypeByQualifiedName(System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Finds types or namespaces described by a qualified name.
            </summary>
            <param name="qualifiedName">Sequence of simple plain names.</param>
            <returns>
            A set of namespace or type symbols with given qualified name (might comprise of types with multiple generic arities), 
            or an empty set if the member can't be found (the qualified name is ambiguous or the symbol doesn't exist).
            </returns>
            <remarks>
            "C.D" matches C.D, C{T}.D, C{S,T}.D{U}, etc.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.IsNamespace">
            <summary>
            Returns true if this symbol is a namespace. If it is not a namespace, it must be a type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.IsType">
            <summary>
            Returns true if this symbols is a type. Equivalent to !IsNamespace.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.IsVirtual">
            <summary>
            Returns true if this symbol is "virtual", has an implementation, and does not override a
            base class member; i.e., declared with the "virtual" modifier. Does not return true for
            members declared as abstract or override.
            </summary>
            <returns>
            Always returns false.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.IsOverride">
            <summary>
            Returns true if this symbol was declared to override a base class member; i.e., declared
            with the "override" modifier. Still returns true if member was declared to override
            something, but (erroneously) no member to override exists.
            </summary>
            <returns>
            Always returns false.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.IsExtern">
            <summary>
            Returns true if this symbol has external implementation; i.e., declared with the 
            "extern" modifier. 
            </summary>
            <returns>
            Always returns false.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.MakeAllInterfaces">
            Produce all implemented interfaces in topologically sorted order. We use
            TypeSymbol.Interfaces as the source of edge data, which has had cycles and infinitely
            long dependency cycles removed. Consequently, it is possible (and we do) use the
            simplest version of Tarjan's topological sorting algorithm.
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.FindImplementationForInterfaceMember(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Returns the corresponding symbol in this type or a base type that implements 
            interfaceMember (either implicitly or explicitly), or null if no such symbol exists
            (which might be either because this type doesn't implement the container of
            interfaceMember, or this type doesn't supply a member that successfully implements
            interfaceMember).
            </summary>
            <param name="interfaceMember">
            Must be a non-null interface property, method, or event.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.GetUseSiteErrorInfo">
            <summary>
            Returns error info for an error, if any, that should be reported at the use site of the symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.GetUseSiteErrorInfo(System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.TypeSymbol}@)">
            <summary>
            Has the same purpose as the one above, but carries a hash set of types that are being checked or have been checked
            already in order to avoid duplicate work and, more importantly, avoid infinite loops due to cyclic type references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.ComputeImplementationForInterfaceMember(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Performs interface mapping (spec 13.4.4).
            </summary>
            <remarks>
            CONSIDER: we could probably do less work in the metadata and retargeting cases - we won't use the diagnostics.
            </remarks>
            <param name="interfaceMember">A non-null property on an interface type.</param>
            <param name="implementingType">The type implementing the interface property (usually "this").</param>
            <param name="diagnostics">Bag to which to add diagnostics.</param>
            <returns>The implementing property or null, if there isn't one.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.CheckForImplementationOfCorrespondingPropertyOrEvent(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean,Roslyn.Compilers.CSharp.Symbol@)">
            <summary>
            If we were looking for an accessor, then look for an accessor on the implementation of the
            corresponding interface property/event.  If it is valid as an implementation (ignoring the name),
            then prefer it to our current result if:
              1) our current result is null; or
              2) our current result is on the same type.
              
            If there is no corresponding accessor on the implementation of the corresponding interface
            property/event and we found an accessor, then the accessor we found is invalid, so clear it.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.ReportImplicitImplementationMatchDiagnostics(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            These diagnostics are for members that do implicitly implement an interface member, but do so
            in an undesirable way.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.ReportImplicitImplementationMismatchDiagnostics(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            These diagnostics are for members that almost, but not actually, implicitly implement an interface member.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.FindPotentialImplicitImplementationMemberDeclaredInType(Roslyn.Compilers.CSharp.Symbol,System.Boolean,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.Symbol@,Roslyn.Compilers.CSharp.Symbol@)">
            <summary>
            Search the declared members of a type for one that could be an implementation
            of a given interface member (depending on interface declarations).
            </summary>
            <param name="interfaceMember">The interface member being implemented.</param>
            <param name="implementingTypeIsFromSource">The value of implementingType.OriginalDefinition.IsFromSource (avoid recomputing repeatedly).</param>
            <param name="currType">The type on which we are looking for a declared implementation of the interface member.</param>
            <param name="implicitImpl">A member on currType that could implement the interface, or null.</param>
            <param name="closeMismatch">A member on currType that could have been an attempt to implement the interface, or null.</param>
            <remarks>
            There is some similarity between this member and MemberSymbol.FindOverriddenOrHiddenMembersInType.
            When making changes to this member, think about whether or not they should also be applied in MemberSymbol.
            One key difference is that custom modifiers are considered when looking up overridden members, but
            not when looking up implicit implementations.  We're preserving this behavior from Dev10.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbol.IsInterfaceMemberImplementation(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Symbol,System.Boolean)">
             <summary>
             To implement an interface member, a candidate member must be public, non-static, and have
             the same signature.  "Have the same signature" has a looser definition if the type implementing
             the interface is from source.
             </summary>
             <remarks>
             PROPERTIES:
             NOTE: we're not checking whether this property has at least the accessors
             declared in the interface.  Dev10 considers it a match either way and,
             reports failure to implement accessors separately.
            
             If the implementing type (i.e. the type with the interface in its interface
             list) is in source, then we can ignore custom modifiers in/on the property
             type because they will be copied into the bridge property that explicitly
             implements the interface property (or they would be, if we created such
             a bridge property).  Bridge *methods* (not properties) are inserted in 
             SourceNamedTypeSymbol.ImplementInterfaceMember.
            
             CONSIDER: The spec for interface mapping (13.4.4) could be interpreted to mean that this
             property is not an implementation unless it has an accessor for each accessor of the
             interface property.  For now, we prefer to represent that case as having an implemented
             property and an unimplemented accessor because it makes finding accessor implementations
             much easier.  If we decide that we want the API to report the property as unimplemented,
             then it might be appropriate to keep current result internally and just check the accessors
             before returning the value from the public API (similar to the way MethodSymbol.OverriddenMethod
             filters MethodSymbol.OverriddenOrHiddenMembers.
             </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.BaseType">
            <summary>
            Gets the BaseType of this type. If the base type could not be determined, then 
            an instance of ErrorType is returned. If this kind of type does not have a base type
            (for example, interfaces), null is returned. Also the special class System.Object
            always has a BaseType of null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.Interfaces">
            <summary>
            Gets the set of interfaces that this type directly implements. This set does not include
            interfaces that are base interfaces of directly implemented interfaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.AllInterfaces">
            <summary>
            The list of all interfaces of which this type is a declared subtype, excluding this type
            itself. This includes all declared base interfaces, all declared base interfaces of base
            types, and all declared base interfaces of those results (recursively).  Each result
            appears exactly once in the list. This list is topologically sorted by the inheritance
            relationship: if interface type A extends interface type B, then A precedes B in the
            list. This is not quite the same as "all interfaces of which this type is a proper
            subtype" because it does not take into account variance: AllInterfaces for
            IEnumerable&lt;string&gt; will not include IEnumerble&lt;object&gt;
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.InterfacesAndTheirBaseInterfaces">
            <summary>
            Gets the set of interfaces that this type directly implements, plus the base interfaces
            of all such types.
            </summary>
            <remarks>
            CONSIDER: it probably isn't truly necessary to cache this.  If space gets tight, consider
            alternative approaches (recompute every time, cache on the side, only store on some types,
            etc).
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.IsReferenceType">
            <summary>
            Returns true if this type is known to be a reference type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.IsValueType">
            <summary>
            Returns true if this type is known to be a value type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.TypeKind">
            <summary>
            Gets the kind of this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.SpecialType">
            <summary>
            Gets corresponding special TypeId of this type.
            </summary>
            <remarks>
            Not preserved in types constructed from this one.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.PrimitiveTypeCode">
            <summary>
            Gets corresponding primitive type code for this type declaration.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.HighestPriorityUseSiteError">
            <summary>
            Return error code that has highest priority while calculating use site error for this symbol. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.IsAnonymousType">
            <summary>
            Is this a symbol for an anonymous type (including delegate).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.IsManagedType">
            <summary>
            Is this type a managed type (false for everything but enum, pointer, and
            some struct types).
            </summary>
            <remarks>
            See Type::computeManagedType.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeSymbol.AbstractMembers">
            <summary>
            The set of abstract members in declared in this type or declared in a base type and not overridden.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeSymbol.SymbolAndDiagnostics">
            <summary>
            Represents the method by which this type implements a given interface type
            and/or the corresponding diagnostics.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.InterfacesVisit(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.Emit.Module,Roslyn.Compilers.ArrayBuilder{Microsoft.Cci.ITypeReference},System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.NamedTypeSymbol}@)">
            <summary>
            Add the type to the builder and then recurse on its interfaces.
            </summary>
            <remarks>
            Pre-order depth-first search.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetOperators(System.String)">
            <summary>
            Get the operators for this type by their metadata name
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetAttributeUsageInfo">
            <summary>
            Gets the associated attribute usage info for an attribute type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.MakeMetadataName(System.String@)">
            <summary>
            Return the name including the metadata arity suffix, and whether it was truncated.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.MakeMetadataName(System.String@,System.String@)">
            <summary>
            Make the metadata name and the unsuffixed metadata name
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetMembers">
            <summary>
            Get all the members of this symbol.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol. If this symbol has no members,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetMembers(System.String)">
            <summary>
            Get all the members of this symbol that have a particular name.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol with the given name. If there are
            no members with this name, returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetTypeMembers">
            <summary>
            Get all the members of this symbol that are types.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol. If this symbol has no type members,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetTypeMembers(System.String)">
            <summary>
            Get all the members of this symbol that are types that have a particular name, of any arity.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol with the given name.
            If this symbol has no type members with this name,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetTypeMembers(System.String,System.Int32)">
            <summary>
            Get all the members of this symbol that are types that have a particular name and arity
            </summary>
            <returns>A ReadOnlyArraycontaining all the types that are members of this symbol with the given name and arity.
            If this symbol has no type members with this name and arity,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.Accept``2(Roslyn.Compilers.CSharp.SymbolVisitor{``0,``1},``0)">
            <summary>
            Used to implement visitor pattern.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetEarlyAttributeDecodingMembers">
            <summary>
            During early attribute decoding, we consider a safe subset of all members that will not
            cause cyclic dependencies.  Get all such members for this symbol.
            </summary>
            <remarks>
            Never returns null (empty instead).
            Expected implementations: for source, return type and field members; for metadata, return all members.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetEarlyAttributeDecodingMembers(System.String)">
            <summary>
            During early attribute decoding, we consider a safe subset of all members that will not
            cause cyclic dependencies.  Get all such members for this symbol that have a particular name.
            </summary>
            <remarks>
            Never returns null (empty instead).
            Expected implementations: for source, return type and field members; for metadata, return all members.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.Equals(System.Object)">
            <summary>
            Compares this symbol to an object.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.EqualsComplicatedCases(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Helper for more complicated cases of Equals like when we have generic instantiations or types nested within them.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetHashCode">
            <summary>
            Returns hash code of this symbol.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.Construct(Roslyn.Compilers.CSharp.TypeSymbol[])">
            <summary>
            Returns a constructed type given its type arguments.
            </summary>
            <param name="typeArguments">The immediate type arguments to be replaced for type
            parameters in the type.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.Construct(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Returns a constructed type given its type arguments.
            </summary>
            <param name="typeArguments">The immediate type arguments to be replaced for type
            parameters in the type.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.ConstructUnboundGenericType">
            <summary>
            Returns an unbound generic type of this named type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetAllTypeParameters(Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.TypeParameterSymbol})">
            <summary>
            Return all of the type parameters in this type and enclosing types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.FindEnclosingTypeParameter(System.String)">
            <summary>
            Return the nearest type parameter with the given name in
            this type or any enclosing type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetSecurityInformation">
            <summary>
            Declaration security information associated with this type, or null if there is none.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamedTypeSymbol.GetAppliedConditionalSymbols">
            <summary>
            Returns a sequence of preprocessor symbols specified in <see cref="T:ConditionalAttribute"/> applied on this symbol, or null if there are none.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.Arity">
            <summary>
            Returns the arity of this type, or the number of type parameters it takes.
            A non-generic type has zero arity.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.TypeParameters">
            <summary>
            Returns the type parameters that this type has. If this is a non-generic type,
            returns an empty ReadOnlyArray.  
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.TypeArguments">
            <summary>
            Returns the type arguments that have been substituted for the type parameters. 
            If nothing has been substituted for a give type parameters,
            then the type parameter itself is consider the type argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.ConstructedFrom">
            <summary>
            Returns the type symbol that this type was constructed from. This type symbol
            has the same containing type (if any), but has type arguments that are the same
            as the type parameters (although its containing type might not).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.EnumUnderlyingType">
            <summary>
            For enum types, gets the underlying type. Returns null on all other
            kinds of types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.KnownCircularStruct">
            <summary>
            Returns true for a struct type containing a cycle.
            This property is intended for flow analysis only
            since it is only implemented for source types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.DelegateInvokeMethod">
            <summary>
            For delegate types, gets the delegate's invoke method.  Returns null on
            all other kinds of types.  Note that is is possible to have an ill-formed
            delegate type imported from metadata which does not have an Invoke method.
            Such a type will be classified as a delegate but its DelegateInvokeMethod
            would be null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.InstanceConstructors">
            <summary>
            Get the instance constructors for this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.Indexers">
            <summary>
            Get the indexers for this type.
            </summary>
            <remarks>
            Won't include indexers that are explicit interface implementations.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.MightContainExtensionMethods">
            <summary>
            Returns true if this type might contain extension methods. If this property
            returns false, there are no extension methods in this type.
            </summary>
            <remarks>
            This property allows the search for extension methods to be narrowed quickly.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsReferenceType">
            <summary>
            Returns true if this type is known to be a reference type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsValueType">
            <summary>
            Returns true if this type is known to be a value type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsScriptClass">
            <summary>
            Returns true if the type is a Script class. 
            It might be an interactive submission class or a Script class in a csx file.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsImplicitClass">
            <summary>
            Returns true if the type is the implicit class that holds onto invalid global members (like methods or
            statements in a non script file).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.Name">
            <summary>
            Gets the name of this symbol. Symbols without a name return the empty string; null is
            never returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.MangleName">
            <summary>
            Should the name returned by Name property be mangled with [`arity] suffix in order to get metadata name.
            Must return False for a type with Arity == 0.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.MemberNames">
            <summary>
            Collection of names of members declared within this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.DeclaredAccessibility">
            <summary>
            Get this accessibility that was declared on this symbol. For symbols that do not have
            accessibility declared on them, returns NotApplicable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsGenericType">
            <summary>
            True if this type or some containing type has type parameters.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsUnboundGenericType">
            <summary>
            True if this is a reference to an <em>unbound</em> generic type.  These occur only
            within a <code>typeof</code> expression.  A generic type is considered <em>unbound</em>
            if all of the type argument lists in its fully qualified name are empty.
            Note that the type arguments of an unbound generic type will be returned as error
            types because they do not really have type arguments.  An unbound generic type
            yields null for its BaseType and an empty result for its Interfaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.TypeSubstitution">
            <summary>
            Returns the map from type parameters to type arguments.
            If this is not a generic type instantiation, returns null.
            The map targets the original definition of the type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.HasSpecialName">
            <summary>
            True if this symbol has a special name (metadata flag SpecialName is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsComImport">
            <summary>
            Returns a flag indicating whether this symbol is ComImport.
            </summary>
            <remarks>
            A type can me marked as a ComImport type in source by applying the <see cref="T:System.Runtime.InteropServices.ComImportAttribute"/>
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsWindowsRuntimeImport">
            <summary>
            True if the type is a Windows runtime type.
            </summary>
            <remarks>
            A type can me marked as a Windows runtime type in source by applying the WindowsRuntimeImportAttribute.
            WindowsRuntimeImportAttribute is a pseudo custom attribute defined as an internal class in System.Runtime.InteropServices.WindowsRuntime namespace.
            This is needed to mark Windows runtime types which are redefined in mscorlib.dll and System.Runtime.WindowsRuntime.dll.
            These two assemblies are special as they implement the CLR's support for WinRT.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsConditional">
            <summary>
            Returns a flag indicating whether this symbol has at least one applied/inherited conditional attribute.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.IsSerializable">
            <summary>
            True if the type is serializable (has Serializable metadata flag).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.Layout">
            <summary>
            Type layout information (ClassLayout metadata and layout kind flags).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.DefaultMarshallingCharSet">
            <summary>
            The default charset used for type marshalling. 
            Can be changed via <see cref="T:System.Runtime.InteropServices.DefaultCharSetAttribute"/> applied on the containing module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.MarshallingCharSet">
            <summary>
            Marshalling charset of string data fields within the type (string formatting flags in metadata).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.HasDeclarativeSecurity">
            <summary>
            True if the type has declarative security information (HasSecurity flags).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamedTypeSymbol.ComImportCoClass">
            <summary>
            If CoClassAttribute was applied to the type and the attribute argument is a valid named type argument, i.e. accessible class type, then it returns the type symbol for the argument.
            Otherwise, returns null.
            </summary>
            <remarks>
            <para>
            This property invokes force completion of attributes. If you are accessing this property
            from the binder, make sure that we are not binding within an Attribute context.
            This could lead to a possible cycle in attribute binding.
            We can avoid this cycle by first checking if we are within the context of an Attribute argument,
            i.e. if(!binder.InAttributeArgument) { ...  namedType.ComImportCoClass ... }
            </para>
            <para>
            CONSIDER: We can remove the above restriction and possibility of cycle if we do an
            early binding of some well known attributes.
            </para>
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IteratorRewriter.IteratorConstructor">
            <summary>
            The constructor of the class that is the translation of an iterator method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntheticBoundNodeFactory">
            <summary>
            A helper class for synthesizing quantities of code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntheticBoundNodeFactory.CheckSwitchSections(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundSwitchSection})">
            <summary>
            Check for (and assert that there are no) duplicate case labels in the switch.
            </summary>
            <param name="sections"></param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CheckedUncheckedBinder">
            <summary>
            Controls overflow checks. Created for checked/unchecked blocks.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BuckStopsHereBinder">
            <summary>
            A binder that knows no symbols and will not delegate further.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.UnsafeBinder">
            <summary>
            Indicates that the current context allows unsafe constructs.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SuppressUnsafeDiagnosticsBinder">
            <summary>
            Indicates that the unsafe diagnostics are not reported in the current context, regardless
            of whether or not it is (part of) an unsafe region.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.IsBaseDefinitionOfDefinition(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Determines if a class, struct or interface (the base type) is identical to or
            a base type of the derived type, considering only the declarations. 
            </summary>
            <remarks>
            Object is NOT considered a base of an interface but is considered as base of a struct. 
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.ClassifyConversion(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source type is convertible to the destination type via
            any conversion: implicit, explicit, user-defined or built-in.
            </summary>
            <remarks>
            It is rare but possible for a source type to be convertible to a destination type
            by both an implicit user-defined conversion and a built-in explicit conversion.
            In that circumstance, this method classifies the conversion as the implicit conversion.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.ClassifyConversionForCast(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source type is convertible to the destination type via
            any conversion: implicit, explicit, user-defined or built-in.
            </summary>
            <remarks>
            It is rare but possible for a source type to be convertible to a destination type
            by both an implicit user-defined conversion and a built-in explicit conversion.
            In that circumstance, this method classifies the conversion as the built-in conversion.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.ClassifyStandardConversion(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source type is convertible to the destination type via
            any standard implicit or standard explicit conversion.
            </summary>
            <remarks>
            Not all built-in explicit conversions are standard explicit conversions.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.ClassifyImplicitConversion(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source type is convertible to the destination type via
            any user-defined or built-in implicit conversion.
            </summary>
            <remarks>
            Not all built-in explicit conversions are standard explicit conversions.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.AnalyzeImplicitUserDefinedConversions(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <remarks>
            NOTE: Keep this method in sync with AnalyzeImplicitUserDefinedConversionForSwitchGoverningType.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.ComputeApplicableUserDefinedImplicitConversionSet(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.NamedTypeSymbol},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.UserDefinedConversionAnalysis},System.Boolean)">
            <summary>
            This method find the set of applicable user-defined and lifted conversion operators, u.
            The set consists of the user-defined and lifted implicit conversion operators declared by
            the classes and structs in d that convert from a type encompassing source to a type encompassed by target.
            However if allowAnyTarget is true, then it considers all operators that convert from a type encompassing source
            to any target. This flag must be set only if we are computing user defined conversions from a given source
            type to any target type.
            </summary>
            <remarks>
            Currently allowAnyTarget flag is only set to true by AnalyzeImplicitUserDefinedConversionForSwitchGoverningType,
            where we must consider user defined implicit conversions from the type of the switch expression to
            any of the possible switch governing types.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConversionsBase.AnalyzeImplicitUserDefinedConversionForSwitchGoverningType(Roslyn.Compilers.CSharp.TypeSymbol)">
            <remarks>
            NOTE: Keep this method in sync with AnalyzeImplicitUserDefinedConversion.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverloadResolution.HidesByName(Roslyn.Compilers.CSharp.Symbol)">
            <remarks>
            This is specifically a private helper function (rather than a public property or extension method)
            because applying this predicate to a non-method member doesn't have a clear meaning.  The goal was
            simply to avoid repeating ad-hoc code in a group of related collections.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundNode.HasErrors">
            <summary>
            Determines if a bound node, or any child, grandchild, etc has an error (not warning)
            diagnostic associated with it. The HasError bit is initially set for a node by providing it
            to the node constructor. If any child nodes of a node have
            the HasErrors bit set, then it is automatically set to true on the parent bound node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundNode.WasCompilerGenerated">
            <remarks>
            NOTE: not generally set in rewriters.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundExpression.Display">
            <summary>
            Returns a serializable object that is used for displaying this expression in a diagnostic message.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundQueryClause.Operation">
            <summary>
            The bound expression that invokes the operation of the query clause.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundQueryClause.Cast">
            <summary>
            The bound expression that is the invocation of a "Cast" method specified by the query translation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundQueryClause.UnoptimizedForm">
            <summary>
            The bound expression that is the query expression in "unoptimized" form.  Specifically, a final ".Select"
            invocation that is omitted by the specification is included here.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberSemanticModel">
            <summary>
            Binding info for expressions and statements that are part of a member declaration.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SemanticModel">
            <summary>
            Allows asking semantic questions about a tree of syntax nodes in a Compilation. Typically,
            an instance is obtained by a call to <see cref="P:Roslyn.Compilers.CSharp.SemanticModel.Compilation"/>.<see cref="M:Compilation.GetSemanticModel"/>. 
            </summary>
            <remarks>
            <para>An instance of <see cref="T:Roslyn.Compilers.CSharp.SemanticModel"/> caches local symbols and semantic
            information. Thus, it is much more efficient to use a single instance of <see cref="T:Roslyn.Compilers.CSharp.SemanticModel"/> when asking multiple questions about a syntax tree, because
            information from the first question may be reused. This also means that holding onto an
            instance of SemanticModel for a long time may keep a significant amount of memory from being
            garbage collected.
            </para>
            <para>
            When an answer is a named symbol that is reachable by traversing from the root of the symbol
            table, (that is, from an <see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/> of the <see cref="P:Roslyn.Compilers.CSharp.SemanticModel.Compilation"/>),
            that symbol will be returned (i.e. the returned value will be reference-equal to one
            reachable from the root of the symbol table). Symbols representing entities without names
            (e.g. array-of-int) may or may not exhibit reference equality. However, some named symbols
            (such as local variables) are not reachable from the root. These symbols are visible as
            answers to semantic questions. When the same SemanticModel object is used, the answers
            exhibit reference-equality.  
            </para>
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSymbolInfoWorker(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions,System.Threading.CancellationToken)">
            <summary>
            Gets symbol information about a syntax node. This is overridden by various specializations of SemanticModel.
            It can assume that CheckSyntaxNode and CanGetSemanticInfo have already been called, as well as that named
            argument nodes have been handled.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="options">Options to control behavior.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetTypeInfoWorker(Roslyn.Compilers.CSharp.SyntaxNode,System.Threading.CancellationToken)">
            <summary>
            Gets type information about a syntax node. This is overridden by various specializations of SemanticModel.
            It can assume that CheckSyntaxNode and CanGetSemanticInfo have already been called, as well as that named
            argument nodes have been handled.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetMemberGroupWorker(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions,System.Threading.CancellationToken)">
            <summary>
            Gets a list of method or indexed property symbols for a syntax node. This is overridden by various specializations of SemanticModel.
            It can assume that CheckSyntaxNode and CanGetSemanticInfo have already been called, as well as that named
            argument nodes have been handled.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="options"></param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetIndexerGroupWorker(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions,System.Threading.CancellationToken)">
            <summary>
            Gets a list of indexer symbols for a syntax node. This is overridden by various specializations of SemanticModel.
            It can assume that CheckSyntaxNode and CanGetSemanticInfo have already been called, as well as that named
            argument nodes have been handled.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="options"></param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetConstantValueWorker(Roslyn.Compilers.CSharp.SyntaxNode,System.Threading.CancellationToken)">
            <summary>
            Gets a the constant value for a syntax node. This is overridden by various specializations of SemanticModel.
            It can assume that CheckSyntaxNode and CanGetSemanticInfo have already been called, as well as that named
            argument nodes have been handled.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativelyBoundNode(System.Int32,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.Common.SpeculativeBindingOption,Roslyn.Compilers.CSharp.Binder@)">
            <summary>
            Bind the given expression speculatively at the given position, and return back
            the resulting bound node. May return null in some error cases.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativelyBoundAttribute(System.Int32,Roslyn.Compilers.CSharp.AttributeSyntax,Roslyn.Compilers.CSharp.Binder@)">
            <summary>
            Bind the given attribute speculatively at the given position, and return back
            the resulting bound node. May return null in some error cases.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSymbolInfo(Roslyn.Compilers.CSharp.OrderingSyntax,System.Threading.CancellationToken)">
            <summary>
            Gets the semantic information for an ordering clause in an orderby query clause.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSymbolInfo(Roslyn.Compilers.CSharp.SelectOrGroupClauseSyntax,System.Threading.CancellationToken)">
            <summary>
            Gets the semantic information associated with a select or group clause.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSymbolInfo(Roslyn.Compilers.CSharp.ExpressionSyntax,System.Threading.CancellationToken)">
            <summary>
            Returns what symbol(s), if any, the given expression syntax bound to in the program.
            
            An AliasSymbol will never be returned by this method. What the alias refers to will be
            returned instead. To get information about aliases, call GetAliasInfo.
            
            If binding the type name C in the expression "new C(...)" the actual constructor bound to
            will be returned (or all constructor if overload resolution failed). This occurs as long as C
            unambiguously binds to a single type that has a constructor. If C ambiguously binds to multiple
            types, or C binds to a static class, then type(s) are returned.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSymbolInfo(Roslyn.Compilers.CSharp.ConstructorInitializerSyntax,System.Threading.CancellationToken)">
            <summary>
            Returns what symbol(s), if any, the given constructor initializer syntax bound to in the program.
            </summary>
            <param name="constructorInitializer">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSymbolInfo(Roslyn.Compilers.CSharp.AttributeSyntax,System.Threading.CancellationToken)">
            <summary>
            Returns what symbol(s), if any, the given attribute syntax bound to in the program.
            </summary>
            <param name="attributeSyntax">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativeSymbolInfo(System.Int32,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.Common.SpeculativeBindingOption)">
            <summary>
            Binds the expression in the context of the specified location and gets symbol information.
            This method is used to get symbol information about an expression that did not actually
            appear in the source code.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="expression">A syntax node that represents a parsed expression. This syntax
            node need not and typically does not appear in the source code referred to by the
            SemanticModel instance.</param>
            <param name="bindingOption">Indicates whether to binding the expression as a full expressions,
            or as a type or namespace. If SpeculativeBindingOption.BindAsTypeOrNamespace is supplied, then
            expression should derive from TypeSyntax.</param>
            <returns>The symbol information for the topmost node of the expression.</returns>
            <remarks>The passed in expression is interpreted as a stand-alone expression, as if it
            appeared by itself somewhere within the scope that encloses "position".</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativeSymbolInfo(System.Int32,Roslyn.Compilers.CSharp.AttributeSyntax)">
            <summary>
            Bind the attribute in the context of the specified location and get semantic information
            such as type, symbols and diagnostics. This method is used to get semantic information about an attribute
            that did not actually appear in the source code.
            </summary>
            <param name="position">A character position used to identify a declaration scope and accessibility. This
            character position must be within the FullSpan of the Root syntax node in this SemanticModel. In order to obtain
            the correct scoping rules for the attribute, position should be the Start position of the Span of the symbol that
            the attribute is being applied to.
            </param>
            <param name="attribute">A syntax node that represents a parsed attribute. This syntax node
            need not and typically does not appear in the source code referred to SemanticModel instance.</param>
            <returns>The semantic information for the topmost node of the attribute.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativeSymbolInfo(System.Int32,Roslyn.Compilers.CSharp.ConstructorInitializerSyntax)">
            <summary>
            Bind the constructor initializer in the context of the specified location and get semantic information
            such as type, symbols and diagnostics. This method is used to get semantic information about a constructor
            initializer that did not actually appear in the source code.
            
            NOTE: This will only work in locations where there is already a constructor initializer.
            </summary>
            <param name="position">A character position used to identify a declaration scope and accessibility. This
            character position must be within the FullSpan of the Root syntax node in this SemanticModel.
            Furthermore, it must be within the span of an existing constructor initializer.
            </param>
            <param name="constructorInitializer">A syntax node that represents a parsed constructor initializer. This syntax node
            need not and typically does not appear in the source code referred to SemanticModel instance.</param>
            <returns>The semantic information for the topmost node of the constructor initializer.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetTypeInfo(Roslyn.Compilers.CSharp.ConstructorInitializerSyntax,System.Threading.CancellationToken)">
            <summary>
            Gets type information about a constructor initializer.
            </summary>
            <param name="constructorInitializer">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetTypeInfo(Roslyn.Compilers.CSharp.ExpressionSyntax,System.Threading.CancellationToken)">
            <summary>
            Gets type information about an expression.
            </summary>
            <param name="expression">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetTypeInfo(Roslyn.Compilers.CSharp.AttributeSyntax,System.Threading.CancellationToken)">
            <summary>
            Gets type information about an attribute.
            </summary>
            <param name="attributeSyntax">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">The cancellation token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativeTypeInfo(System.Int32,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.Common.SpeculativeBindingOption)">
            <summary>
            Binds the expression in the context of the specified location and gets type information.
            This method is used to get type information about an expression that did not actually
            appear in the source code.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="expression">A syntax node that represents a parsed expression. This syntax
            node need not and typically does not appear in the source code referred to by the
            SemanticModel instance.</param>
            <param name="bindingOption">Indicates whether to binding the expression as a full expressions,
            or as a type or namespace. If SpeculativeBindingOption.BindAsTypeOrNamespace is supplied, then
            expression should derive from TypeSyntax.</param>
            <returns>The type information for the topmost node of the expression.</returns>
            <remarks>The passed in expression is interpreted as a stand-alone expression, as if it
            appeared by itself somewhere within the scope that encloses "position".</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetIndexerGroup(Roslyn.Compilers.CSharp.ExpressionSyntax,System.Threading.CancellationToken)">
            <summary>
            Returns the list of accessible, non-hidden indexers that could be invoked with the given expression as receiver.
            </summary>
            <param name="expression">Potential indexer receiver.</param>
            <param name="cancellationToken">To cancel the computation.</param>
            <returns>Accessible, non-hidden indexers.</returns>
            <remarks>
            If the receiver is an indexer expression, the list will contain the indexers that could be applied to the result
            of accessing the indexer, not the set of candidates that were considered during construction of the indexer expression.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetQueryClauseInfo(Roslyn.Compilers.CSharp.QueryClauseSyntax,System.Threading.CancellationToken)">
            <summary>
            Gets the semantic information associated with a query clause.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetAliasInfo(Roslyn.Compilers.CSharp.IdentifierNameSyntax,System.Threading.CancellationToken)">
            <summary>
            If <paramref name="nameSyntax"/> resolves to an alias name, return the AliasSymbol corresponding
            to A. Otherwise return null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetSpeculativeAliasInfo(System.Int32,Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.Common.SpeculativeBindingOption)">
            <summary>
            Binds the name in the context of the specified location and sees if it resolves to an
            alias name. If it does, return the AliasSymbol corresponding to it. Otherwise, return null.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="nameSyntax">A syntax node that represents a name. This syntax
            node need not and typically does not appear in the source code referred to by the
            SemanticModel instance.</param>
            <param name="bindingOption">Indicates whether to binding the name as a full expression,
            or as a type or namespace. If SpeculativeBindingOption.BindAsTypeOrNamespace is supplied, then
            expression should derive from TypeSyntax.</param>
            <remarks>The passed in name is interpreted as a stand-alone name, as if it
            appeared by itself somewhere within the scope that encloses "position".</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetEnclosingBinder(System.Int32)">
            <summary>
            Gets the binder that encloses the position.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetMemberModel(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Gets the MemberSemanticModel that contains the node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.CheckAndAdjustPosition(System.Int32)">
            <summary>
            Given a position, locates the containing token.  If the position is actually within the
            leading trivia of the containing token or if that token is EOF, moves one token to the
            left.  Returns the start position of the resulting token.
            
            This has the effect of moving the position left until it hits the beginning of a non-EOF
            token.
            
            Throws an ArgumentOutOfRangeException if position is not within the root of this model.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetAdjustedNodePosition(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            A convenience method that determines a position from a node.  If the node is missing,
            then its position will be adjusted using CheckAndAdjustPosition.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.LookupSymbols(System.Int32,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,System.String,System.Nullable{System.Int32},Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Gets the available named symbols in the context of the specified location and optional
            container. Only symbols that are accessible and visible from the given location are
            returned.
            </summary>
            <param name="position">The character position for determining the enclosing declaration
            scope and accessibility.</param>
            <param name="container">The container to search for symbols within. If null then the
            enclosing declaration scope around position is used.</param>
            <param name="name">The name of the symbol to find. If null is specified then symbols
            with any names are returned.</param>
            <param name="arity">The number of generic type parameters the symbol has. If null is
            specified then symbols with any arity are returned.</param>
            <param name="options">Additional options that affect the lookup process.</param>
            <remarks>
            The "position" is used to determine what variables are visible and accessible. Even if
            "container" is specified, the "position" location is significant for determining which
            members of "containing" are accessible. 
            </remarks>
            <exception cref="T:System.ArgumentException">Throws an argument exception if the passed lookup options are invalid.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.AddLookupSymbolsInfo(System.Int32,Roslyn.Compilers.CSharp.LookupSymbolsInfo,Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Gets the names of the available named symbols in the context of the specified location
            and optional container. Only symbols that are accessible and visible from the given
            location are returned.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="info">A lookup table that given a symbol name returns all present
            arities and/or a symbol if unique.</param>
            <param name="container">The container to search for symbols within. If null then the
            enclosing declaration scope around position is used.</param>
            <param name="options">Additional options that affect the lookup process.</param>
            <returns>A list of names of symbols that were found. If no symbols were found, an empty
            list is returned. 
            </returns>
            <remarks>
            The "position" is used to determine what variables are visible and accessible. Even if
            "container" is specified, the "position" location is significant for determining which
            members of "containing" are accessible. 
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.IsAccessible(System.Int32,Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Determines if the symbol is accessible from the specified location. 
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="symbol">The symbol that we are checking to see if it accessible.</param>
            <returns>
            True if "symbol is accessible, false otherwise.</returns>
            <remarks>
            This method only checks accessibility from the point of view of the accessibility
            modifiers on symbol and its containing types. Even if true is returned, the given symbol
            may not be able to be referenced for other reasons, such as name hiding.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.IsEventUsableAsField(System.Int32,Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            Field-like events can be used as fields in types that can access private
            members of the declaring type of the event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetBindableParentNode(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            If the node is an expression, return the nearest parent node
            with semantic meaning. Otherwise return null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.AnalyzeControlFlow(Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>
            Analyze control-flow within a part of a method body. 
            </summary>
            <param name="firstStatement">The first statement to be included in the analysis.</param>
            <param name="lastStatement">The last statement to be included in the analysis.</param>
            <returns>An object that can be used to obtain the result of the control flow analysis.</returns>
            <exception cref="T:System.ArgumentException">The two statements are not contained within the same statement list.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.AnalyzeControlFlow(Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>
            Analyze control-flow within a part of a method body. 
            </summary>
            <param name="statement">The statement to be included in the analysis.</param>
            <returns>An object that can be used to obtain the result of the control flow analysis.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.AnalyzeDataFlow(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Analyze data-flow within an expression. 
            </summary>
            <param name="expression">The expression within the associated SyntaxTree to analyze.</param>
            <returns>An object that can be used to obtain the result of the data flow analysis.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.AnalyzeDataFlow(Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>
            Analyze data-flow within a part of a method body. 
            </summary>
            <param name="firstStatement">The first statement to be included in the analysis.</param>
            <param name="lastStatement">The last statement to be included in the analysis.</param>
            <returns>An object that can be used to obtain the result of the data flow analysis.</returns>
            <exception cref="T:System.ArgumentException">The two statements are not contained within the same statement list.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.AnalyzeDataFlow(Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>
            Analyze data-flow within a part of a method body. 
            </summary>
            <param name="statement">The statement to be included in the analysis.</param>
            <returns>An object that can be used to obtain the result of the data flow analysis.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.ClassifyConversion(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was
            converted to a given type.
            </summary>
            <param name="expression">An expression which much occur within the syntax tree
            associated with this object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was
            possible, and if so, what kind of conversion it was. If no conversion was possible, a
            Conversion object with a false "Exists" property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a
            type), use Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.ClassifyConversion(System.Int32,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was
            converted to a given type.
            </summary>
            <param name="position">The character position for determining the enclosing declaration
            scope and accessibility.</param>
            <param name="expression">The expression to classify. This expression does not need to be
            present in the syntax tree associated with this object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was
            possible, and if so, what kind of conversion it was. If no conversion was possible, a
            Conversion object with a false "Exists" property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a
            type), use Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.ClassifyConversionForCast(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was
            converted to a given type using an explicit cast.
            </summary>
            <param name="expression">An expression which much occur within the syntax tree
            associated with this object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was
            possible, and if so, what kind of conversion it was. If no conversion was possible, a
            Conversion object with a false "Exists" property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a
            type), use Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.ClassifyConversionForCast(System.Int32,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was
            converted to a given type using an explicit cast.
            </summary>
            <param name="position">The character position for determining the enclosing declaration
            scope and accessibility.</param>
            <param name="expression">The expression to classify. This expression does not need to be
            present in the syntax tree associated with this object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was
            possible, and if so, what kind of conversion it was. If no conversion was possible, a
            Conversion object with a false "Exists" property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a
            type), use Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclarationDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the syntax and declaration errors within the syntax tree associated with this
            object. Does not get errors involving compiling method bodies or initializers.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the diagnostics.</param>
            <remarks>The declaration errors for a syntax tree are cached. The first time this method
            is called, all declarations are analyzed for diagnostics. Calling this a second time
            will return the cached diagnostics.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the errors within the syntax tree associated with this object. Includes errors
            involving compiling method bodies or initializers, in addition to the errors returned by
            GetDeclarationDiagnostics.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the diagnostics.</param>
            <remarks>
            Because this method must semantically all method bodies and initializers to check for
            diagnostics, it may take a significant amount of time. Unlike GetDeclarationDiagnostics,
            diagnostics for method bodies and initializers are not cached, the any semantic
            information used to obtain the diagnostics is discarded.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.MemberDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a member declaration syntax, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a member.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
            <remarks>
            NOTE:   We have no GetDeclaredSymbol overloads for following subtypes of MemberDeclarationSyntax:
            NOTE:   (1) GlobalStatementSyntax as they don't declare any symbols.
            NOTE:   (2) IncompleteMemberSyntax as there are no symbols for incomplete members.
            NOTE:   (3) BaseFieldDeclarationSyntax or its subtypes as these declarations can contain multiple variable declarators.
            NOTE:       GetDeclaredSymbol should be called on the variable declarators directly.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.NamespaceDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a namespace declaration syntax node, get the corresponding namespace symbol for
            the declaration assembly.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a namespace.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The namespace symbol that was declared by the namespace declaration.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a type declaration, get the corresponding type symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a type.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The type symbol that was declared.</returns>
            <remarks>
            NOTE:   We have no GetDeclaredSymbol overloads for subtypes of BaseTypeDeclarationSyntax as all of them return a NamedTypeSymbol.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.DelegateDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a delegate declaration, get the corresponding type symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a delegate.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The type symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a enum member declaration, get the corresponding field symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares an enum member.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a base method declaration syntax, get the corresponding method symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a method.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
            <remarks>
            NOTE:   We have no GetDeclaredSymbol overloads for subtypes of BaseMethodDeclarationSyntax as all of them return a MethodSymbol.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a property, indexer or an event, get the corresponding declared symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a property, indexer or an event.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.PropertyDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a property, get the corresponding declared symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a property.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.IndexerDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares an indexer, get the corresponding declared symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares an indexer.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.EventDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a (custom) event, get the corresponding event symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a event.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node of anonymous object creation initializer, get the anonymous object property symbol.
            </summary>
            <param name="declaratorSyntax">The syntax node that declares a property.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node of anonymous object creation expression, get the anonymous object type symbol.
            </summary>
            <param name="declaratorSyntax">The syntax node that declares an anonymoust object.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.AccessorDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a property or member accessor, get the corresponding
            symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares an accessor.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.VariableDeclaratorSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a variable declarator syntax, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a variable.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.LabeledStatementSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a labeled statement syntax, get the corresponding label symbol.
            </summary>
            <param name="declarationSyntax">The syntax node of the labeled statement.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The label symbol for that label.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.SwitchLabelSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a switch label syntax, get the corresponding label symbol.
            </summary>
            <param name="declarationSyntax">The syntax node of the switch label.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The label symbol for that label.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.UsingDirectiveSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a using declaration get the corresponding symbol for the using alias that was
            introduced.
            </summary>
            <param name="declarationSyntax"></param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The alias symbol that was declared.</returns>
            <remarks>
            If the using directive is an error because it attempts to introduce an alias for which an existing alias was
            previously declared in the same scope, the result is a newly-constructed AliasSymbol (i.e. not one from the
            symbol table).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax,System.Threading.CancellationToken)">
            <summary>
            Given an extern alias declaration get the corresponding symbol for the alias that was introduced.
            </summary>
            <param name="declarationSyntax"></param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The alias symbol that was declared, or null if a duplicate alias symbol was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.ParameterSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a parameter declaration syntax node, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a parameter.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The parameter that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.TypeParameterSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a type parameter declaration (field or method), get the corresponding symbol
            </summary>
            <param name="cancellationToken">The cancellation token.</param>
            <param name="typeParameter"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.ForEachStatementSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a foreach statement, get the symbol for the iteration variable
            </summary>
            <param name="cancellationToken">The cancellation token.</param>
            <param name="forEachStatement"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.CatchDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a catch declaration, get the symbol for the exception variable
            </summary>
            <param name="cancellationToken">The cancellation token.</param>
            <param name="catchDeclaration"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.JoinIntoClauseSyntax,System.Threading.CancellationToken)">
            <summary>
            Get the query range variable declared in a join into clause.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.QueryContinuationSyntax,System.Threading.CancellationToken)">
            <summary>
            Get the query range variable declared in a query continuation clause.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.ResolveOverloads``1(System.Int32,Roslyn.Compilers.ReadOnlyArray{``0},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ArgumentSyntax})">
            <summary>
            Resolves the set of provided arguments against set of provided methods to determine the
            appropriate overload. The arguments are bound as if they were at 'position' within this
            binding. An OverloadResolutionResult is returned that gives the result of the compiler's
            overload resolution analysis.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel. This position is used when binding the arguments.
            </param>
            <param name="members">The set of methods to resolve overloads among.</param>
            <param name="arguments">The list of arguments, in order, to use when resolving the
            overloads. The arguments are interpreted as if they occurred within the declaration
            scope that encloses "position".</param>
            <param name="typeArguments">If present, the type argument provided. If not provided,
            type inference is done.</param>
            <remarks>
            This can be used to resolve constructors as well as methods.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.ResolveIndexerOverloads(System.Int32,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.PropertySymbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ArgumentSyntax})">
            <summary>
            Resolves the set of provided arguments against set of provided indexers to determine the
            appropriate overload. The arguments are bound as if they were at 'position' within this
            binding. An OverloadResolutionResult is returned that gives the result of the compiler's
            overload resolution analysis.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel. This position is used when binding the arguments.
            </param>
            <param name="indexers">The set of indexers to resolve overloads among.</param>
            <param name="arguments">The list of arguments, in order, to use when resolving the
            overloads. The arguments are interpreted as if they occurred within the declaration
            scope that encloses "position".</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetIndexerGroupSemanticSymbols(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.Binder)">
            <summary>
            Returns a list of accessible, non-hidden indexers that could be invoked with the given expression
            as a receiver.
            </summary>
            <remarks>
            If the given expression is an indexer access, then this method will return the list of indexers
            that could be invoked on the result, not the list of indexers that were considered.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetNamedArgumentSymbolInfo(Roslyn.Compilers.CSharp.IdentifierNameSyntax,System.Threading.CancellationToken)">
            <summary>
            Get the semantic info of a named argument in an invocation-like expression.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.FindNamedParameter(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ParameterSymbol},System.String)">
            <summary>
            Find the first parameter named "argumentName".
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.CreateReducedExtensionMethodsFromOriginalsIfNecessary(Roslyn.Compilers.CSharp.BoundCall)">
            <summary>
            If the call represents an extension method invocation with an explicit receiver, return the original
            methods as ReducedExtensionMethodSymbols. Otherwise, return the original methods unchanged.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.CreateReducedExtensionMethodIfNecessary(Roslyn.Compilers.CSharp.BoundCall)">
            <summary>
            If the call represents an extension method with an explicit receiver, return a
            ReducedExtensionMethodSymbol. Otherwise, return the original call method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetForEachStatementInfo(Roslyn.Compilers.CSharp.ForEachStatementSyntax)">
            <summary>
            Gets for each statement info.
            </summary>
            <param name="node">The node.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticModel.GetEnclosingSymbol(System.Int32,System.Threading.CancellationToken)">
            <summary>
            Given a position in the SyntaxTree for this ISemanticModel returns the innermost
            NamedType that the positoin is considered inside of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SemanticModel.Compilation">
            <summary>
            The compilation this object was obtained from.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SemanticModel.Root">
            <summary>
            The root node of the syntax tree that this binding is based on.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SemanticModel.SyntaxTree">
            <summary>
            The SyntaxTree that this object is associated with.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions">
            <summary>
            Options to control the internal working of GetSymbolInfoWorker. Not currently exposed
            to public clients, but could be if desired.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions.PreferTypeToConstructors">
            <summary>
            When binding "C" new C(...), return the type C and do not return information about
            which constructor was bound to. Bind "new C(...)" to get information about which constructor
            was chosen.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions.PreferConstructorsToType">
            <summary>
            When binding "C" new C(...), return the constructor of C that was bound to, if C unambiguously
            binds to a single type with at least one constructor. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions.ResolveAliases">
            <summary>
            When binding a name X that was declared with a "using X=OtherTypeOrNamespace", return OtherTypeOrNamespace.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SemanticModel.SymbolInfoOptions.PreserveAliases">
            <summary>
            When binding a name X that was declared with a "using X=OtherTypeOrNamespace", return the alias symbol X.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetEnclosingBinder(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            This overload exists for callers who
              a) Already have a node in hand and don't want to search through the tree
              b) May want to search from an indirect container (e.g. node containing node
                 containing position).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetBoundRoot">
            <summary>
            Get the bound node corresponding to the root.
            </summary> 
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetUpperBoundNode(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Get the highest bound node in the tree associated with a particular syntax node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetLowerBoundNode(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Get the lowest bound node in the tree associated with a particular syntax node. Lowest is defined as last
            in a pre-order traversal of the bound tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetDeclarationDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the syntax and declaration errors within the syntax tree associated with this
            object. Does not get errors involving compiling method bodies or initializers.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the diagnostics.</param>
            <remarks>The declaration errors for a syntax tree are cached. The first time this method
            is called, all declarations are analyzed for diagnostics. Calling this a second time
            will return the cached diagnostics.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the errors within the syntax tree associated with this object. Includes errors
            involving compiling method bodies or initializers, in addition to the errors returned by
            GetDeclarationDiagnostics.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the diagnostics.</param>
            <remarks>
            Because this method must semantically all method bodies and initializers to check for
            diagnostics, it may take a significant amount of time. Unlike GetDeclarationDiagnostics,
            diagnostics for method bodies and initializers are not cached, the any semantic
            information used to obtain the diagnostics is discarded.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetLambdaEnclosingBinder(System.Int32,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.ExecutableCodeBinder)">
            <summary>
            Performs the same function as GetEnclosingBinder, but is known to take place within a
            specified lambda.  Walks up the syntax hierarchy until a node with an associated binder
            is found.
            </summary>
            <remarks>
            CONSIDER: can this share code with MemberSemanticModel.GetEnclosingBinder?
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.GetBoundNodes(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Get all bounds nodes associated with a node, ordered from highest to lowest in the bound tree.
            Strictly speaking, the order is that of a pre-order traversal of the bound tree.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberSemanticModel.MemberSymbol">
            <summary>
            The member symbol 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberSemanticModel.RootBinder">
            <summary>
            The root binder (this binder will parent the interior block binders)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.NodeMapBuilder.AddToMap(Roslyn.Compilers.CSharp.BoundNode,System.Collections.Generic.Dictionary{Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundNode}},Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Walks the bound tree and adds all non compiler generated bound nodes whose syntax matches the given one
            to the cache.
            </summary>
            <param name="root">The root of the bound tree.</param>
            <param name="map">The cache.</param>
            <param name="node">The syntax node where to add bound nodes for.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.NodeMapBuilder.ShouldAddNode(Roslyn.Compilers.CSharp.BoundNode)">
            <summary>
            Decides whether to the add the bound node to the cache or not.
            </summary>
            <param name="currentBoundNode">The bound node.</param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberSemanticModel.IncrementalBinder">
            <summary>
            The incremental binder is used when binding statements. Whenever a statement
            is bound, it checks the bound node cache to see if that statement was bound, 
            and returns it instead of rebinding it. 
            
            For example, we might have:
               while (x > foo())
               {
                 y = y * x;
                 z = z + y;
               }
            
            We might first get semantic info about "z", and thus bind just the statement
            "z = z + y". Later, we might bind the entire While block. While binding the while
            block, we can reuse the binding we did of "z = z + y".
            </summary>
            <remarks>
            NOTE: any member overridden by this binder should follow the BuckStopsHereBinder pattern.
            Otherwise, a subsequent binder in the chain could suppress the caching behavior.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSemanticModel.IncrementalBinder.GetBinder(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            We override GetBinder so that the BindStatement override is still
            in effect on nested binders.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeCompilationState">
            <summary>
            Represents the state of compilation of one particular type.
            This includes, for example, a collection of synthesized methods created during lowering. 
            </summary>
            <remarks>
            WARNING: Note that the collection class is not thread-safe and will 
            need to be revised if emit phase is changed to support multithreading when
            translating a particular type.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.TypeCompilationState.generatedMethods">
            <summary> Flat array of created methods, non-empty if not-null </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.TypeCompilationState.wrappers">
            <summary> 
            Map of wrapper methods created for base access of base type virtual methods from 
            other classes (like those created for lambdas...); actually each method symbol will 
            only need one wrapper to call it non-virtually.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.TypeCompilationState.IteratorImplementationClass">
            <summary>
            A mapping from (source) iterator methods to the compiler-generated classes that implement them.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeCompilationState.AddGeneratedMethod(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.BoundStatement)">
            <summary> Add a 'regular' generated method </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeCompilationState.AddMethodWrapper(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.BoundStatement)">
            <summary> 
            Add a 'wrapper' method and map it to the original one so it can be reused. 
            </summary>
            <remarks>
            Wrapper methods are created for base access of base type virtual methods from 
            other classes (like those created for lambdas...).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeCompilationState.GetMethodWrapper(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary> 
            Get a 'wrapper' method for the original one. 
            </summary>
            <remarks>
            Wrapper methods are created for base access of base type virtual methods from 
            other classes (like those created for lambdas...).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeCompilationState.Free">
            <summary> Free resources allocated for this method collection </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeCompilationState.EmitModule">
            <summary>
            The Emit.Module for generating code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeCompilationState.CurrentDebugImports">
            <summary>
            Any generated methods that don't suppress debug info will use this
            list of debug imports.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeCompilationState.Type">
            <summary>
            The type for which this compilation state is being used.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeCompilationState.AnyGeneratedMethods">
            <summary> Any methods? </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeCompilationState.NextWrapperMethodIndex">
            <summary> The index of the next wrapped method to be used </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeCompilationState.GeneratedMethods">
            <summary> Method/body collection </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeCompilationState.MethodWithBody">
            <summary> Synthesized method info </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParameterSymbol">
            <summary>
            Represents a parameter of a method or indexer.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ParameterSymbol.Microsoft#Cci#IParameterDefinition#GetDefaultValue">
            <summary>
            Gets constant value to be stored in metadata Constant table.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ParameterSymbol.Accept``2(Roslyn.Compilers.CSharp.SymbolVisitor{``0,``1},``0)">
            <summary>
            Implements visitor pattern. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.Type">
            <summary>
            Gets the type of the parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.RefKind">
            <summary>
            Determines if the parameter ref, out or neither.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.CustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.MarshallingInformation">
            <summary>
            Describes how the parameter is marshalled when passed to native code.
            Null if no specific marshalling information is available for the parameter.
            </summary>
            <remarks>PE symbols don't provide this information and always return null.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.MarshallingType">
            <summary>
            Returns the marshalling type of this parameter, or 0 if marshalling information isn't available.
            </summary>
            <remarks>
            By default this information is extracted from <see cref="P:MarshallingInformation"/> if available. 
            Since the compiler does only need to know the marshalling type of symbols that aren't emitted 
            PE symbols just decode the type from metadata and don't provide full marshalling information.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.Ordinal">
            <summary>
            Gets the ordinal position of the parameter. The first parameter has ordinal zero.
            The "'this' parameter has ordinal -1.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsParams">
            <summary>
            Returns true if the parameter was declared as a parameter array. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsOptional">
            <summary>
            Returns true if the parameter is semantically optional.
            </summary>
            <remarks>
            True iff the parameter has a default argument syntax, 
            or the parameter is not a params-array and Optional metadata flag is set.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsMetadataOptional">
            <summary>
            True if Optional flag is set in metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsMetadataIn">
            <summary>
            True if Out flag is set in metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsMetadataOut">
            <summary>
            True if In flag is set in metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.HasDefaultValue">
            <summary>
            Returns true if the parameter explicitly specifies a default value to be passed
            when no value is provided as an argument to a call.
            </summary>
            <remarks>
            True if the parameter has a default argument syntax, 
            or the parameter is from source and <see cref="T:System.Runtime.InteropServices.DefaultParameterValueAttribute"/> is applied, 
            or the parameter is from metadata and HasDefault metadata flag is set.
            
            The default value can be obtained with <see cref="P:Roslyn.Compilers.CSharp.ParameterSymbol.DefaultValue"/> property.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.DefaultValue">
            <summary>
            Returns the default value of the parameter. If HasDefaultValue
            returns false then DefaultValue throws an InvalidOperationException.
            </summary>
            <remarks>
            If the parameter type is a struct and the default value of the parameter
            is the default value of the struct type or of type parameter type which is 
            not known to be a referenced type, then this property will return null.
            </remarks>
            <exception cref="T:System.InvalidOperationException">The parameter has no default value.</exception>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.DefaultConstantValue">
            <summary>
            Returns the default value constant of the parameter, 
            or null if the parameter doesn't have a default value or 
            the parameter type is a struct and the default value of the parameter
            is the default value of the struct type or of type parameter type which is 
            not known to be a referenced type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.DeclaredAccessibility">
            <summary>
            Get this accessibility that was declared on this symbol. For symbols that do not have
            accessibility declared on them, returns NotApplicable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsAbstract">
            <summary>
            Returns true if this symbol was declared as requiring an override; i.e., declared with
            the "abstract" modifier. Also returns true on a type declared as "abstract", all
            interface types, and members of interface types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsSealed">
            <summary>
            Returns true if this symbol was declared to override a base class member and was also
            sealed from further overriding; i.e., declared with the "sealed" modifier.  Also set for
            types that do not allow a derived class (declared with "sealed" or "static" or "struct"
            or "enum" or "delegate").
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsVirtual">
            <summary>
            Returns true if this symbol is "virtual", has an implementation, and does not override a
            base class member; i.e., declared with the "virtual" modifier. Does not return true for
            members declared as abstract or override.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsOverride">
            <summary>
            Returns true if this symbol was declared to override a base class member; i.e., declared
            with the "override" modifier. Still returns true if member was declared to override
            something, but (erroneously) no member to override exists.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsStatic">
            <summary>
            Returns true if this symbol is "static"; i.e., declared with the "static" modifier or
            implicitly static.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsExtern">
            <summary>
            Returns true if this symbol has external implementation; i.e., declared with the 
            "extern" modifier. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.IsThis">
            <summary>
            Returns true if the parameter is the hidden 'this' parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeField">
            <summary>
            Describes anonymous type field in terms of its name, type and other attributes
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeField.Name">
            <summary>Anonymous type field name, not nothing and not empty</summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeField.Location">
            <summary>Anonymous type field location</summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeField.Type">
            <summary>Anonymous type field type</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousTypeField.IsGood">
            <summary> 
            'true' if all the attributes are not null
            This is ONLY used for debugging purpose
            </summary>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager">
            <summary>
            Manages anonymous types created on module level. All requests for anonymous type symbols 
            go via the instance of this class, the symbol will be either created or returned from cache.
            </summary>
            <summary>
            Manages anonymous types created in owning compilation. All requests for 
            anonymous type symbols go via the instance of this class.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.concurrentTypesCache">
            <summary>
            Cache of created anonymous type templates used as an implementation of anonymous 
            types in emit phase.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.anonymousTypeTemplatesSetIsSealed">
            <summary>
            We should not see new anonymous types from source after we finished emit phase, 
            this field seals the collection; in DEBUG it also is used to check the assertion.
            
            Note, 0 means the collection is not sealed, any other value seals the collection.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.ConstructAnonymousTypeImplementationSymbol(Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePublicSymbol)">
            <summary>
            Given anonymous type provided constructs an implementation type symbol to be used in emit phase; 
            if the anonymous type has at least one field the implementation type symbol will be created based on 
            a generic type template generated for each 'unique' anonymous type structure, otherwise the template
            type will be non-generic.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.AssignTemplatesNamesAndCompile(Roslyn.Compilers.CSharp.MethodBodyCompiler,Roslyn.Compilers.CSharp.Emit.Module,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Resets numbering in anonymous type names and compiles their methods
            NOTE: this call also seals the collection of templates so after it is called once
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.IsAnonymousTypeTemplate(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Returns true if the named type is an implementation template for an anonymous type
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.GetAnonymousTypeHiddenMethods(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Retrieves methods of anonymous type template which are not placed to symbol table.
            In current implementation those are overriden 'ToString', 'Equals' and 'GetHashCode'
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.TranslateAnonymousTypeSymbol(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Translates anonymus type public symbol into an implementation type symbol to be used in emit.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.TranslateAnonymousTypeMethodSymbol(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Translates anonymus type method symbol into an implementation method symbol to be used in emit.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.ReportMissingOrErroneousSymbols(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Reports all use site errors in special or well known symbols required for anonymous types
            </summary>
            <returns>true if there was at least one error</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.ConstructAnonymousTypeSymbol(Roslyn.Compilers.CSharp.AnonymousTypeDescriptor)">
            <summary>
            Given anonymous type descriptor provided constructs an anonymous type symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.GetAnonymousTypeProperty(Roslyn.Compilers.CSharp.NamedTypeSymbol,System.Int32)">
            <summary>
            Get a symbol of constructed anonymous type property by propery index
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.GetAnonymousTypePropertyTypes(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Retrieves anonymous type properties types
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.ConstructAnonymousTypeSymbol(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Given an anonymous type and new field types construct a new anonymous type symbol; 
            a new type symbol will reuse type descriptor from the constructed type with new type arguments.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.IsSameType(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean,System.Boolean)">
            <summary>
            Logical equality on anonymous types that ignores custom modifiers and/or the object/dynamic distinction.
            Differs from IsSameType for arrays, pointers, and generic instantiations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousTypeManager.AreTemplatesSealed">
            <summary>
            Collection of anonymous type templates is sealed 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousTypeManager.AllCreatedTemplates">
            <summary>
            Returns all templates owned by this type manager
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousTypeManager.Compilation">
            <summary> 
            Current compilation
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeComparer">
            <summary> 
            Comparator being used for stable ordering in anonymous type indices.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePublicSymbol">
            <summary>
            Represents an anonymous type 'public' symbol which is used in binding and lowering.
            In emit phase it is being substituted with implementation symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePublicSymbol.Properties">
            <summary> Properties defined in the type </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePublicSymbol.name2symbol">
            <summary> Maps member names to symbol(s) </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePublicSymbol.Manager">
            <summary> Anonymous type manager owning this template </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePublicSymbol.TypeDescriptor">
            <summary> Anonymous type descriptor </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeConstructorSymbol">
            <summary>
            Represents an anonymous type constructor.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.SynthesizedMethodBase">
            <summary>
            Represents a base implementation for anonymous type synthesized methods.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePropertyGetAccessorSymbol">
            <summary>
            Represents a getter for anonymous type property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeEqualsMethodSymbol">
            <summary>
            Represents an anonymous type 'Equals' method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeGetHashCodeMethodSymbol">
            <summary>
            Represents an anonymous type 'GetHashCode' method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeToStringMethodSymbol">
            <summary>
            Represents an anonymous type 'ToString' method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol">
            <summary>
            Represents an anonymous type 'template' which is a generic type to be used for all 
            anonymous type having the same structure, i.e. the same number of fields and field names.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.metadataEntityName">
            <summary> Name to be used as metadata name during emit </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.SpecialMembers">
            <summary> This list consists of synthesized method symbols for ToString, 
            Equals and GetHashCode which are not part of symbol table </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.Properties">
            <summary> Properties defined in the template </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.name2symbol">
            <summary> Maps member names to symbol(s) </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.Manager">
            <summary> Anonymous type manager owning this template </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.smallestLocation">
            <summary> Smallest location of the template, actually contains the smallest location 
            of all the anonymous type instances created using this template during EMIT </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.TypeDescriptorKey">
            <summary> Key pf the anonymous type descriptor </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.AdjustLocation(Roslyn.Compilers.CSharp.Location)">
            <summary>
            In emit phase every time a created anonymous type is referenced we try to store the lowest 
            location of the template. It will be used for ordering templates and assigning emitted type names.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeTemplateSymbol.SmallestLocation">
            <summary>
            Smallest location of the template, actually contains the smallest location 
            of all the anonymous type instances created using this template during EMIT;
            
            NOTE: if this property is queried, smallest location must not be null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypePropertySymbol">
            <summary>
            Represents an anonymous type template's property symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PropertySymbol">
            <summary>
            Represents a property or indexer.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.PropertySymbol.lazyParameterSignature">
            <summary>
            As a performance optimization, cache parameter types and refkinds - overload resolution uses them a lot.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PropertySymbol.Accept``2(Roslyn.Compilers.CSharp.SymbolVisitor{``0,``1},``0)">
            <summary>
            Implements visitor pattern.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.Type">
            <summary>
            The type of the property. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.TypeCustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the type of the property. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.Parameters">
            <summary>
            The parameters of this property. If this property has no parameters, returns
            an empty list. Parameters are only present on indexers, or on some properties
            imported from a COM interface.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.ParameterCount">
            <summary>
            Optimization: in many cases, the parameter count (fast) is sufficient and we
            don't need the actual parameter symbols (slow).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.IsIndexer">
            <summary>
            Returns whether the property is really an indexer.
            </summary>
            <remarks>
            In source, we regard a property as an indexer if it is declared with an IndexerDeclarationSyntax.
            From metadata, we regard a property if it has parameters and is a default member of the containing
            type.
            CAVEAT: To ensure that this property (and indexer Names) roundtrip, source properties are not
            indexers if they are explicit interface implementations (since they will not be marked as default
            members in metadata).
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.IsIndexedProperty">
            <summary>
            True if this an indexed property; that is, a property with parameters
            within a [ComImport] type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.IsReadOnly">
            <summary>
            True if this is a read-only property; that is, a property with no set accessor.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.IsWriteOnly">
            <summary>
            True if this is a write-only property; that is, a property with no get accessor.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.HasSpecialName">
            <summary>
            True if this symbol has a special name (metadata flag SpecialName is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.GetMethod">
            <summary>
            The 'get' accessor of the property, or null if the property is write-only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.SetMethod">
            <summary>
            The 'set' accessor of the property, or null if the property is read-only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.OverriddenProperty">
            <summary>
            Returns the overridden property, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.IsExplicitInterfaceImplementation">
            <summary>
            Source: Was the member name qualified with a type name?
            Metadata: Is the member an explicit implementation?
            </summary>
            <remarks>
            Will not always agree with ExplicitInterfaceImplementations.Any()
            (e.g. if binding of the type part of the name fails).
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.ExplicitInterfaceImplementations">
            <summary>
            Returns interface properties explicitly implemented by this property.
            </summary>
            <remarks>
            Properties imported from metadata can explicitly implement more than one property.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertySymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeParameterSymbol">
            <summary>
            Represents an anonymous type template's type parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterSymbol">
            <summary>
            Represents a type parameter in a generic type or generic method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeParameterSymbol.EnsureAllConstraintsAreResolved">
            <summary>
            Called by ConstraintTypes, Interfaces, EffectiveBaseType, and DeducedBaseType
            to allow derived classes to ensure constraints within the containing
            type or method are resolved in a consistent order, regardless of the
            order the callers query individual type parameters.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeParameterSymbol.EnsureAllConstraintsAreResolved(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeParameterSymbol})">
            <summary>
            Helper method to force type parameter constraints to be resolved.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeParameterSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.Ordinal">
            <summary>
            The ordinal position of the type parameter in the parameter list which declares
            it. The first type parameter has ordinal zero.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.ConstraintTypes">
            <summary>
            The types that were directly specified as constraints on the type parameter.
            Duplicates and cycles are removed, although the collection may include
            redundant constraints where one constraint is a base type of another.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.HasConstructorConstraint">
            <summary>
            True if the parameterless constructor constraint was specified for the type parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.IsMethodTypeParameter">
            <summary>
            True if the type parameter was declared by a generic method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.DeclaringMethod">
            <summary>
            The method that declared this type parameter, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.DeclaringType">
            <summary>
            The type that declared this type parameter, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.EffectiveBaseType">
            <summary>
            The effective base class of the type parameter (spec 10.1.5). If the deduced
            base type is a reference type, the effective base type will be the same as
            the deduced base type. Otherwise if the deduced base type is a value type,
            the effective base type will be the most derived reference type from which
            deduced base type is derived.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.EffectiveInterfaces">
            <summary>
            The effective interface set (spec 10.1.5).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.DeducedBaseType">
            <summary>
            The most encompassed type (spec 6.4.2) from the constraints.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSymbol.AllEffectiveInterfaces">
            <summary>
            The effective interface set and any base interfaces of those
            interfaces. This is AllInterfaces excluding interfaces that are
            only implemented by the effective base type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeManager.AnonymousTypeFieldSymbol">
            <summary>
            Represents a baking field for an anonymous type template property symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.FieldSymbol">
            <summary>
            Represents a field in a class, struct or enum
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.Type">
            <summary>
            Gets the type of this field.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.CustomModifiers">
            <summary>
            Gets the list of custom modifiers, if any, associated with the field.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.AssociatedPropertyOrEvent">
            <summary>
            If this field serves as a backing variable for an automatically generated
            property or a field-like event, returns that property/event. Otherwise returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsReadOnly">
            <summary>
            Returns true if this field was declared as "readonly". 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsVolatile">
            <summary>
            Returns true if this field was declared as "volatile". 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsConst">
            <summary>
            Returns true if this field was declared as "const" (i.e. is a constant declaration).
            Also returns true for an enum member.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.HasConstantValue">
            <summary>
            Returns false if the field wasn't declared as "const", or constant value was omitted or erroneous.
            True otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.ConstantValue">
            <summary>
            If IsConst returns true, then returns the constant value of the field or enum member. If IsConst returns
            false, then returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsAbstract">
            <summary>
            Returns false because field can't be abstract.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsExtern">
            <summary>
            Returns false because field can't be defined externally.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsOverride">
            <summary>
            Returns false because field can't be overridden.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsSealed">
            <summary>
            Returns false because field can't be sealed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsVirtual">
            <summary>
            Returns false because field can't be virtual.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.HasSpecialName">
            <summary>
            True if this symbol has a special name (metadata flag SpecialName is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.HasRuntimeSpecialName">
            <summary>
            True if this symbol has a runtime-special name (metadata flag RuntimeSpecialName is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.IsNotSerialized">
            <summary>
            True if this field is not serialized (metadata flag NotSerialized is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.MarshallingInformation">
            <summary>
            Describes how the field is marshalled when passed to native code.
            Null if no specific marshalling information is available for the field.
            </summary>
            <remarks>PE symbols don't provide this information and always return null.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.MarshallingType">
            <summary>
            Returns the marshalling type of this field, or 0 if marshalling information isn't available.
            </summary>
            <remarks>
            By default this information is extracted from <see cref="P:MarshallingInformation"/> if available. 
            Since the compiler does only need to know the marshalling type of symbols that aren't emitted 
            PE symbols just decode the type from metadata and don't provide full marshalling information.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.TypeLayoutOffset">
            <summary>
            Offset assigned to the field when the containing type is laid out by the VM.
            Null if unspecified.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldSymbol.HighestPriorityUseSiteError">
            <summary>
            Return error code that has highest priority while calculating use site error for this symbol. 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AssemblyWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on an assembly.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParameterEarlyWellKnownAttributeData">
            <summary>
            Information early-decoded from well-known custom attributes applied on a parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PropertyEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on a property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ObsoleteAttributeHelpers.InitializeObsoleteDataFromMetadata(Roslyn.Compilers.ObsoleteAttributeData@,Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Initialize the ObsoleteAttributeData by fetching attributes and decoding ObsoleteAttributeData. This can be 
            done for Metadata symbol easily whereas trying to do this for source symbols could result in cycles.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ObsoleteAttributeHelpers.InitializeObsoleteState(Roslyn.Compilers.ThreeState@,Roslyn.Compilers.CustomAttributesBag{Roslyn.Compilers.CSharp.AttributeData})">
            <summary>
            Initializes the ObsoleteState only for the case where there are no attribute on the symbol and when 
            attributes have been stored in the bag.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceParameterSymbolBase">
            <summary>
            Base class for all parameters that are emitted.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedAttributeData">
            <summary>
            Class to represent a synthesized attribute
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceAttributeData">
            <summary>
            Represents a Source custom attribute specification
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeData">
            <summary>
            A Symbol attribute represents a .NET attribute applied to a symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AttributeData.IsTargetAttribute(System.String,System.String)">
            <summary>
            Compares the namespace and type name with the attribute's namespace and type name.
            Returns true if they are the same.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AttributeData.IsTargetEarlyAttribute(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.AttributeSyntax,Roslyn.Compilers.AttributeDescription)">
            <summary>
            Checks if an applied attribute with the given attributeType matches the namespace name and type name of the given early attribute's description
            and the attribute description has a signature with parameter count equal to the given attribute syntax's argument list count.
            NOTE: We don't allow early decoded attributes to have optional parameters.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AttributeData.ToString">
            <summary>
            Returns the System.String that represents the current AttributeData.
            </summary>
            <returns>A System.String that represents the current AttributeData.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AttributeData.DecodePermissionSetAttribute(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.AttributeSyntax,System.Int32,System.Int32,Roslyn.Compilers.DiagnosticBag)">
             <summary>
             Decodes PermissionSetAttribute applied in source to determine if it needs any fixup during codegen.
             </summary>
             <remarks>
             PermissionSetAttribute needs fixup when it contains an assignment to the 'File' property as a single named attribute argument.
             Fixup performed is ported from SecurityAttributes::FixUpPermissionSetAttribute at ndp\clr\src\vm\securityattributes.cpp.
             It involves following steps:
              1) Verifying that the specified file name resolves to a valid path.
              2) Reading the contents of the file into a byte array.
              3) Convert each byte in the file content into two bytes containing hexa-decimal characters.
              4) Replacing the 'File = fileName' named argument with 'Hex = hexFileContent' argument, where hexFileContent is the converted output from step 3) above.
            
             Step 1) is performed in this method, i.e. during binding.
             Remaining steps are performed during serialization as we want to avoid retaining the entire file contents throughout the binding/codegen pass.
             See <see cref="T:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference"/> for remaining fixup steps.
             </remarks>
             <returns>String containing the resolved file path if PermissionSetAttribute needs fixup during codegen, null otherwise.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AttributeData.ShouldEmitAttribute(Roslyn.Compilers.CSharp.Symbol,System.Boolean)">
            <summary>
            This method determines if an applied attribute must be emitted.
            Some attributes appear in symbol model to reflect the source code,
            but should not be emitted.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeData.AttributeClass">
            <summary>
            The attribute class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeData.AttributeConstructor">
            <summary>
            The constructor on the attribute class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeData.ConstructorArguments">
            <summary>
            Constructor arguments on the attribute.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeData.NamedArguments">
            <summary>
            Named (property value) arguments on the attribute. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAttributeData.IsTargetAttribute(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.AttributeDescription)">
            <summary>
            This method finds an attribute by metadata name and signature. The algorithm for signature matching is similar to the one
            in Module.GetTargetAttributeSignatureIndex. Note, the signature matching is limited to primitive types
            and System.Type.  It will not match an arbitrary signature but it is sufficient to match the signatures of the current set of
            well known attributes.
            </summary>
            <param name="targetSymbol">The symbol which is the target of the attribute</param>
            <param name="description">The attribute to match.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAttributeData.GetSystemType(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Gets the System.Type type symbol from targetSymbol's containing assembly.
            </summary>
            <param name="targetSymbol">Target symbol on which this attribute is applied.</param>
            <returns>System.Type type symbol.</returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceAttributeData.ConstructorArgumentsSourceIndices">
            <summary>
            If the <see cref="P:Roslyn.Compilers.CSharp.AttributeData.ConstructorArguments"/> contains any named constructor arguments or default value arguments,
            it returns an array representing each argument's source argument index. A value of -1 indicates default value argument.
            Otherwise, returns null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Compilation">
            <summary>
            The compilation object is an immutable representation of a single invocation of the
            compiler. Although immutable, a compilation is also on-demand, and will realize and cache
            data as necessary. A compilation can produce a new compilation from existing compilation
            with the application of small deltas. In many cases, it is more efficient than creating a
            new compilation from scratch, as the new compilation can reuse information from the old
            compilation.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyWellKnownTypes">
            <summary>
            An array of cached well known types available for use in this Compilation.
            Lazily filled by GetWellKnownType method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyWellKnownTypeMembers">
            <summary>
            Lazy cache of well known members.
            Not yet known value is represented by ErrorTypeSymbol.UnknownResultType
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetWellKnownTypeMember(Roslyn.Compilers.WellKnownMember)">
            <summary>
            Lookup member declaration in well known type used by this Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.SynthesizeAttribute(Roslyn.Compilers.WellKnownMember,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.Common.CommonTypedConstant},Roslyn.Compilers.ReadOnlyArray{System.Collections.Generic.KeyValuePair{System.String,Roslyn.Compilers.Common.CommonTypedConstant}})">
            <summary>
            Synthesizes a custom attribute. 
            Returns null if the <paramref name="constructor"/> symbol is missing and the attribute is synthesized only if present.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.anonymousTypeManager">
            <summary>
            Manages anonymous types declared in this compilation. Unifies types that are structurally equivalent.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyAssemblySymbol">
            <summary>
            The <see cref="T:Roslyn.Compilers.CSharp.SourceAssemblySymbol"/> for this compilation. Do not access directly, use Assembly property
            instead. This field is lazily initialized by AssemblyManager, AssemblyManager.CacheLockObject must be locked
            while AssemblyManager "calculates" the value and assigns it, several threads must not perform duplicate
            "calculation" simultaneously.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyReferencedAssembliesMap">
            <summary>
            A map from a metadata reference to an AssemblySymbol used for it. Do not access
            directly, use ReferencedAssembliesMap property instead. This field is lazily initialized
            by AssemblyManager when it creates SourceAssemblySymbol, AssemblyManager.CacheLockObject
            must be locked while AssemblyManager "calculates" the value and assigns it, several
            threads must not perform duplicate "calculation" simultaneously.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyReferencedModulesMap">
            <summary>
            A map from a net-module metadata reference to a ModuleSymbol used for it. The
            ModuleSymbol is one of the modules contained in m_AssemblySymbol.Modules list. Do not
            access directly, use ReferencedModulesMap property instead. This field is lazily
            initialized by AssemblyManager when it creates SourceAssemblySymbol,
            AssemblyManager.CacheLockObject must be locked while AssemblyManager "calculates" the
            value and assigns it, several threads must not perform duplicate "calculation"
            simultaneously.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyAssemblyManagerDiagnostics">
            <summary>
            reference through AssemblyManagerDiagnostics
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.lazyEntryPoint">
            <summary>
            Contains the main method of this assembly, if there is one.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.Create(System.String,Roslyn.Compilers.CSharp.CompilationOptions,System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxTree},System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference},Roslyn.Compilers.FileResolver,Roslyn.Compilers.MetadataFileProvider)">
            <summary>
            Creates a new compilation from scratch. Methods such as AddSyntaxTrees or AddReferences
            on the returned object will allow to continue building up the Compilation incrementally.
            </summary>
            <param name="outputName">The name of the compilation: file name and extension.  Must be non-null.</param>
            <param name="options">The compiler options to use.</param>
            <param name="syntaxTrees">The syntax trees with the source code for the new compilation.</param>
            <param name="references">The references for the new compilation.</param>
            <param name="fileResolver">Resolves file references for the compilation.</param>
            <param name="metadataFileProvider">Translates a resolved assembly reference path to a path to the file that can be opened by the compiler.</param>
            <returns>A new compilation.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.CreateSubmission(System.String,Roslyn.Compilers.CSharp.CompilationOptions,Roslyn.Compilers.CSharp.SyntaxTree,Roslyn.Compilers.CSharp.Compilation,System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference},Roslyn.Compilers.FileResolver,Roslyn.Compilers.MetadataFileProvider,System.Type,System.Type)">
            <summary>
            Creates a new compilation that can be used in scripting.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.Clone">
            <summary>
            Create a duplicate of this compilation with different symbol instances.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.WithReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation with the specified references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.WithOptions(Roslyn.Compilers.CSharp.CompilationOptions)">
            <summary>
            Creates a new compilation with the specified compilation options.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.WithPreviousSubmission(Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Returns a new compilation with the given compilation set as the previous submission.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetSubmissionResultType(System.Boolean@)">
            <summary>
            Returns the type of the submission return value. 
            </summary>
            <returns>
            The type of the last expression of the submission. 
            Null if the type of the last expression is unknown (null).
            Void type if the type of the last expression statement is void or 
            the submission ends with a declaration or statement that is not an expression statement.
            </returns>
            <remarks>
            Note that the return type is System.Void for both compilations "System.Console.WriteLine();" and "System.Console.WriteLine()", 
            and <paramref name="hasValue"/> is <c>False</c> for the former and <c>True</c> for the latter.
            </remarks>
            <param name="hasValue">True if the submission has value, i.e. if it ends with a statement that is an expression statement.</param>
            <exception cref="T:System.InvalidOperationException">The compilation doesn't represent a submission (<see cref="P:IsSubmission"/> return false).</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.ContainsSyntaxTree(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Returns true if this compilation contains the specified tree.  False otherwise.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AddSyntaxTrees(Roslyn.Compilers.CSharp.SyntaxTree[])">
            <summary>
            Creates a new compilation with additional syntax trees.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AddSyntaxTrees(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxTree})">
            <summary>
            Creates a new compilation with additional syntax trees.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.RemoveSyntaxTrees(Roslyn.Compilers.CSharp.SyntaxTree[])">
            <summary>
            Creates a new compilation without the specified syntax trees. Preserves metadata info for use with trees
            added later. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.RemoveSyntaxTrees(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxTree})">
            <summary>
            Creates a new compilation without the specified syntax trees. Preserves metadata info for use with trees
            added later. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.RemoveAllSyntaxTrees">
            <summary>
            Creates a new compilation without the specified syntax trees. Preserves metadata info
            for use with trees added later. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.ReplaceSyntaxTree(Roslyn.Compilers.CSharp.SyntaxTree,Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Creates a new compilation without the specified syntax trees. Preserves metadata info
            for use with trees added later. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetReferencedAssemblySymbol(Roslyn.Compilers.MetadataReference)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/> for a metadata reference used to create this compilation.
            </summary>
            <returns><see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/> corresponding to the given reference or null if there is none.</returns>
            <remarks>
            Uses object identity when comparing two references. 
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetReferencedModuleSymbol(Roslyn.Compilers.MetadataReference)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.CSharp.ModuleSymbol"/> that represents an added metadata module.
            </summary>
            <returns><see cref="T:Roslyn.Compilers.CSharp.ModuleSymbol"/> corresponding to the given reference or null if there is none.</returns>
            <remarks>
            Note that this method uses <see cref="T:Roslyn.Compilers.MetadataReference"/> object identity when comparing two references. 
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetDirectiveReference(Roslyn.Compilers.CSharp.ReferenceDirectiveTriviaSyntax)">
            <summary>
            Returns a metadata reference that a given #r resolves to.
            </summary>
            <param name="directive">#r directive.</param>
            <returns>Metadata reference the specified directive resolves to.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AddReferences(Roslyn.Compilers.MetadataReference[])">
            <summary>
            Creates a new compilation with additional metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AddReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation with additional metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.RemoveReferences(Roslyn.Compilers.MetadataReference[])">
            <summary>
            Creates a new compilation without the specified metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.RemoveReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation without the specified metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.RemoveAllReferences">
            <summary>
            Creates a new compilation without any metadata references
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.ReplaceReference(Roslyn.Compilers.MetadataReference,Roslyn.Compilers.MetadataReference)">
            <summary>
            Creates a new compilation with an old metadata reference replaced with a new metadata reference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetCompilationNamespace(Roslyn.Compilers.Common.INamespaceSymbol)">
            <summary>
            Given for the specified module or assembly namespace, gets the corresponding compilation
            namespace (merged namespace representation for all namespace declarations and references
            with contributions for the namespaceSymbol).  Can return null if no corresponding
            namespace can be bound in this compilation with the same name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.BindScriptClass">
            <summary>
            Resolves a symbol that represents script container (Script class). Uses the
            full name of the container class stored in <see cref="P:CommonCompilationOptions.ScriptClassName"/> to find the symbol.
            </summary>
            <returns>The Script class symbol or null if it is not defined.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Get the symbol for the predefined type from the COR Library referenced by this compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetSpecialTypeMember(Roslyn.Compilers.SpecialMember)">
            <summary>
            Get the symbol for the predefined type member from the COR Library referenced by this compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetTypeByMetadataName(System.String)">
            <summary>
            Gets the type within the compilation's assembly and all referenced assemblies
            using its canonical CLR metadata name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.CreateArrayTypeSymbol(Roslyn.Compilers.CSharp.TypeSymbol,System.Int32)">
            <summary>
            Returns a new ArrayTypeSymbol representing an array type tied to the base types of the
            COR Library in this Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.CreatePointerTypeSymbol(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Returns a new PointerTypeSymbol representing a pointer type tied to a type in this Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetSemanticModel(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Gets a new SyntaxTreeSemanticModel for the specified syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetImports(Roslyn.Compilers.CSharp.SingleNamespaceDeclaration)">
            <summary>
            Returns imported symbols for the given declaration.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetParseDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets the diagnostics produced during the parsing stage of a compilation. There are no diagnostics for declarations or accessor or
            method bodies, for example.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetDeclarationDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets the diagnostics produced during symbol declaration headers.  There are no diagnostics for accessor or
            method bodies, for example.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets the all the diagnostics for the compilation, including syntax, declaration, and binding. Does not
            include any diagnostics that might be produced during emit.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.Emit(System.IO.Stream,System.String,System.String,System.IO.Stream,System.IO.Stream,System.Threading.CancellationToken,System.IO.Stream,System.Collections.Generic.IEnumerable{Roslyn.Compilers.ResourceDescription})">
            <summary>
            Emit the IL for the compilation into the specified stream.
            </summary>
            <param name="outputStream">Stream to which the compilation will be written.</param>
            <param name="outputName">Name of the compilation: file name and extension.  Null to use the existing output name.
            CAUTION: If this is set to a (non-null) value other than the existing compilation output name, then internals-visible-to
            and assembly references may not work as expected.  In particular, things that were visible at bind time, based on the 
            name of the compilation, may not be visible at runtime and vice-versa.
            </param>
            <param name="pdbFileName">The name of the PDB file - embedded in the output.  Null to infer from the stream or the compilation.
            Ignored unless pdbStream is non-null.
            </param>
            <param name="pdbStream">Stream to which the compilation's debug info will be written.  Null to forego PDB generation.</param>
            <param name="xmlDocStream">Stream to which the compilation's XML documentation will be written.  Null to forego XML generation.</param>
            <param name="cancellationToken">To cancel the emit process.</param>
            <param name="win32ResourcesInRESFormat">Stream from which the compilation's Win32 resources will be read (in RES format).  
            Null to indicate that there are none.</param>
            <param name="manifestResources">List of the compilation's managed resources.  Null to indicate that there are none.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.Emit(System.String,System.String,System.String,System.Threading.CancellationToken,System.String,System.Collections.Generic.IEnumerable{Roslyn.Compilers.ResourceDescription})">
            <summary>
            Emit the IL for the compilation into the specified stream.
            </summary>
            <param name="outputPath">Path of the file to which the compilation will be written.</param>
            <param name="pdbPath">Path of the file to which the compilation's debug info will be written.
            Also embedded in the output file.  Null to forego PDB generation.
            </param>
            <param name="xmlDocPath">Path of the file to which the compilation's XML documentation will be written.  Null to forego XML generation.</param>
            <param name="cancellationToken">To cancel the emit process.</param>
            <param name="win32ResourcesInRESFormatPath">Path of the file from which the compilation's Win32 resources will be read (in RES format).  
            Null to indicate that there are none.</param>
            <param name="manifestResources">List of the compilation's managed resources.  Null to indicate that there are none.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.EmitMetadataOnly(System.IO.Stream,System.String,System.IO.Stream,System.Threading.CancellationToken)">
            <summary>
            Emits the IL for the symbol declarations into the specified stream.  Useful for emitting information for
            cross-language modeling of code.  This emits what it can even if there are errors.
            </summary>
            <param name="metadataStream">Stream to which the compilation's metadata will be written.</param>
            <param name="outputName">Name of the compilation: file name and extension.  Null to use the existing output name.
            CAUTION: If this is set to a (non-null) value other than the existing compilation output name, then internals-visible-to
            and assembly references may not work as expected.  In particular, things that were visible at bind time, based on the 
            name of the compilation, may not be visible at runtime and vice-versa.
            </param>
            <param name="xmlDocStream">Stream to which the compilation's XML documentation will be written.  Null to forego XML generation.</param>
            <param name="cancellationToken">To cancel the emit process.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.Emit(System.IO.Stream,System.String,System.String,System.IO.Stream,System.IO.Stream,System.Threading.CancellationToken,System.IO.Stream,System.Collections.Generic.IEnumerable{Roslyn.Compilers.ResourceDescription},System.Boolean,Roslyn.Compilers.CodeGen.CompilationTestData,System.Boolean)">
            <summary>
            This overload is only intended to be directly called by tests that want to pass an ilBuilderMap.
            The map is used for storing a list of methods and their associated IL.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.Emit(System.Reflection.Emit.ModuleBuilder,Roslyn.Compilers.IAssemblyLoader,System.Func{Roslyn.Compilers.CSharp.AssemblySymbol,Roslyn.Compilers.AssemblyIdentity},System.Threading.CancellationToken)">
            <summary>
            Emits the compilation into given <see cref="T:System.Reflection.Emit.ModuleBuilder"/> using Reflection.Emit APIs.
            </summary>
            <param name="moduleBuilder">
            The module builder to add the types into. Can be reused for multiple compilation units.
            </param>
            <param name="assemblyLoader">
            Loads an assembly given an <see cref="T:Roslyn.Compilers.AssemblyIdentity"/>. 
            This callback is used for loading assemblies referenced by the compilation.
            <see cref="M:System.Reflection.Assembly.Load(System.Reflection.AssemblyName)"/> is used if not specified.
            </param>
            <param name="assemblySymbolMapper">
            Applied when converting assembly symbols to assembly references.
            <see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/> is mapped to its <see cref="P:Roslyn.Compilers.CSharp.AssemblySymbol.Identity"/> by default.
            </param>
            <param name="cancellationToken">Can be used to cancel the emit process.</param>
            <returns>
            An instance of <see cref="T:Roslyn.Compilers.CSharp.ReflectionEmitResult"/> that indicates whether or not the call succeeded and includes the list of errors
            and the entry point if there is any.
            </returns>
            <remarks>
            Reflection.Emit doesn't support all metadata constructs. If an unsupported construct is
            encountered a metadata writer that procudes uncollectible code is used instead. This is
            indicated by 
            <see cref="P:CommonReflectionEmitResult.IsUncollectible"/> flag on the result. 
            
            Reusing <see cref="T:System.Reflection.Emit.ModuleBuilder"/> may be beneficial in certain
            scenarios. For example, when emitting a sequence of code snippets one at a time (like in
            REPL). All the snippets can be compiled into a single module as long as the types being
            emitted have unique names. Reusing a single module/assembly reduces memory overhead. On
            the other hand, collectible assemblies are units of collection. Defining too many
            unrelated types in a single assemly might prevent the unused types to be collected. 
            
            No need to provide a name override when using Reflection.Emit, since the assembly already
            exists.
            </remarks>
            <exception cref="T:System.InvalidOperationException">Referenced assembly can't be resolved.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AddObsoleteSymbol(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Add the given symbol, node and containingSymbol to a queue to be processed later.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.GetObsoleteContextState(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            This method checks to see if the given symbol is Obsolete or if any symbol in the parent hierarchy is Obsolete.
            </summary>
            <returns>
            True if some symbol in the parent hierarchy is known to be Obsolete. Unknown if any
            symbol's Obsoleteness is Unknown. False, if we are certain that no symbol in the parent
            hierarchy is Obsolete.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AddObsoleteDiagnostic(Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Create a diagnostic for the given symbol. This could be an error or a warning based on
            the ObsoleteAttribute's arguments.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.ReportObsoleteDiagnostics(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Process the queue of stored symbols and report Obsolete diagnostics for them (if applicable).
            </summary>
            <param name="diagnostics"></param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.Options">
            <summary>
            The options the compilation was created with. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.SyntaxTrees">
            <summary>
            The syntax trees (parsed from source code) that this compilation was created with.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.ReferenceDirectives">
            <summary>
            All reference directives used in this compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.SourceAssembly">
            <summary>
            The AssemblySymbol that represents the assembly being created.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.Assembly">
            <summary>
            The AssemblySymbol that represents the assembly being created.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.SourceModule">
            <summary>
            Get a ModuleSymbol that refers to the module being created by compiling all of the code.
            By getting the GlobalNamespace property of that module, all of the namespaces and types
            defined in source code can be obtained.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.GlobalNamespace">
            <summary>
            Gets the root namespace that contains all namespaces and types defined in source code or in 
            referenced metadata, merged into a single namespace hierarchy.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.ScriptClass">
            <summary>
            A symbol representing the implicit Script class. This is null if the class is not
            defined in the compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.DynamicType">
            <summary>
            The TypeSymbol for the type 'dynamic' in this Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.ObjectType">
            <summary>
            The NamedTypeSymbol for the .NET System.Object type, which could have a TypeKind of
            Error if there was no COR Library in this Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Compilation.SemanticDiagnostics">
            <summary>
            The bag in which semantic analysis should deposit its diagnostics.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Compilation.AssemblyManager">
            <summary>
            AssemblyManager encapsulates functionality to create an underlying SourceAssemblySymbol 
            (with underlying ModuleSymbols) for Compilation and AssemblySymbols for referenced
            assemblies (with underlying ModuleSymbols) all properly linked together based on
            reference resolution between them.
            
            AssemblyManager is also responsible for reuse of metadata readers for imported modules
            and assemblies as well as existing AssemblySymbols for referenced assemblies. In order
            to do that, it maintains global cache for metadata readers and AssemblySymbols
            associated with them. The cache uses WeakReferences to refer to the metadata readers and
            AssemblySymbols to allow memory and resources being reclaimed once they are no longer
            used. The tricky part about reusing existing AssemblySymbols is to find a set of
            AssemblySymbols that are created for the referenced assemblies, which (the
            AssemblySymbols from the set) are linked in a way, consistent with the reference
            resolution between the referenced assemblies.
            
            When existing Compilation is used as a metadata reference, there are scenarios when its
            underlying SourceAssemblySymbol cannot be used to provide symbols in context of the new
            Compilation. Consider classic multi-targeting scenario: compilation C1 references v1 of
            Lib.dll and compilation C2 references C1 and v2 of Lib.dll. In this case,
            SourceAssemblySymbol for C1 is linked to AssemblySymbol for v1 of Lib.dll. However,
            given the set of references for C2, the same reference for C1 should be resolved against
            v2 of Lib.dll. In other words, in context of C2, all types from v1 of Lib.dll leaking
            through C1 (through method signatures, etc.) must be retargeted to the types from v2 of
            Lib.dll. In this case, AssemblyManager creates a special RetargetingAssemblySymbol for
            C1, which is responsible for the type retargeting. The RetargetingAssemblySymbols could
            also be reused for different Compilations, AssemblyManager maintains a cache of
            RetargetingAssemblySymbols (WeakReferences) for each Compilation.
            
            The only public entry point of this class is CreateSourceAssembly() method.
            
            TODO: Comment on CorLibrary.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AssemblyManager.CheckPropertiesConsistency(Roslyn.Compilers.MetadataReference,Roslyn.Compilers.MetadataReference,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Checks if the properties of <paramref name="duplicateReference"/> are compatible with properties of <paramref name="primaryReference"/>.
            Reports inconsistencies to the given diagnostic bag.
            </summary>
            <returns>True if the properties are compatible and hence merged, false if the duplicate reference should not merge it's properties with primary reference.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AssemblyManager.WeakIdentityPropertiesEquivalent(Roslyn.Compilers.AssemblyIdentity,Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            C# only considers culture when comparing weak identities.
            It ignores versions of weak identities and reports an error if there are two weak assembly 
            references passed to a compilation that have the same simple name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AssemblyManager.IsSourceAssemblySymbolCreated(Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            For testing purposes only.
            </summary>
            <param name="compilation"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AssemblyManager.IsReferencedAssembliesMapCreated(Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            For testing purposes only.
            </summary>
            <param name="compilation"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compilation.AssemblyManager.IsReferencedModulesMapCreated(Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            For testing purposes only.
            </summary>
            <param name="compilation"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Compilation.PossiblyObsoleteSymbolData">
            <summary>
            This structure encapsulates information needed to report Obsolete diagnostics for a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.PossiblyObsoleteSymbolData.Symbol">
            <summary>
            The symbol for which Obsolete diagnostics will be reported, if the symbol is Obsolete.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.PossiblyObsoleteSymbolData.Node">
            <summary>
            The syntax node for which diagnostics will be issued.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Compilation.PossiblyObsoleteSymbolData.ContainingSymbol">
            <summary>
            The context in which this symbol appears. If the ContainingSymbol itself is Obsolete (or a symbol in it's
            parent hierarchy) then we should suppress reporting Obsolete diagnostics for the given symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingCorLibrarySymbol">
            <summary>
            AssemblySymbol to represent missing, for whatever reason, CorLibrary.
            The symbol is created by AssemblyManager on as needed basis and is shared by all compilations
            with missing CorLibraries.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingAssemblySymbol">
            <summary>
            A <see cref="T:Roslyn.Compilers.CSharp.MissingAssemblySymbol"/> is a special kind of <see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/> that represents
            an assembly that couldn't be found.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AssemblySymbol">
            <summary>
            Represents a .NET assembly, consisting of one or more modules.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AssemblySymbol.corLibrary">
            <summary>
            The system assembly, which provides primitive types like Object, String, etc., think mscorlib.dll. 
            The value is provided by AssemblyManager and must not be modified. For SourceAssemblySymbol, non-missing 
            coreLibrary must match one of the referenced assemblies returned by GetReferencedAssemblySymbols() method of 
            the main module. If there is no existing assembly that can be used as a source for the primitive types, 
            the value is a Compilation.MissingCorLibrary. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.SetCorLibrary(Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            A helper method for AssemblyManager to set the system assembly, which provides primitive 
            types like Object, String, etc., think mscorlib.dll. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.LookupTopLevelMetadataType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a top level type referenced from metadata, names should be
            compared case-sensitively.
            </summary>
            <param name="emittedName">
            Full type name with generic name mangling.
            </param>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.LookupAssemblyForForwardedMetadataType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Look up the assembly to which the given metadata type is forwarded.
            </summary>
            <param name="emittedName"></param>
            <returns>
            The assembly to which the given type is forwarded or null, if there isn't one.
            </returns>
            <remarks>
            The returned assembly may also forward the type.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetDeclaredSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Lookup declaration for predefined CorLib type in this Assembly.
            </summary>
            <param name="type"></param>
            <returns></returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.RegisterDeclaredSpecialType(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Register declaration of predefined CorLib type in this Assembly.
            </summary>
            <param name="corType"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetNoPiaResolutionAssemblies">
            <summary>
            Return an array of assemblies involved in canonical type resolution of
            NoPia local types defined within this assembly. In other words, all 
            references used by previous compilation referencing this assembly.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetLinkedReferencedAssemblies">
            <summary>
            Return an array of assemblies referenced by this assembly, which are linked (/l-ed) by 
            each compilation that is using this AssemblySymbol as a reference. 
            If this AssemblySymbol is linked too, it will be in this array too.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Gets the symbol for the pre-defined type from core library associated with this assembly.
            </summary>
            <returns>The symbol for the pre-defined type or null if the type is not defined in the core library.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetPrimitiveType(Microsoft.Cci.PrimitiveTypeCode)">
            <summary>
            Get symbol for predefined type from Cor Library used by this assembly.
            </summary>
            <param name="type"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetTypeByMetadataName(System.String)">
            <summary>
            Lookup a type within the assembly using the canonical CLR metadata name of the type.
            </summary>
            <param name="metadataName">Type name.</param>
            <returns>Symbol for the type or null if type cannot be found or is ambiguous. </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetTypeByMetadataName(System.String,System.Boolean,System.Boolean)">
            <summary>
            Lookup a type within the assembly using its canonical CLR metadata name.
            </summary>
            <param name="metadataName"></param>
            <param name="includeReferences">
            If search within assembly fails, lookup in assemblies referenced by the primary module.
            For source assembly, this is equivalent to all assembly references given to compilation.
            </param>
            <param name="useCLSCompliantNameArityEncoding">
            While resolving the name, consider only types following CLS-compliant generic type names and arity encoding (ECMA-335, section 10.7.2).
            I.e. arity is inferred from the name and matching type must have the same emitted name and arity.
            </param>
            <returns>Null if the type can't be found.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetTypeByReflectionType(System.Type,System.Boolean)">
            <summary>
            Resolves <see cref="T:System.Type"/> to a <see cref="T:Roslyn.Compilers.CSharp.TypeSymbol"/> available in this assembly
            its referenced assemblies.
            </summary>
            <param name="type">The type to resolve.</param>
            <param name="includeReferences">Use referenced assemblies for resolution.</param>
            <returns>The resolved symbol if successful or null on failure.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetDeclaredSpecialTypeMember(Roslyn.Compilers.SpecialMember)">
            <summary>
            Lookup member declaration in predefined CorLib type in this Assembly. Only valid if this 
            assembly is the Cor Library
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AssemblySymbol.GetSpecialTypeMember(Roslyn.Compilers.SpecialMember)">
            <summary>
            Lookup member declaration in predefined CorLib type used by this Assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.CorLibrary">
            <summary>
            The system assembly, which provides primitive types like Object, String, etc., think mscorlib.dll. 
            The value is MissingAssemblySymbol if none of the referenced assemblies can be used as a source for the 
            primitive types and the owning assembly cannot be used as the source too. Otherwise, it is one of 
            the referenced assemblies returned by GetReferencedAssemblySymbols() method or the owning assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.BaseName">
            <summary>
            Get the base name of the assembly. This is equivalent to AssemblyName.Name, but may be 
            much faster to retrieve for source code assemblies, since it does not require binding
            the assembly-level attributes that contain the version number and other assembly
            information.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.Identity">
            <summary>
            Gets the identity of this assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.GlobalNamespace">
            <summary>
            Gets the merged root namespace that contains all namespaces and types defined in the modules
            of this assembly. If there is just one module in this assembly, this property just returns the 
            GlobalNamespace of that module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.Modules">
            <summary>
            Gets a read-only list of all the modules in this assembly. (There must be at least one.) The first one is the main module
            that holds the assembly manifest.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.IsMissing">
            <summary>
            Does this symbol represent a missing assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.IsInteractive">
            <summary>
            True if the assembly contains interactive code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.KeepLookingForDeclaredSpecialTypes">
            <summary>
            Continue looking for declaration of predefined CorLib type in this Assembly
            while symbols for new type declarations are constructed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.IsLinked">
            <summary>
            Assembly is /l-ed by compilation that is using it as a reference.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.TypeNames">
            <summary>
            Gets the set of type identifiers from this assembly.
            </summary>
            <remarks>
            These names are the simple identifiers for the type, and do not include namespaces,
            outer type names, or type parameters.
            
            This functionality can be used for features that want to quickly know if a name could be
            a type for performance reasons.  For example, classification does not want to incur an
            expensive binding call cost if it knows that there is no type with the name that they
            are looking at.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.NamespaceNames">
            <summary>
            Gets the set of namespace names from this assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.MightContainExtensionMethods">
            <summary>
            Returns true if this assembly might contain extension methods. If this property
            returns false, there are no extension methods in this assembly.
            </summary>
            <remarks>
            This property allows the search for extension methods to be narrowed quickly.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AssemblySymbol.ObjectType">
            <summary>
            The NamedTypeSymbol for the .NET System.Object type, which could have a TypeKind of
            Error if there was no COR Library in a compilation using the assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MissingCorLibrarySymbol.lazySpecialTypes">
            <summary>
            An array of cached Cor types defined in this assembly.
            Lazily filled by GetDeclaredSpecialType method.
            </summary>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MissingCorLibrarySymbol.GetDeclaredSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Lookup declaration for predefined CorLib type in this Assembly. Only should be
            called if it is know that this is the Cor Library (mscorlib).
            </summary>
            <param name="type"></param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol">
            <summary>
            A source parameter, potentially with a default value, attributes, etc.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceParameterSymbol">
            <summary>
            Base class for parameters can be referred to from source code.
            </summary>
            <remarks>
            These parameters can potentially be targetted by an attribute specified in source code. 
            As an optimization we distinguish simple parameters (no attributes, no modifiers, etc.) and complex parameters.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceParameterSymbol.HasOptionalAttribute">
            <summary>
            True if the parameter is marked by <see cref="T:System.Runtime.InteropServices.OptionalAttribute"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceParameterSymbol.HasDefaultArgumentSyntax">
            <summary>
            True if the parameter has default argument syntax.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.GetAttributeDeclarations">
            <summary>
            Gets the syntax list of custom attributes that declares atributes for this parameter symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.GetEarlyDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from special early bound well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.BoundAttributesSource">
            <summary>
            Symbol to copy bound attributes from, or null if the attributes are not shared among multiple source parameter symbols.
            </summary>
            <remarks>
            Used for parameters of partial implementation. We bind the attributes only on the definition
            part and copy them over to the implementation.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.HasDefaultArgumentSyntax">
            <summary>
            True if the parameter has default argument syntax.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceComplexParameterSymbol.HasOptionalAttribute">
            <summary>
            True if the parameter is marked by <see cref="T:System.Runtime.InteropServices.OptionalAttribute"/>.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceEventAccessorSymbol">
            <summary>
            Base class for event accessors - synthesized and user defined.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceFieldSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceFieldSymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourceFieldSymbol.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceFieldSymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceFieldSymbol.GetEarlyDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from special early bound well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceFieldSymbol.DocumentationCommentProvider">
            <summary>
            Returns the syntax node that might be annotated by a doc comment.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceFieldSymbol.AttributeDeclarationSyntaxList">
            <summary>
            Gets the syntax list of custom attributes applied on the symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceFieldSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute. 
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceFieldSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceSimpleParameterSymbol">
            <summary>
            A source parameter that has no default value, no attributes,
            and is not params.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceClonedParameterSymbol">
            <summary>
            Represents a source parameter cloned from another <see cref="T:Roslyn.Compilers.CSharp.SourceParameterSymbol"/>, when they must share attribute data and default constant value.
            For example, parameters on a property symbol are cloned to generate parameters on accessors.
            Similarly parameters on delegate invoke method are cloned to delegate begin/end invoke methods.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedAccessorValueParameterSymbol">
            <summary>
            Represents the compiler generated value parameter for property/event accessor.
            This parameter has no source location/syntax, but may have attributes.
            Attributes with 'param' target specifier on the accessor must be applied to the this parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedLocal">
            <summary>
            A synthesized local variable.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LocalSymbol">
            <summary>
            Represents a local variable in a method body.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.Type">
            <summary>
            Gets the type of this local.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsPinned">
            <summary>
            WARN WARN WARN: If you access this via the semantic model, things will break (since the initializer may not have been bound).
            
            Whether or not this local is pinned (i.e. the type will be emitted with the "pinned" modifier).
            </summary>
            <remarks>
            Superficially, it seems as though this should always be the same as DeclarationKind == LocalDeclarationKind.Fixed.
            Unfortunately, when we fix a string expression, it is not the declared local (e.g. char*) but a synthesized temp (string)
            that is pinned.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsExtern">
            <summary>
            Returns false because local variable can't be defined externally.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsSealed">
            <summary>
            Returns false because local variable can't be sealed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsAbstract">
            <summary>
            Returns false because local variable can't be abstract.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsOverride">
            <summary>
            Returns false because local variable can't be overridden.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsVirtual">
            <summary>
            Returns false because local variable can't be virtual.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsStatic">
            <summary>
            Returns false because local variable can't be declared as static in C#.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.DeclaredAccessibility">
            <summary>
            Returns 'NotApplicable' because local variable can't be used outside the member body..
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.ContainingSymbol">
            <summary>
            Gets the immediately containing symbol of the <see cref="T:Roslyn.Compilers.CSharp.LocalSymbol"/>.
            It should be the member symbol containing this local variable in its body; such as <see cref="T:Roslyn.Compilers.CSharp.MethodSymbol"/>. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.Kind">
            <summary>
            Returns value 'Local' of the <see cref="T:Roslyn.Compilers.CSharp.SymbolKind"/>
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsCatch">
            <summary>
            Returns true if this local variable was declared in a catch clause. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsConst">
            <summary>
            Returns true if this local variable was declared as "const" (i.e. is a constant declaration).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsUsing">
            <summary>
            Returns true if the local variable is declared in resource-acquisition of a 'using statement';
            otherwise false
            </summary>
            <exmaple>
            <code>
                using (var localVariable = new StreamReader("C:\\Temp\\MyFile.txt")) { ... } 
            </code>
            </exmaple>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsFixed">
            <summary>
            Returns true if the local variable is declared in fixed-pointer-initializer (in unsafe context)
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsFor">
            <summary>
            Returns true if this local variable is declared in for-initializer
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsForEach">
            <summary>
            Returns true if this local variable is declared as iteration variable
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.IsWriteable">
            <summary>
            Returns false if <see ref="LocalSymbol.IsUsing" />, <see ref="LocalSymbol.IsFixed" />,
            <see ref="LocalSymbol.IsFor" />, <see ref="LocalSymbol.IsForEach" /> or 
            <see ref="LocalSymbol.IsConst" /> return true
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.HasConstantValue">
            <summary>
            Returns false if the field wasn't declared as "const", or constant value was omitted or erroneous.
            True otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalSymbol.ConstantValue">
            <summary>
            If IsConst returns true, then returns the constant value of the field or enum member. If IsConst returns
            false, then returns null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedCapturedVariable">
            <summary>
            A field of a frame class that represents a variable that has been captured in a lambda or iterator.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedFieldSymbol">
            <summary>
            Represents a compiler generated field of given type and name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ControlFlowPass.Analyze(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.BoundNode,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Perform control flow analysis, reporting all necessary diagnostics.  Returns true if the end of
            the body might be reachable..
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ControlFlowPass.Analyze(System.Boolean@,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Analyze the body, reporting all necessary diagnostics.  Returns true if the end of the
            body might be reachable.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ControlFlowPass.LocalState.Clone">
            <summary>
            Produce a duplicate of this flow analysis state.
            </summary>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.RegionAnalysisContext">
            <summary>
            Represents region analysis context attributes such as compilation, region, etc...
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.RegionAnalysisContext.Compilation">
            <summary> Compilation to use </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.RegionAnalysisContext.Method">
            <summary> Method symbol if available, null otherwise </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.RegionAnalysisContext.BoundNode">
            <summary> Bound node, not null </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.RegionAnalysisContext.FirstInRegion">
            <summary> Region to be used </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.RegionAnalysisContext.LastInRegion">
            <summary> Region to be used </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.RegionAnalysisContext.Failed">
            <summary> True if the input was bad, such as no first and last nodes </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.RegionAnalysisContext.#ctor(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.BoundNode,Roslyn.Compilers.CSharp.BoundNode,Roslyn.Compilers.CSharp.BoundNode)">
            <summary>
            Construct context
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractRegionDataFlowPass.Scan(System.Boolean@)">
            <summary>
            To scan the whole body, we start outside (before) the region.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AlwaysAssignedWalker">
            <summary>
            A region analysis walker that computes the set of variables that are always assigned a value
            in the region. A variable is "always assigned" in a region if an analysis of the region that
            starts with the variable unassigned ends with the variable assigned.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DataFlowsInWalker">
            <summary>
            A region analysis walker that computes the set of variables whose values flow into (are used
            in) the region. A variable assigned outside is used inside if an analysis that leaves the
            variable unassigned on entry to the region would cause the generation of "unassigned" errors
            within the region.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DataFlowsOutWalker">
            <summary>
            A region analysis walker that computes the set of variables for
            which their assigned values flow out of the region.
            A variable assigned inside is used outside if an analysis that
            treats assignments in the region as unassigning the variable would
            cause "unassigned" errors outside the region.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.EntryPointsWalker">
            <summary>
            A region analysis walker that records jumps into the region.  Works by overriding NoteBranch, which is
            invoked by a superclass when the two endpoints of a jump have been identified.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExitPointsWalker">
            <summary>
            A region analysis walker that records jumps out of the region.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ReadWriteWalker">
            <summary>
            A region analysis walker that records reads and writes of all variables, both inside and outside the region.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.RegionReachableWalker">
            <summary>
            A region analysis walker that computes whether or not the region completes normally.  It does this by determining
            if the point at which the region ends is reachable.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DataFlowAnalysis">
            <summary>
            This class implements the region data flow analysis operations.  Region data flow analysis
            provides information how data flows into and out of a region.  The analysis is done lazily.
            When created, it performs no analysis, but simply caches the arguments. Then, the first time
            one of the analysis results is used it computes that one result and caches it. Each result
            is computed using a custom algorithm.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.VariablesDeclared">
            <summary>
            A collection of the local variables that are declared within the region. Note that the region must be
            bounded by a method's body or a field's initializer, so method parameter symbols are never included
            in the result, but lambda parameters might appear in the result.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.DataFlowsIn">
            <summary>
            A collection of the local variables for which a value assigned outside the region may be used inside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.DataFlowsOut">
            <summary>
            A collection of the local variables for which a value assigned inside the region may be used outside the region.
            Note that every reachable assignment to a ref or out variable will be included in the results.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.AlwaysAssigned">
            <summary>
            A collection of the local variables for which a value is always assigned inside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.ReadInside">
            <summary>
            A collection of the local variables that are read inside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.WrittenInside">
            <summary>
            A collection of local variables that are written inside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.ReadOutside">
            <summary>
            A collection of the local variables that are read outside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.WrittenOutside">
            <summary>
            A collection of local variables that are written outside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.Captured">
            <summary>
            A collection of the non-constant local variables and parameters that have been referenced in anonymous functions
            and therefore must be moved to a field of a frame class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.UnsafeAddressTaken">
            <summary>
            A collection of the non-constant local variables and parameters that have had their address (or the address of one
            of their fields) taken using the '&amp;' operator.
            </summary>
            <remarks>
            If there are any of these in the region, then a method should not be extracted.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DataFlowAnalysis.Succeeded">
            <summary>
            Returns true iff analysis was successful.  Analysis can fail if the region does not properly span a single expression,
            a single statement, or a contiguous series of statements within the enclosing block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.UnassignedVariablesWalker">
            <summary>
            An analysis that computes the set of variables that may be used
            before being assigned anywhere within a method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.VariablesDeclaredWalker">
            <summary>
            A region analysis walker that records declared variables.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LambdaRewriter">
            <summary>
            The rewriter for removing lambda expressions from method bodies and introducing closure classes
            as containers for captured variables along the lines of the example in section 6.5.3 of the
            C# language specification.
            
            The entry point is the public method Rewrite.  It operates as follows:
            
            First, an analysis of the whole method body is performed that determines which variables are
            captured, what their scopes are, and what the nesting relationship is between scopes that
            have captured variables.  The result of this analysis is left in LambdaRewriter.analysis.
            
            Then we make a frame, or compiler-generated class, represented by an instance of
            LambdaRewriter.Frame for each scope with captured variables.  The generated frames are kept
            in LambdaRewriter.frames.  Each frame is given a single field for each captured
            variable in the corresponding scope.  These are are maintained in LambdaRewriter.proxies.
            
            Finally, we walk and rewrite the input bound tree, keeping track of the following:
            (1) The current set of active frame pointers, in LambdaRewriter.framePointers
            (2) The current method being processed (this changes within a lambda's body), in LambdaRewriter.currentMethod
            (3) The "this" symbol for the current method in LambdaRewriter.currentFrameThis, and
            (4) The symbol that is used to access the innermost frame pointer (it could be a local variable or "this" parameter)
            
            There are a few key transformations done in the rewriting.
            (1) Lambda expressions are turned into delegate creation expressions, and the body of the lambda is
                moved into a new, compiler-generated method of a selected frame class.
            (2) On entry to a scope with captured variables, we create a frame object and store it in a local variable.
            (3) References to captured variables are transformed into references to fields of a frame class.
            
            In addition, the rewriting deposits into the field LambdaRewriter.generatedMethods a (MethodSymbol, BoundStatement)
            pair for each generated method.
            
            LambdaRewriter.Rewrite produces its output in two forms.  First, it returns a new bound statement
            for the caller to use for the body of the original method.  Second, it returns a collection of
            (MethodSymbol, BoundStatement) pairs for additional method that the lambda rewriter produced.
            These additional methods contain the bodies of the lambdas moved into ordinary methods of their
            respective frame classes, and the caller is responsible for processing them just as it does with
            the returned bound node.  For example, the caller will typically perform iterator method and
            asynchronous method transformations, and emit IL instructions into an assembly.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.Rewrite(Roslyn.Compilers.CSharp.BoundStatement,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.TypeCompilationState,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.LambdaRewriter.Analysis)">
            <summary>
            Rewrite the given node to eliminate lambda expressions.  Also returned are the method symbols and their
            bound bodies for the extracted lambda bodies. These would typically be emitted by the caller such as
            MethodBodyCompiler.  See this class' documentation
            for a more thorough explanation of the algorithm and its use by clients.
            </summary>
            <param name="node">The bound node to be rewritten</param>
            <param name="method">The containing method of the node to be rewritten</param>
            <param name="compilationState">The caller's buffer into which we produce additional methods to be emitted by the caller</param>
            <param name="diagnostics">Diagnostic bag for diagnostics</param>
            <param name="analysis">A caller-provided analysis of the node's lambdas</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.MakeFrames">
            <summary>
            Create the frame types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.FrameOfType(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Produce a bound expression representing a pointer to a frame of a particular frame type.
            </summary>
            <param name="syntax">The syntax to attach to the bound nodes produced</param>
            <param name="frameType">The type of frame to be returned</param>
            <returns>A bound node that computes the pointer to the required frame</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.FramePointer(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Produce a bound expression representing a pointer to a frame of a particular frame class.
            Note that for generic frames, the frameClass parameter is the generic definition, but
            the resulting expression will be constructed with the current type parameters.
            </summary>
            <param name="syntax">The syntax to attach to the bound nodes produced</param>
            <param name="frameClass">The class type of frame to be returned</param>
            <returns>A bound node that computes the pointer to the required frame</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.IntroduceFrame``1(Roslyn.Compilers.CSharp.BoundNode,Roslyn.Compilers.CSharp.LambdaRewriter.LambdaFrame,System.Func{Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.BoundStatement},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.LocalSymbol},``0})">
            <summary>
            Introduce a frame around the translation of the given node.
            </summary>
            <param name="node">The node whose translation should be translated to contain a frame</param>
            <param name="frame">The frame for the translated node</param>
            <param name="F">A function that computes the translation of the node.  It receives lists of added statements and added symbols</param>
            <returns>The translated statement, as returned from F</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.BlockDepth(Roslyn.Compilers.CSharp.BoundNode)">
            <summary>
            Compute the nesting depth of a given block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis">
            <summary>
            Perform a first analysis pass in preparation for removing all lambdas from a method body.  The entry point is Analyze.
            The results of analysis are placed in the fields seenLambda, blockParent, variableBlock, captured, and captures.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.seenLambda">
            <summary>
            Set to true of any lambda expressions were seen in the analyzed method body.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.blockParent">
            <summary>
            For each statement that defines variables, identifies the nearest enclosing statement that defines variables.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.variableBlock">
            <summary>
            For each captured variable, identifies the statement in which it will be moved to a frame class.  This is
            normally the block where the variable is introduced, but method parameters are moved
            to a frame class within the body of the method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.needsParentFrame">
            <summary>
            Blocks that are positioned between a block declaring some lifted variables
            and a block that contains the lambda that lifts said variables.
            If such block itself requires a closure, then it must lift parent frame pointer into the closure
            in addition to whatever else needs to be lifted.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.captured">
            <summary>
            The set of captured variables seen in the method body.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.capturedSyntax">
            <summary>
            The syntax nodes associated with each captured variable.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.declaredInsideExpressionLambda">
            <summary>
            The set of variables that were declared anywhere inside an expression lambda.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.captures">
            <summary>
            For each lambda in the code, the set of variables that it captures.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.inExpressionLambda">
            <summary>
            Set to true while we are analyzing the interior of an expression lambda.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LambdaRewriter.Analysis.RecordCaptureInIntermediateBlocks(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Once we see a lambda lifting something
            We mark all blocks from the current up to the one that declares lifted symbol as
            needing a parent frame.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LambdaRewriter.LambdaFrame">
            <summary>
            A class that represents the set of variables in a scope that have been
            captured by lambdas within that scope.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LambdaRewriter.LambdaCapturedVariable">
            <summary>
            A field of a frame class that represents a variable that has been captured in a lambda.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LambdaRewriter.LambdaFrameLocalSymbol">
            <summary>
            A local variable used to store a reference to the frame objects in which captured
            local variables have become fields.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LambdaRewriter.SynthesizedLambdaMethod">
            <summary>
            A method that results from the translation of a single lambda expression.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedSubmissionFields">
            <summary>
            Tracks synthesized fields that are needed in a submission being compiled.
            </summary>
            <remarks>
            For every other submission referenced by this submission we add a field, so that we can access members of the target submission.
            A field is also needed for the host object, if provided.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TempHelpers.StoreToTemp(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.RefKind,Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Takes an expression and returns the bound local expression "temp" 
            and the bound assignment expression "temp = expr".
            </summary>
            <param name="argument"></param>
            <param name="refKind"></param>
            <param name="containingMethod"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BindingLocation">
            <summary>
            A specific location for binding.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExtensionMethodScope">
            <summary>
            A distinct scope that may expose extension methods. For a particular Binder,  there
            are two possible scopes: one for the namespace, and another for any using statements
            in the namespace. The namespace scope is searched before the using scope.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExtensionMethodScopes">
            <summary>
            An enumerable collection of extension method scopes in search
            order, from the given Binder, out through containing Binders.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExtensionMethodScopeEnumerator">
            <summary>
            An enumerator over ExtensionMethodScopes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LocationSpecificBinder">
            <summary>
            A simple Binder that wraps another Binder and reports a specific
            binding location, but otherwise delegates to the other Binder.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ImplicitlyTypedFieldBinder">
            <summary>
            Tracks fields that are being bound while binding their initializers.
            </summary>
            <remarks>
            Used to detect circular references like:
            var x = y;
            var y = x;
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ImplicitlyTypedLocalBinder">
            <summary>
            This binder is for binding the initializer of an implicitly typed
            local variable. While binding an implicitly typed local variable
            it is illegal to refer to the variable.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ForEachEnumeratorInfo">
            <summary>
            Information to be deduced while binding a foreach loop so that the loop can be lowered
            to a while over an enumerator.  Not applicable to the array or string forms.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ForEachLoopBinder">
            <summary>
            A loop binder that (1) knows how to bind foreach loops and (2) has the foreach iteration variable in scope.
            </summary>
            <remarks>
            This binder produces BoundForEachStatements.  The lowering described in the spec is performed in ControlFlowRewriter.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.BindForEachParts(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Bind the ForEachStatementSyntax at the root of this binder.
            </summary>
            <param name="diagnostics">Will be populated with binding diagnostics.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.GetEnumeratorInfo(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            The spec describes an algorithm for finding the following types:
              1) Collection type
              2) Enumerator type
              3) Element type
              
            The implementation details are a bit difference.  If we're iterating over a string or an array, then we don't need to record anything
            but the inferredType (in case the iteration variable is implicitly typed).  If we're iterating over anything else, then we want the 
            inferred type plus a ForEachEnumeratorInfo.Builder with:
              1) Collection type
              2) Element type
              3) GetEnumerator method of the collection type (return type will be the enumerator type from the spec)
              4) Current property of the enumerator type
              5) MoveNext method of the enumerator type
              
            The caller will have to do some extra conversion checks before creating a ForEachEnumeratorInfo for the BoundForEachStatement.
            </summary>
            <param name="collectionExpr">The expression over which to iterate.</param>
            <param name="diagnostics">Populated with binding diagnostics.</param>
            <returns>Partially populated (all but conversions) or null if there was an error.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.SatisfiesGetEnumeratorPattern(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.ForEachEnumeratorInfo.Builder@)">
            <summary>
            Check for a GetEnumerator method on collectionExprType.  Failing to satisfy the pattern is not an error -
            it just means that we have to check for an interface instead.
            </summary>
            <param name="collectionExprType">Type of the expression over which to iterate.</param>
            <param name="diagnostics">Populated with *warnings* if there are near misses.</param>
            <param name="builder">Null if there is no such method, non-null with GetEnumeratorMethod set otherwise.</param>
            <returns>True if the method was found (still have to verify that the return (i.e. enumerator) type is acceptable).</returns>
            <remarks>
            Only adds warnings, so does not affect control flow (i.e. no need to check for failure).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.FindForEachPatternMethod(Roslyn.Compilers.CSharp.TypeSymbol,System.String,Roslyn.Compilers.CSharp.LookupResult,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Perform a lookup for the specified method on the specified type.  Perform overload resolution
            on the lookup results.
            </summary>
            <param name="patternType">Type to search.</param>
            <param name="methodName">Method to search for.</param>
            <param name="lookupResult">Passed in for reusability.</param>
            <param name="warningsOnly">True if failures should result in warnings; false if they should result in errors.</param>
            <param name="diagnostics">Populated with binding diagnostics.</param>
            <returns>The desired method or null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.PerformForEachPatternOverloadResolution(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.MethodSymbol},System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            The overload resolution portion of FindForEachPatternMethod.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.SatisfiesForEachPattern(Roslyn.Compilers.CSharp.ForEachEnumeratorInfo.Builder,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Called after it is determined that the expression being enumerated is of a type that
            has a GetEnumerator method.  Checks to see if the return type of the GetEnumerator
            method is suitable (i.e. has Current and MoveNext).
            </summary>
            <param name="builder">Must be non-null and contain a non-null GetEnumeratorMethod.</param>
            <param name="diagnostics">Will be populated with pattern diagnostics.</param>
            <returns>True if the return type has suitable members.</returns>
            <remarks>
            It seems that every failure path reports the same diagnostics, so that is left to the caller.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.AllInterfacesContainsIEnumerable(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.ForEachEnumeratorInfo.Builder@,System.Boolean@)">
            <summary>
            Checks if the given type implements (or extends, in the case of an interface),
            System.Collections.IEnumerable or System.Collections.Generic.IEnumerable&lt;T&gt;,
            for at least one T.
            </summary>
            <param name="type">Type to check.</param>
            <param name="builder">Null if no interface is found, non-null with a non-null CollectionType otherwise.</param>
            <param name="foundMultiple">True if multiple T's are found.</param>
            <returns>True if some IEnumerable is found (may still be ambiguous).</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachLoopBinder.ReportPatternMemberLookupDiagnostics(Roslyn.Compilers.CSharp.LookupResult,Roslyn.Compilers.CSharp.TypeSymbol,System.String,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Report appropriate diagnostics when lookup of a pattern member (i.e. GetEnumerator, Current, or MoveNext) fails.
            </summary>
            <param name="lookupResult">Failed lookup result.</param>
            <param name="patternType">Type in which member was looked up.</param>
            <param name="memberName">Name of looked up member.</param>
            <param name="warningsOnly">True if failures should result in warnings; false if they should result in errors.</param>
            <param name="diagnostics">Populated appropriately.</param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodGroupResolution">
            <summary>
            Packages up the various parts returned when resolving a method group. 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeofBinder">
            <summary>
            This binder is for binding the argument to typeof.  It traverses
            the syntax marking each open type ("unbound generic type" in the
            C# spec) as either allowed or not allowed, so that BindType can 
            appropriately return either the corresponding type symbol or an 
            error type.  It also indicates whether the argument as a whole 
            should be considered open so that the flag can be set 
            appropriately in BoundTypeOfOperator.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeofBinder.OpenTypeVisitor">
            <summary>
            This visitor walks over a type expression looking for open types.
            Open types are allowed if an only if:
              1) There is no constructed generic type elsewhere in the visited syntax; and
              2) The open type is not used as a type argument or array/pointer/nullable
                   element type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxVisitor">
            <summary>
            Represents a <see cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/> visitor that visits only the single SyntaxNode
            passed into its <see cref="M:Roslyn.Compilers.CSharp.SyntaxVisitor.Visit(Roslyn.Compilers.CSharp.SyntaxNode)"/> method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitIdentifierName(Roslyn.Compilers.CSharp.IdentifierNameSyntax)">
            <summary>Called when the visitor visits a IdentifierNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitQualifiedName(Roslyn.Compilers.CSharp.QualifiedNameSyntax)">
            <summary>Called when the visitor visits a QualifiedNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitGenericName(Roslyn.Compilers.CSharp.GenericNameSyntax)">
            <summary>Called when the visitor visits a GenericNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTypeArgumentList(Roslyn.Compilers.CSharp.TypeArgumentListSyntax)">
            <summary>Called when the visitor visits a TypeArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAliasQualifiedName(Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax)">
            <summary>Called when the visitor visits a AliasQualifiedNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPredefinedType(Roslyn.Compilers.CSharp.PredefinedTypeSyntax)">
            <summary>Called when the visitor visits a PredefinedTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitArrayType(Roslyn.Compilers.CSharp.ArrayTypeSyntax)">
            <summary>Called when the visitor visits a ArrayTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitArrayRankSpecifier(Roslyn.Compilers.CSharp.ArrayRankSpecifierSyntax)">
            <summary>Called when the visitor visits a ArrayRankSpecifierSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPointerType(Roslyn.Compilers.CSharp.PointerTypeSyntax)">
            <summary>Called when the visitor visits a PointerTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitNullableType(Roslyn.Compilers.CSharp.NullableTypeSyntax)">
            <summary>Called when the visitor visits a NullableTypeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitOmittedTypeArgument(Roslyn.Compilers.CSharp.OmittedTypeArgumentSyntax)">
            <summary>Called when the visitor visits a OmittedTypeArgumentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitParenthesizedExpression(Roslyn.Compilers.CSharp.ParenthesizedExpressionSyntax)">
            <summary>Called when the visitor visits a ParenthesizedExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPrefixUnaryExpression(Roslyn.Compilers.CSharp.PrefixUnaryExpressionSyntax)">
            <summary>Called when the visitor visits a PrefixUnaryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPostfixUnaryExpression(Roslyn.Compilers.CSharp.PostfixUnaryExpressionSyntax)">
            <summary>Called when the visitor visits a PostfixUnaryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitMemberAccessExpression(Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax)">
            <summary>Called when the visitor visits a MemberAccessExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBinaryExpression(Roslyn.Compilers.CSharp.BinaryExpressionSyntax)">
            <summary>Called when the visitor visits a BinaryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitConditionalExpression(Roslyn.Compilers.CSharp.ConditionalExpressionSyntax)">
            <summary>Called when the visitor visits a ConditionalExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitThisExpression(Roslyn.Compilers.CSharp.ThisExpressionSyntax)">
            <summary>Called when the visitor visits a ThisExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBaseExpression(Roslyn.Compilers.CSharp.BaseExpressionSyntax)">
            <summary>Called when the visitor visits a BaseExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitLiteralExpression(Roslyn.Compilers.CSharp.LiteralExpressionSyntax)">
            <summary>Called when the visitor visits a LiteralExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitMakeRefExpression(Roslyn.Compilers.CSharp.MakeRefExpressionSyntax)">
            <summary>Called when the visitor visits a MakeRefExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitRefTypeExpression(Roslyn.Compilers.CSharp.RefTypeExpressionSyntax)">
            <summary>Called when the visitor visits a RefTypeExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitRefValueExpression(Roslyn.Compilers.CSharp.RefValueExpressionSyntax)">
            <summary>Called when the visitor visits a RefValueExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitCheckedExpression(Roslyn.Compilers.CSharp.CheckedExpressionSyntax)">
            <summary>Called when the visitor visits a CheckedExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitDefaultExpression(Roslyn.Compilers.CSharp.DefaultExpressionSyntax)">
            <summary>Called when the visitor visits a DefaultExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTypeOfExpression(Roslyn.Compilers.CSharp.TypeOfExpressionSyntax)">
            <summary>Called when the visitor visits a TypeOfExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSizeOfExpression(Roslyn.Compilers.CSharp.SizeOfExpressionSyntax)">
            <summary>Called when the visitor visits a SizeOfExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitInvocationExpression(Roslyn.Compilers.CSharp.InvocationExpressionSyntax)">
            <summary>Called when the visitor visits a InvocationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitElementAccessExpression(Roslyn.Compilers.CSharp.ElementAccessExpressionSyntax)">
            <summary>Called when the visitor visits a ElementAccessExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitArgumentList(Roslyn.Compilers.CSharp.ArgumentListSyntax)">
            <summary>Called when the visitor visits a ArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBracketedArgumentList(Roslyn.Compilers.CSharp.BracketedArgumentListSyntax)">
            <summary>Called when the visitor visits a BracketedArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitArgument(Roslyn.Compilers.CSharp.ArgumentSyntax)">
            <summary>Called when the visitor visits a ArgumentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitNameColon(Roslyn.Compilers.CSharp.NameColonSyntax)">
            <summary>Called when the visitor visits a NameColonSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitCastExpression(Roslyn.Compilers.CSharp.CastExpressionSyntax)">
            <summary>Called when the visitor visits a CastExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAnonymousMethodExpression(Roslyn.Compilers.CSharp.AnonymousMethodExpressionSyntax)">
            <summary>Called when the visitor visits a AnonymousMethodExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSimpleLambdaExpression(Roslyn.Compilers.CSharp.SimpleLambdaExpressionSyntax)">
            <summary>Called when the visitor visits a SimpleLambdaExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitParenthesizedLambdaExpression(Roslyn.Compilers.CSharp.ParenthesizedLambdaExpressionSyntax)">
            <summary>Called when the visitor visits a ParenthesizedLambdaExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitInitializerExpression(Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Called when the visitor visits a InitializerExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitObjectCreationExpression(Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax)">
            <summary>Called when the visitor visits a ObjectCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAnonymousObjectMemberDeclarator(Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax)">
            <summary>Called when the visitor visits a AnonymousObjectMemberDeclaratorSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAnonymousObjectCreationExpression(Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax)">
            <summary>Called when the visitor visits a AnonymousObjectCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitArrayCreationExpression(Roslyn.Compilers.CSharp.ArrayCreationExpressionSyntax)">
            <summary>Called when the visitor visits a ArrayCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitImplicitArrayCreationExpression(Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax)">
            <summary>Called when the visitor visits a ImplicitArrayCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitStackAllocArrayCreationExpression(Roslyn.Compilers.CSharp.StackAllocArrayCreationExpressionSyntax)">
            <summary>Called when the visitor visits a StackAllocArrayCreationExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitQueryExpression(Roslyn.Compilers.CSharp.QueryExpressionSyntax)">
            <summary>Called when the visitor visits a QueryExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitQueryBody(Roslyn.Compilers.CSharp.QueryBodySyntax)">
            <summary>Called when the visitor visits a QueryBodySyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitFromClause(Roslyn.Compilers.CSharp.FromClauseSyntax)">
            <summary>Called when the visitor visits a FromClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitLetClause(Roslyn.Compilers.CSharp.LetClauseSyntax)">
            <summary>Called when the visitor visits a LetClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitJoinClause(Roslyn.Compilers.CSharp.JoinClauseSyntax)">
            <summary>Called when the visitor visits a JoinClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitJoinIntoClause(Roslyn.Compilers.CSharp.JoinIntoClauseSyntax)">
            <summary>Called when the visitor visits a JoinIntoClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitWhereClause(Roslyn.Compilers.CSharp.WhereClauseSyntax)">
            <summary>Called when the visitor visits a WhereClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitOrderByClause(Roslyn.Compilers.CSharp.OrderByClauseSyntax)">
            <summary>Called when the visitor visits a OrderByClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitOrdering(Roslyn.Compilers.CSharp.OrderingSyntax)">
            <summary>Called when the visitor visits a OrderingSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSelectClause(Roslyn.Compilers.CSharp.SelectClauseSyntax)">
            <summary>Called when the visitor visits a SelectClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitGroupClause(Roslyn.Compilers.CSharp.GroupClauseSyntax)">
            <summary>Called when the visitor visits a GroupClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitQueryContinuation(Roslyn.Compilers.CSharp.QueryContinuationSyntax)">
            <summary>Called when the visitor visits a QueryContinuationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitOmittedArraySizeExpression(Roslyn.Compilers.CSharp.OmittedArraySizeExpressionSyntax)">
            <summary>Called when the visitor visits a OmittedArraySizeExpressionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitGlobalStatement(Roslyn.Compilers.CSharp.GlobalStatementSyntax)">
            <summary>Called when the visitor visits a GlobalStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBlock(Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Called when the visitor visits a BlockSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitLocalDeclarationStatement(Roslyn.Compilers.CSharp.LocalDeclarationStatementSyntax)">
            <summary>Called when the visitor visits a LocalDeclarationStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitVariableDeclaration(Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Called when the visitor visits a VariableDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitVariableDeclarator(Roslyn.Compilers.CSharp.VariableDeclaratorSyntax)">
            <summary>Called when the visitor visits a VariableDeclaratorSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEqualsValueClause(Roslyn.Compilers.CSharp.EqualsValueClauseSyntax)">
            <summary>Called when the visitor visits a EqualsValueClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitExpressionStatement(Roslyn.Compilers.CSharp.ExpressionStatementSyntax)">
            <summary>Called when the visitor visits a ExpressionStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEmptyStatement(Roslyn.Compilers.CSharp.EmptyStatementSyntax)">
            <summary>Called when the visitor visits a EmptyStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitLabeledStatement(Roslyn.Compilers.CSharp.LabeledStatementSyntax)">
            <summary>Called when the visitor visits a LabeledStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitGotoStatement(Roslyn.Compilers.CSharp.GotoStatementSyntax)">
            <summary>Called when the visitor visits a GotoStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBreakStatement(Roslyn.Compilers.CSharp.BreakStatementSyntax)">
            <summary>Called when the visitor visits a BreakStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitContinueStatement(Roslyn.Compilers.CSharp.ContinueStatementSyntax)">
            <summary>Called when the visitor visits a ContinueStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitReturnStatement(Roslyn.Compilers.CSharp.ReturnStatementSyntax)">
            <summary>Called when the visitor visits a ReturnStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitThrowStatement(Roslyn.Compilers.CSharp.ThrowStatementSyntax)">
            <summary>Called when the visitor visits a ThrowStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitYieldStatement(Roslyn.Compilers.CSharp.YieldStatementSyntax)">
            <summary>Called when the visitor visits a YieldStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitWhileStatement(Roslyn.Compilers.CSharp.WhileStatementSyntax)">
            <summary>Called when the visitor visits a WhileStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitDoStatement(Roslyn.Compilers.CSharp.DoStatementSyntax)">
            <summary>Called when the visitor visits a DoStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitForStatement(Roslyn.Compilers.CSharp.ForStatementSyntax)">
            <summary>Called when the visitor visits a ForStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitForEachStatement(Roslyn.Compilers.CSharp.ForEachStatementSyntax)">
            <summary>Called when the visitor visits a ForEachStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitUsingStatement(Roslyn.Compilers.CSharp.UsingStatementSyntax)">
            <summary>Called when the visitor visits a UsingStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitFixedStatement(Roslyn.Compilers.CSharp.FixedStatementSyntax)">
            <summary>Called when the visitor visits a FixedStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitCheckedStatement(Roslyn.Compilers.CSharp.CheckedStatementSyntax)">
            <summary>Called when the visitor visits a CheckedStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitUnsafeStatement(Roslyn.Compilers.CSharp.UnsafeStatementSyntax)">
            <summary>Called when the visitor visits a UnsafeStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitLockStatement(Roslyn.Compilers.CSharp.LockStatementSyntax)">
            <summary>Called when the visitor visits a LockStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitIfStatement(Roslyn.Compilers.CSharp.IfStatementSyntax)">
            <summary>Called when the visitor visits a IfStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitElseClause(Roslyn.Compilers.CSharp.ElseClauseSyntax)">
            <summary>Called when the visitor visits a ElseClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSwitchStatement(Roslyn.Compilers.CSharp.SwitchStatementSyntax)">
            <summary>Called when the visitor visits a SwitchStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSwitchSection(Roslyn.Compilers.CSharp.SwitchSectionSyntax)">
            <summary>Called when the visitor visits a SwitchSectionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSwitchLabel(Roslyn.Compilers.CSharp.SwitchLabelSyntax)">
            <summary>Called when the visitor visits a SwitchLabelSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTryStatement(Roslyn.Compilers.CSharp.TryStatementSyntax)">
            <summary>Called when the visitor visits a TryStatementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitCatchClause(Roslyn.Compilers.CSharp.CatchClauseSyntax)">
            <summary>Called when the visitor visits a CatchClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitCatchDeclaration(Roslyn.Compilers.CSharp.CatchDeclarationSyntax)">
            <summary>Called when the visitor visits a CatchDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitFinallyClause(Roslyn.Compilers.CSharp.FinallyClauseSyntax)">
            <summary>Called when the visitor visits a FinallyClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitCompilationUnit(Roslyn.Compilers.CSharp.CompilationUnitSyntax)">
            <summary>Called when the visitor visits a CompilationUnitSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitExternAliasDirective(Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax)">
            <summary>Called when the visitor visits a ExternAliasDirectiveSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitUsingDirective(Roslyn.Compilers.CSharp.UsingDirectiveSyntax)">
            <summary>Called when the visitor visits a UsingDirectiveSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitNamespaceDeclaration(Roslyn.Compilers.CSharp.NamespaceDeclarationSyntax)">
            <summary>Called when the visitor visits a NamespaceDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAttributeList(Roslyn.Compilers.CSharp.AttributeListSyntax)">
            <summary>Called when the visitor visits a AttributeListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAttributeTargetSpecifier(Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax)">
            <summary>Called when the visitor visits a AttributeTargetSpecifierSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAttribute(Roslyn.Compilers.CSharp.AttributeSyntax)">
            <summary>Called when the visitor visits a AttributeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAttributeArgumentList(Roslyn.Compilers.CSharp.AttributeArgumentListSyntax)">
            <summary>Called when the visitor visits a AttributeArgumentListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAttributeArgument(Roslyn.Compilers.CSharp.AttributeArgumentSyntax)">
            <summary>Called when the visitor visits a AttributeArgumentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitNameEquals(Roslyn.Compilers.CSharp.NameEqualsSyntax)">
            <summary>Called when the visitor visits a NameEqualsSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTypeParameterList(Roslyn.Compilers.CSharp.TypeParameterListSyntax)">
            <summary>Called when the visitor visits a TypeParameterListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTypeParameter(Roslyn.Compilers.CSharp.TypeParameterSyntax)">
            <summary>Called when the visitor visits a TypeParameterSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitClassDeclaration(Roslyn.Compilers.CSharp.ClassDeclarationSyntax)">
            <summary>Called when the visitor visits a ClassDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitStructDeclaration(Roslyn.Compilers.CSharp.StructDeclarationSyntax)">
            <summary>Called when the visitor visits a StructDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitInterfaceDeclaration(Roslyn.Compilers.CSharp.InterfaceDeclarationSyntax)">
            <summary>Called when the visitor visits a InterfaceDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEnumDeclaration(Roslyn.Compilers.CSharp.EnumDeclarationSyntax)">
            <summary>Called when the visitor visits a EnumDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitDelegateDeclaration(Roslyn.Compilers.CSharp.DelegateDeclarationSyntax)">
            <summary>Called when the visitor visits a DelegateDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEnumMemberDeclaration(Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax)">
            <summary>Called when the visitor visits a EnumMemberDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBaseList(Roslyn.Compilers.CSharp.BaseListSyntax)">
            <summary>Called when the visitor visits a BaseListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTypeParameterConstraintClause(Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax)">
            <summary>Called when the visitor visits a TypeParameterConstraintClauseSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitConstructorConstraint(Roslyn.Compilers.CSharp.ConstructorConstraintSyntax)">
            <summary>Called when the visitor visits a ConstructorConstraintSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitClassOrStructConstraint(Roslyn.Compilers.CSharp.ClassOrStructConstraintSyntax)">
            <summary>Called when the visitor visits a ClassOrStructConstraintSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitTypeConstraint(Roslyn.Compilers.CSharp.TypeConstraintSyntax)">
            <summary>Called when the visitor visits a TypeConstraintSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitFieldDeclaration(Roslyn.Compilers.CSharp.FieldDeclarationSyntax)">
            <summary>Called when the visitor visits a FieldDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEventFieldDeclaration(Roslyn.Compilers.CSharp.EventFieldDeclarationSyntax)">
            <summary>Called when the visitor visits a EventFieldDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitExplicitInterfaceSpecifier(Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax)">
            <summary>Called when the visitor visits a ExplicitInterfaceSpecifierSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitMethodDeclaration(Roslyn.Compilers.CSharp.MethodDeclarationSyntax)">
            <summary>Called when the visitor visits a MethodDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitOperatorDeclaration(Roslyn.Compilers.CSharp.OperatorDeclarationSyntax)">
            <summary>Called when the visitor visits a OperatorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitConversionOperatorDeclaration(Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax)">
            <summary>Called when the visitor visits a ConversionOperatorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitConstructorDeclaration(Roslyn.Compilers.CSharp.ConstructorDeclarationSyntax)">
            <summary>Called when the visitor visits a ConstructorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitConstructorInitializer(Roslyn.Compilers.CSharp.ConstructorInitializerSyntax)">
            <summary>Called when the visitor visits a ConstructorInitializerSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitDestructorDeclaration(Roslyn.Compilers.CSharp.DestructorDeclarationSyntax)">
            <summary>Called when the visitor visits a DestructorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPropertyDeclaration(Roslyn.Compilers.CSharp.PropertyDeclarationSyntax)">
            <summary>Called when the visitor visits a PropertyDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEventDeclaration(Roslyn.Compilers.CSharp.EventDeclarationSyntax)">
            <summary>Called when the visitor visits a EventDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitIndexerDeclaration(Roslyn.Compilers.CSharp.IndexerDeclarationSyntax)">
            <summary>Called when the visitor visits a IndexerDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAccessorList(Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Called when the visitor visits a AccessorListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitAccessorDeclaration(Roslyn.Compilers.CSharp.AccessorDeclarationSyntax)">
            <summary>Called when the visitor visits a AccessorDeclarationSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitParameterList(Roslyn.Compilers.CSharp.ParameterListSyntax)">
            <summary>Called when the visitor visits a ParameterListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBracketedParameterList(Roslyn.Compilers.CSharp.BracketedParameterListSyntax)">
            <summary>Called when the visitor visits a BracketedParameterListSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitParameter(Roslyn.Compilers.CSharp.ParameterSyntax)">
            <summary>Called when the visitor visits a ParameterSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitIncompleteMember(Roslyn.Compilers.CSharp.IncompleteMemberSyntax)">
            <summary>Called when the visitor visits a IncompleteMemberSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitSkippedTokensTrivia(Roslyn.Compilers.CSharp.SkippedTokensTriviaSyntax)">
            <summary>Called when the visitor visits a SkippedTokensTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitDocumentationCommentTrivia(Roslyn.Compilers.CSharp.DocumentationCommentTriviaSyntax)">
            <summary>Called when the visitor visits a DocumentationCommentTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlElement(Roslyn.Compilers.CSharp.XmlElementSyntax)">
            <summary>Called when the visitor visits a XmlElementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlElementStartTag(Roslyn.Compilers.CSharp.XmlElementStartTagSyntax)">
            <summary>Called when the visitor visits a XmlElementStartTagSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlElementEndTag(Roslyn.Compilers.CSharp.XmlElementEndTagSyntax)">
            <summary>Called when the visitor visits a XmlElementEndTagSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlEmptyElement(Roslyn.Compilers.CSharp.XmlEmptyElementSyntax)">
            <summary>Called when the visitor visits a XmlEmptyElementSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlName(Roslyn.Compilers.CSharp.XmlNameSyntax)">
            <summary>Called when the visitor visits a XmlNameSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlPrefix(Roslyn.Compilers.CSharp.XmlPrefixSyntax)">
            <summary>Called when the visitor visits a XmlPrefixSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlAttribute(Roslyn.Compilers.CSharp.XmlAttributeSyntax)">
            <summary>Called when the visitor visits a XmlAttributeSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlText(Roslyn.Compilers.CSharp.XmlTextSyntax)">
            <summary>Called when the visitor visits a XmlTextSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlCDataSection(Roslyn.Compilers.CSharp.XmlCDataSectionSyntax)">
            <summary>Called when the visitor visits a XmlCDataSectionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlProcessingInstruction(Roslyn.Compilers.CSharp.XmlProcessingInstructionSyntax)">
            <summary>Called when the visitor visits a XmlProcessingInstructionSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitXmlComment(Roslyn.Compilers.CSharp.XmlCommentSyntax)">
            <summary>Called when the visitor visits a XmlCommentSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitIfDirectiveTrivia(Roslyn.Compilers.CSharp.IfDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a IfDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitElifDirectiveTrivia(Roslyn.Compilers.CSharp.ElifDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ElifDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitElseDirectiveTrivia(Roslyn.Compilers.CSharp.ElseDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ElseDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEndIfDirectiveTrivia(Roslyn.Compilers.CSharp.EndIfDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a EndIfDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitRegionDirectiveTrivia(Roslyn.Compilers.CSharp.RegionDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a RegionDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitEndRegionDirectiveTrivia(Roslyn.Compilers.CSharp.EndRegionDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a EndRegionDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitErrorDirectiveTrivia(Roslyn.Compilers.CSharp.ErrorDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ErrorDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitWarningDirectiveTrivia(Roslyn.Compilers.CSharp.WarningDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a WarningDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitBadDirectiveTrivia(Roslyn.Compilers.CSharp.BadDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a BadDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitDefineDirectiveTrivia(Roslyn.Compilers.CSharp.DefineDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a DefineDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitUndefDirectiveTrivia(Roslyn.Compilers.CSharp.UndefDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a UndefDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitLineDirectiveTrivia(Roslyn.Compilers.CSharp.LineDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a LineDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPragmaWarningDirectiveTrivia(Roslyn.Compilers.CSharp.PragmaWarningDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a PragmaWarningDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitPragmaChecksumDirectiveTrivia(Roslyn.Compilers.CSharp.PragmaChecksumDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a PragmaChecksumDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxVisitor.VisitReferenceDirectiveTrivia(Roslyn.Compilers.CSharp.ReferenceDirectiveTriviaSyntax)">
            <summary>Called when the visitor visits a ReferenceDirectiveTriviaSyntax node.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeofBinder.OpenTypeVisitor.Visit(Roslyn.Compilers.CSharp.ExpressionSyntax,System.Collections.Generic.Dictionary{Roslyn.Compilers.CSharp.GenericNameSyntax,System.Boolean}@,System.Boolean@)">
            <param name="typeSyntax">The argument to typeof.</param>
            <param name="allowedMap">
            Keys are GenericNameSyntax nodes representing unbound generic types.
            Values are false if the node should result in an error and true otherwise.
            </param>
            <param name="isUnboundGenericType">True if no constructed generic type was encountered.</param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Imports">
            <summary>
            Represents symbols imported to the binding scope via using namespace, using alias, and extern alias.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LocalBinderFactory">
             <summary>
             The LocalBinderFactory is used to build up the map of all Binders within a method body, and the associated
             SyntaxNode. To do so it traverses all the statements, handling blocks and other
             statements that create scopes. For efficiency reasons, it does not traverse into
             expressions. This means that blocks within lambdas and queries are not created. 
             Blocks within lambdas are bound by their own LocalBinderFactory when they are 
             analyzed.
            
             For reasons of lifetime management, this type is distinct from the BinderFactory 
             which also creates a map from SyntaxNode to Binder. That type owns it's binders
             and that type's lifetime is that of the compilation. Therefore we do not store
             binders local to method bodies in that type's cache. 
             </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstantFieldsInProgressBinder">
            <summary>
            This binder keeps track of the set of constant fields that are currently being evaluated
            so that the set can be passed into the next call to SourceFieldSymbol.ConstantValue (and
            its callers).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstantFieldsInProgress">
            <summary>
            This is used while computing the values of constant fields.  Since they can depend on each
            other, we need to keep track of which ones we are currently computing in order to avoid (and
            report) cycles.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LocalInProgressBinder">
            <summary>
            This binder keeps track of the local variable (if any) that is currently being evaluated
            so that it can be passed into the next call to LocalSymbol.GetConstantValue (and
            its callers).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LookupResultKind">
            <summary>
            Classifies the different ways in which a found symbol might be incorrect.
            Higher values are considered "better" than lower values. These values are used
            in a few different places:
               1) Inside a LookupResult to indicate the quality of a symbol from lookup.
               2) Inside a bound node (for example, BoundBadExpression), to indicate
                  the "binding quality" of the symbols referenced by that bound node.
               3) Inside an error type symbol, to indicate the reason that the candidate symbols
                  in the error type symbols were not good.
                  
            While most of the values can occur in all places, some of the problems are not
            detected at lookup time (e.g., NotAVariable), so only occur in bound nodes.
            </summary>
            <remarks>
            This enumeration is parallel to and almost the same as as the CandidateReason enumeration.
            Changes to one should usually result in changes to the other.
            
            There are two enumerations because:
              1) CandidateReason in language-independent, while this enum is language specific.
              2) The name "CandidateReason" didn't make much sense in the way LookupResultKind is used internally.
              3) Viable isn't used in CandidateReason, but we need it in LookupResultKind, and there isn't a 
                 a way to have internal enumeration values.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupResultKindExtensions.ToCandidateReason(Roslyn.Compilers.CSharp.LookupResultKind)">
            <summary>
            Maps a LookupResultKind to a CandidateReason. Should not be called on LookupResultKind.Viable!
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BestTypeInferrer.InferBestType(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.BoundExpression},Roslyn.Compilers.CSharp.Conversions,System.Boolean@)">
            <remarks>
            This method finds the best common type of a set of expressions as per section 7.5.2.14 of the specification.
            NOTE: If some or all of the expressions have error types, we return error type as the inference result.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BestTypeInferrer.InferBestTypeForConditionalOperator(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.Conversions,System.Boolean@)">
            <remarks>
            This method implements best type inference for the conditional operator ?:.
            NOTE: If either expression is an error type, we return error type as the inference result.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Conversion">
            <summary>
            Summarizes whether a conversion is allowed, and if so, which kind of conversion (and in some cases, the
            associated symbol).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.Exists">
            <summary>
            Returns true if the conversion exists, either as an implicit or explicit conversion.
            </summary>
            <remarks>
            Existence does not imply validity.  For example, an ambiguous user-defined conversion exists but is not valid.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsImplicit">
            <summary>
            Returns true if the conversion is implicit, as described in section 6.1 of the C# language specification
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsExplicit">
            <summary>
            Returns true if the conversion is explicit, as described in section 6.2 of the C# language specification
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsIdentity">
            <summary>
            Returns true if the conversion is an identity conversion, as described in section 6.1.1 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsNumeric">
            <summary>
            Returns true if the conversion is an implicit numeric conversion or explicit numeric conversion, 
            as described in sections 6.1.2 and 6.2.1 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsEnumeration">
            <summary>
            Returns true if the conversion is an implicit enumeration conversion or explicit enumeration conversion, 
            as described in sections 6.1.3 and 6.2.2 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsNullable">
            <summary>
            Returns true if the conversion is an implicit nullable conversion or explicit nullable conversion, 
            as described in sections 6.1.4 and 6.2.3 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsReference">
            <summary>
            Returns true if the conversion is an implicit reference conversion or explicit reference conversion, 
            as described in sections 6.1.6 and 6.2.4 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsUserDefined">
            <summary>
            Returns true if the conversion is an implicit user-defined conversion or explicit user-defined conversion, 
            as described in section 6.4 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsBoxing">
            <summary>
            Returns true if the conversion is an implicit boxing conversion, 
            as described in section 6.1.7 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsUnboxing">
            <summary>
            Returns true if the conversion is an explicit unboxing conversion, 
            as described in section 6.2.5 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsNullLiteral">
            <summary>
            Returns true if the conversion is an implicit null literal conversion, 
            as described in section 6.1.5 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsDynamic">
            <summary>
            Returns true if the conversion is an implicit dynamic conversion, 
            as described in section 6.1.8 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsConstantExpression">
            <summary>
            Returns true if the conversion is an implicit constant expression conversion, 
            as described in section 6.1.9 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsAnonymousFunction">
            <summary>
            Returns true if the conversion is an implicit anonymous function conversion, 
            as described in section 6.5 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsMethodGroup">
            <summary>
            Returns true if the conversion is an implicit method group conversion, 
            as described in section 6.6 of the C# language specification.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsPointer">
            <summary>
            Returns true if the conversion is a conversion 
             a) from a pointer type to void*, 
             b) from a pointer type to another pointer type (other than void*),
             c) from the null literal to a pointer type,
             d) from an integral numeric type to a pointer type, or
             e) from a pointer type to an integral numeric type.
            Such conversions are described in section 18.4 of the C# language specification.
            </summary>
            <remarks>
            Does not return true for user-defined conversions to/from pointer types.
            Does not return true for conversions between pointer types and IntPtr/UIntPtr.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.IsIntPtr">
            <summary>
            Returns true if the conversion is a conversion to or from IntPtr or UIntPtr.
            This includes:
              IntPtr to/from int
              IntPtr to/from long
              IntPtr to/from void*
              UIntPtr to/from int
              UIntPtr to/from long
              UIntPtr to/from void*
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.Method">
            <summary>
            The conversion's Method is only valid if IsMethodGroup,
            or IsUserDefined is true,
            and indicates the method used to create the delegate (for a MethodGroup conversion),
            or the method used to perform the conversion (for a UserDefined conversion).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.ResultKind">
            <summary>
            Gives an indication of how successful the conversion was.
            Viable - found a best built-in or user-defined conversion.
            Empty - found no applicable built-in or user-defined conversions.
            OverloadResolutionFailure - found applicable conversions, but no unique best.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.UserDefinedFromConversion">
            <summary>
            Conversion applied to operand of the user-defined conversion.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.UserDefinedToConversion">
            <summary>
            Conversion applied to the result of the user-defined conversion.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Conversion.OriginalUserDefinedConversions">
            <summary>
            The user-defined operators that were considered when attempting this conversion
            (i.e. the arguments to overload resolution).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodTypeInferrer.GetInterfaceInferenceBound(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.NamedTypeSymbol},Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Return the interface with an original definition matches
            the original definition of the target. If the are no matches,
            or multiple multiple matches, the return value is null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodTypeInferrer.GetInferredTypeArguments">
            <summary>
            Return the inferred type arguments using the original type
            parameters for any type arguments that were not inferred.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberAnalysisResult.HasAnyRefOmittedArgument">
            <summary>
            Omit ref feature for COM interop: We can pass arguments by value for ref parameters if we are invoking a method/property on an instance of a COM imported type.
            This property returns a flag indicating whether we had any ref omitted argument for the given call.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberResolutionKind">
            <summary>
            Indicates why the compiler accepted or rejected the member during overload resolution.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.None">
            <summary>
            No resolution has (yet) been determined.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.ApplicableInNormalForm">
            <summary>
            The candidate member was accepted in its normal (non-expanded) form.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.ApplicableInExpandedForm">
            <summary>
            The candidate member was accepted in its expanded form, after expanding a "params" parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.InaccessibleTypeArgument">
            <summary>
            The candidate member was rejected because an inferred type argument is inaccessible.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.NoCorrespondingParameter">
            <summary>
            The candidate member was rejected because an argument was specified that did not have a corresponding
            parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.RequiredParameterMissing">
            <summary>
            The candidate member was rejected because an required parameter had no corresponding argument.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.NameUsedForPositional">
            <summary>
            The candidate member was rejected because a named argument was used that corresponded to a previously-given positional argument.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.UseSiteError">
            <summary>
            The candidate member was rejected because it is not supported by the language or cannot be used 
            given the current set of assembly references.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.BadArguments">
            <summary>
            The candidate member was rejected because an argument could not be converted to the appropriate parameter
            type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.TypeInferenceFailed">
            <summary>
            The candidate member was rejected because type inference failed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.TypeInferenceExtensionInstanceArgument">
            <summary>
            The extension method candidate was rejected because type
            inference based on the "instance" argument failed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.BadGenericArity">
            <summary>
            The candidate member was rejected because it had the wrong number of type parameters.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.ConstructedParameterFailedConstraintCheck">
            <summary>
            The candidate member was rejected because it a constraint on a type parameter was not satisfied.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.LessDerived">
            <summary>
            The candidate member was rejected because another member further down in the inheritance hierarchy was
            present.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberResolutionKind.Worse">
            <summary>
            The candidate member was rejected because it was considered worse that another member (according to sectino
            7.5.3.2 of the language specification).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberResolutionResult`1">
            <summary>
            Represents the results of overload resolution for a single member.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberResolutionResult`1.Member">
            <summary>
            The member considered during overload resolution.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberResolutionResult`1.Resolution">
            <summary>
            Indicates why the compiler accepted or rejected the member during overload resolution.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberResolutionResult`1.IsValid">
            <summary>
            Returns true if the compiler accepted this member as the sole correct result of overload resolution.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberResolutionResult`1.Result">
            <summary>
            The result of member analysis.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OverloadResolutionResult`1">
            <summary>
            Summarizes the results of an overload resolution analysis, as described in section 7.5 of
            the language specification. Describes whether overload resolution succeeded, and which
            method was selected if overload resolution succeeded, as well as detailed information about
            each method that was considered. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverloadResolutionResult`1.UnwrapIfParamsArray(Roslyn.Compilers.CSharp.ParameterSymbol)">
            <summary>
            If an argument fails to convert to the type of the corresponding parameter and that
            parameter is a params array, then the error message should reflect the element type
            of the params array - not the array type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OverloadResolutionResult`1.Succeeded">
            <summary>
            True if overload resolution successfully selected a single best method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OverloadResolutionResult`1.ValidResult">
            <summary>
            If overload resolution successfully selected a single best method, returns information
            about that method. Otherwise returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OverloadResolutionResult`1.BestResult">
            <summary>
            If there was a method that overload resolution considered better than all others,
            returns information about that method. A method may be returned even if that method was
            not considered a successful overload resolution, as long as it was better that any other
            potential method considered.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OverloadResolutionResult`1.Results">
            <summary>
            Returns information about each method that was considered during overload resolution,
            and what the results of overload resolution were for that method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OverloadResolutionResult`1.HasAnyApplicableMethod">
            <summary>
            Returns true if one or more of the methods in the group are applicable. (Note that
            Succeeded implies IsApplicable but IsApplicable does not imply Succeeded.  It is possible
            that no applicable method was better than all others.)
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SingleLookupResult">
            <summary>
            Represents a result of lookup operation over a 0 or 1 symbol (as opposed to a scope). The
            typical use is to represent that a particular symbol is good/bad/unavailable.
            
            For more explanation of Kind, Symbol, Error - see LookupResult.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InteractiveUsingsBinder.RebindAndAddUsings(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.NamespaceOrTypeAndUsingDirective},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.NamespaceOrTypeAndUsingDirective})">
            <summary>
            Returns a new list of usings with all namespace symbols replaced by namespace symbols updated from current compilation references.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundCall.OriginalMethodsOpt">
            <summary>
            The set of method symbols from which this call's method was chosen. 
            Only kept in the tree if the call was an error and overload resolution
            was unable to choose a best method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundIndexerAccess.OriginalIndexersOpt">
            <summary>
            The set of indexer symbols from which this call's indexer was chosen. 
            Only kept in the tree if the call was an error and overload resolution
            was unable to choose a best indexer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundBinaryOperator.OriginalUserDefinedOperatorsOpt">
            <summary>
            The set of method symbols from which this operator's method was chosen. 
            Only kept in the tree if the operator was an error and overload resolution
            was unable to choose a best method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundUnaryOperator.OriginalUserDefinedOperatorsOpt">
            <summary>
            The set of method symbols from which this operator's method was chosen. 
            Only kept in the tree if the operator was an error and overload resolution
            was unable to choose a best method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundIncrementOperator.OriginalUserDefinedOperatorsOpt">
            <summary>
            The set of method symbols from which this operator's method was chosen. 
            Only kept in the tree if the operator was an error and overload resolution
            was unable to choose a best method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundCompoundAssignmentOperator.OriginalUserDefinedOperatorsOpt">
            <summary>
            The set of method symbols from which this operator's method was chosen. 
            Only kept in the tree if the operator was an error and overload resolution
            was unable to choose a best method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BoundConversion.SynthesizedNonUserDefined(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.ConversionKind,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ConstantValue)">
            <remarks>
            This method is intended for passes other than the LocalRewriter.
            Use MakeConversion helper method in the LocalRewriter instead,
            it generates a synthesized conversion in its lowered form.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BoundConversion.Synthesized(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.Conversion,System.Boolean,System.Boolean,Roslyn.Compilers.ConstantValue,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean)">
            <remarks>
            NOTE:    This method is intended for passes other than the LocalRewriter.
            NOTE:    Use MakeConversion helper method in the LocalRewriter instead,
            NOTE:    it generates a synthesized conversion in its lowered form.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BoundConversion.OriginalUserDefinedConversionsOpt">
            <summary>
            The set of method symbols from which this conversion's method was chosen. 
            Only kept in the tree if the conversion was an error and overload resolution
            was unable to choose a best method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BoundStatementExtensions.IsLabeledStatement(Roslyn.Compilers.CSharp.BoundStatement)">
            <summary>
            This method is ONLY used in Debug.Assert(...) at some flow analysis API
            Apply following attribute to hide from code coverage tools
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BoundStatementExtensions.IsLabeledStatementWithLabel(Roslyn.Compilers.CSharp.BoundStatement,Roslyn.Compilers.CSharp.LabelSymbol)">
            <summary>
            This method is ONLY used in Debug.Assert(...) at some flow analysis API
            Apply following attribute to hide from code coverage tools
            </summary>
            <param name="node"></param>
            <param name="label"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.LocalDefUseSpan.ConflictsWith(Roslyn.Compilers.CSharp.CodeGen.LocalDefUseSpan)">
            <summary>
            when current and othe use spans are regular spans we can have only 2 conflict cases:
            [1, 3) conflicts with [0, 2)
            [1, 3) conflicts with [2, 4)
            specifically:
            [1, 3) does not conflict with [0, 1)
            
            NOTE: with regular spans, it is not possible 
            to have start1 == start2 or end1 == end 
            since at the same node we can access only one real local.
            
            However at the same node we can access one or more dummy locals.
            So we can have start1 == start2 and end1 == end2 scenarios, but only if 
            other span is a span of a dummy.
            
            In such cases we consider 
               start2 == span1.start ==> start2 IS included in span1
               end2 == span1.end ==> end2 IS NOT included in span1
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.StackOptimizerPass1.ReuseOrVisit(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.CodeGen.ExprContext)">
            <summary>
            Recursively rewrites the node or simply replaces it with a dup node
            if we have just seen exactly same node.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.CommandLineCompiler.OutputFileNamePlaceholder">
            <remarks>
            WARN: No one should take a dependency on this value.  It is only exposed for asserts.
            NOTE: The dot is not legal in an (unquoted) assembly name, so PEVerify should fail if it gets emitted.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CommandLineCompiler.GetOutputFilePaths(Roslyn.Compilers.Common.CommonCompilation,System.String,System.Threading.CancellationToken,System.String@,System.String@,System.String@)">
            <summary>
            Given a compilation and a destination directory, determine three names:
              1) The name with which the assembly should be output.
              2) The path of the assembly/module file.
              3) The path of the pdb file.
            
            When csc produces an executable, but the name of the resulting assembly
            is not specified using the "/out" switch, the name is taken from the name
            of the file (note: file, not class) containing the assembly entrypoint
            (as determined by binding and the "/main" switch).
            
            For example, if the command is "csc /target:exe a.cs b.cs" and b.cs contains the
            entrypoint, then csc will produce "b.exe" and "b.pdb" in the output directory,
            with assembly name "b" and module name "b.exe" embedded in the file.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CommandLineCompiler.GetOutputFileNameOrFallback">
            <summary>
            In C#, if the output file name isn't specified explicitly, then executables take their
            names from the files containing their entrypoints and libraries derive their names from 
            their first input files.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CompatibilityMode">
            <summary>
            Enumeration of the different source code compatibility modes.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.CompatibilityMode.None">
            <summary>
            No defined compatibility mode.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.CompatibilityMode.ECMA1">
            <summary>
            The parser accepts only syntax that is included in the ISO/IEC 23270:2003 C# language specification. This
            mode represents the csc switch /langversion:ISO-1
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.CompatibilityMode.ECMA2">
            <summary>
            The compiler accepts only syntax that is included in the ISO/IEC 23270:2006 C# language specification. This
            mode represents the csc switch /langversion:ISO-2
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CompilationOptions">
            <summary>
            Represents various options that affect compilation, such as 
            whether to emit an executable or a library, whether to optimize
            generated code, and so on.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CompilationOptions.WithFileAlignment(System.Int32)">
            <summary>
            Sets the byte alignment for portable executable file sections.
            </summary>
            <param name="value">Can be one of the following values: 0, 512, 1024, 2048, 4096, 8192</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CompilationOptions.AllowUnsafe">
            <summary>
            Allow unsafe regions (i.e. unsafe modifiers on members and unsafe blocks).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CompilationOptions.Usings">
            <summary>
            Global namespace usings.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeSemanticModel">
            <summary>
            A binding for an attribute.  Represents the result of binding an attribute constructor and
            the positional and named arguments.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BuiltInOperators">
            <summary>
            Internal cahe of built-in operators.
            Cache is compilation-specific becuse it uses compilation-specific SpecialTypes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ForEachStatementInfo">
            <summary>
            Structure containing all semantic information about a for each statement.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ForEachStatementInfo.#ctor(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.PropertySymbol,Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.ForEachStatementInfo"/> structure.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ForEachStatementInfo.GetEnumeratorMethod">
            <summary>
            Gets the &quot;GetEnumerator&quot; method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ForEachStatementInfo.MoveNextMethod">
            <summary>
            Gets the &quot;MoveNext&quot; method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ForEachStatementInfo.CurrentProperty">
            <summary>
            Gets the &quot;Current&quot; property.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ForEachStatementInfo.DisposeMethod">
            <summary>
            Gets the &quot;Dispose&quot; method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.QueryClauseInfo">
            <summary>
            Semantic information associated with a query clause in a C# query expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QueryClauseInfo.Cast">
            <summary>
            To be obsoleted.  See CastInfo.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QueryClauseInfo.CastInfo">
            <summary>
            The .Cast&lt;T&gt;() operation generated from the query range variable's type restriction.
            If you want the type restriction, when this is non-null use Cast.TypeArguments[0].
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QueryClauseInfo.Operation">
            <summary>
            To be obsoleted.  See OperationInfo.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QueryClauseInfo.OperationInfo">
            <summary>
            The operation (e.g. Select(), Where(), etc) that implements the given clause.
            If it is an extension method, it is returned in reduced form.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InitializerSemanticModel">
            <summary>
            A binding for a field initializer, constructor initializer, or parameter default value.  
            Represents the result of binding an initial
            value expression rather than an block (for that, use a MethodBodySemanticModel).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SymbolInfo.Symbol">
            <summary>
            The symbol that was referred to by the syntax node, if any. Returns null if the given
            expression did not bind successfully to a single symbol. If null is returned, it may
            still be that case that we have one or more "best guesses" as to what symbol was
            intended. These best guesses are available via the CandidateSymbols property.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SymbolInfo.CandidateSymbols">
            <summary>
            If the expression did not successfully resolve to a symbol, but there were one or more
            symbols that may have been considered but discarded, this property returns those
            symbols. The reason that the symbols did not successfully resolve to a symbol are
            available in the CandidateReason property. For example, if the symbol was inaccessible,
            ambiguous, or used in the wrong context.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SymbolInfo.CandidateReason">
            <summary>
             If the expression did not successfully resolve to a symbol, but there were one or more
             symbols that may have been considered but discarded, this property describes why those
             symbol or symbols were not considered suitable.
             </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeInfo.Type">
            <summary>
            The type of the expression represented by the syntax node. For expressions that do not
            have a type, null is returned. If the type could not be determined due to an error, than
            an object derived from ErrorTypeSymbol is returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeInfo.ConvertedType">
            <summary>
            The type of the expression after it has undergone an implicit conversion. If the type
            did not undergo an implicit conversion, returns the same as Type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeInfo.ImplicitConversion">
            <summary>
            If the expression underwent an implicit conversion, return information about that
            conversion. Otherwise, returns an identity conversion.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedMethodMetadataCompiler">
            <summary>
            When compiling in metadata-only mode, MethodBodyCompiler is not run.  This is problematic
            because MethodBody compiler adds synthesized explicit implementations to the list of
            compiler generated definitions.  In lieu of running MethodBodyCompiler, this class performs
            a quick traversal of the symbol table and calls Module.AddCompilerGeneratedDefinition on each
            synthesized explicit implementation.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SymbolVisitor`2">
            <summary>
            Virtual dispatch based on a symbol's particular class. 
            </summary>
            <typeparam name="TArgument">Additional argument type</typeparam>
            <typeparam name="TResult">Result type</typeparam>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.Visit(Roslyn.Compilers.CSharp.Symbol,`0)">
            <summary>
            Call the correct VisitXXX method in this class based on the particular type of symbol that is passed in.
            Return default(TResult) if symbol is null
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)">
            <summary>
            The default Visit method called when visiting any <see cref="T:Roslyn.Compilers.CSharp.Symbol"/> and 
            if visiting specific symbol method VisitXXX is not overridden
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitAssembly(Roslyn.Compilers.CSharp.AssemblySymbol,`0)">
            <summary>
            Called when visiting an <see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/>; Override this method with
            specific implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not
            overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitModule(Roslyn.Compilers.CSharp.ModuleSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.ModuleSymbol"/>; Override this method with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitNamespace(Roslyn.Compilers.CSharp.NamespaceSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.NamespaceSymbol"/>; Should override this method if
            want to visit members of the namespace; Calling <see cref="M:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol.GetMembers"/>
            and loop over each member; calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.Visit(Roslyn.Compilers.CSharp.Symbol,`0)"/> on it Or override this with
            specific implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not
            overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitNamedType(Roslyn.Compilers.CSharp.NamedTypeSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.NamedTypeSymbol"/>; Override this with specific
            implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitArrayType(Roslyn.Compilers.CSharp.ArrayTypeSymbol,`0)">
            <summary>
            Called when visiting an <see cref="T:Roslyn.Compilers.CSharp.ArrayTypeSymbol"/>; Override this with specific
            implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitPointerType(Roslyn.Compilers.CSharp.PointerTypeSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.PointerTypeSymbol"/>; Override this with specific
            implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitErrorType(Roslyn.Compilers.CSharp.ErrorTypeSymbol,`0)">
            <summary>
            Called when visiting an <see cref="T:Roslyn.Compilers.CSharp.ErrorTypeSymbol"/> 
            Error symbol is created when there is compiler error; Override this with specific
            implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitTypeParameter(Roslyn.Compilers.CSharp.TypeParameterSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.TypeParameterSymbol"/>; Override this with specific
            implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitDynamicType(Roslyn.Compilers.CSharp.DynamicTypeSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.DynamicTypeSymbol"/>; Override this with specific
            implementation; Calling <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitMethod(Roslyn.Compilers.CSharp.MethodSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.MethodSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitField(Roslyn.Compilers.CSharp.FieldSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.FieldSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitProperty(Roslyn.Compilers.CSharp.PropertySymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.PropertySymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitEvent(Roslyn.Compilers.CSharp.EventSymbol,`0)">
            <summary>
            Called when visiting an <see cref="T:Roslyn.Compilers.CSharp.EventSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitParameter(Roslyn.Compilers.CSharp.ParameterSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.ParameterSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitLocal(Roslyn.Compilers.CSharp.LocalSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.LocalSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitLabel(Roslyn.Compilers.CSharp.LabelSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.LabelSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitAlias(Roslyn.Compilers.CSharp.AliasSymbol,`0)">
            <summary>
            Called when visiting an <see cref="T:Roslyn.Compilers.CSharp.AliasSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.VisitRangeVariable(Roslyn.Compilers.CSharp.RangeVariableSymbol,`0)">
            <summary>
            Called when visiting a <see cref="T:Roslyn.Compilers.CSharp.RangeVariableSymbol"/>; Override this with specific
            implementation; Calling default <see cref="M:Roslyn.Compilers.CSharp.SymbolVisitor`2.DefaultVisit(Roslyn.Compilers.CSharp.Symbol,`0)"/> if it's not overridden 
            </summary>
            <param name="symbol">The visited symbol</param>
            <param name="argument">Additional argument</param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DocumentationCommentIDVisitor.PartVisitor">
            <summary>
            A visitor that generates the part of the documentation comment after the initial type
            and colon.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.NameTruncation.MAX_UTF8_NAME_LENGTH">
            <summary>
            This is the maximum length of a type or member name in metadata, assuming
            the name is in UTF-8 format and not (yet) null-terminated.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.NameTruncation.MAX_UTF8_PATH_LENGTH">
            <summary>
            This is the maximum length of a path in metadata, assuming the path is in UTF-8
            format and not (yet) null-terminated.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.NameTruncation.Utf8Encoding">
            <summary>
            This is the same as the default UTF-8 encoding except that the decoder fallback
            behavior has been changed.  Instead of replacing unknown byte sequences with question
            marks, this encoding omits them completely.  Since the only unknown byte sequences
            we expect to see are partial characters on the truncation boundary (since we are
            doing the encoding ourselves), this has the effect of removing partial characters.
            
            For example, suppose you begin with the string "abc\uFFFF".  In UTF-8, this is encoded
            in six bytes (without the null terminator) - one for each of 'a', 'b', and 'c' and 
            three for '\uFFFF'.  If you truncate to 5 bytes, then you end up with 'a', 'b', 'c',
            and the first two bytes of '\uFFFF'.  The decoder replacement fallback simply deletes
            these unrecognized bytes, leaving "abc".
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NameTruncation.Truncate(System.Int32,System.String,System.String@)">
            <summary>
            Truncate the given name so that it fits in metadata.
            </summary>
            <param name="maxLength">Max length for name.  (Expected to be at least 5.)</param>
            <param name="fullName">Name to truncate.</param>
            <param name="truncatedName">The name after truncation.</param>
            <returns>True if truncation was required.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.SpecializedGenericMethodInstanceReference">
            <summary>
            Represents a generic method of a generic type instantiation, closed over type parameters.
            e.g. 
            A{T}.M{S}()
            A.B{T}.C.M{S}()
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.SpecializedMethodReference">
            <summary>
            Represents a method of a generic type instantiation.
            e.g. 
            A{int}.M()
            A.B{int}.C.M()
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Location">
            <summary>
            Represents a C# location in source code or metadata.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Location.System#Runtime#Serialization#ISerializable#GetObjectData(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
            <summary>
            Serializes the location.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor">
            <summary>
            Describes anonymous type in terms of fields
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.Location">
            <summary> Anonymous type location </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.Fields">
            <summary> Anonymous type fields </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.Key">
            <summary>
            Anonymous type descriptor Key 
            
            The key is to be used to separate anonymous type templates in an anonymous type symbol cache. 
            The type descriptors with the same keys are supposed to map to 'the same' anonymous type 
            template in terms of the same generic type being used for their implementation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.Equals(Roslyn.Compilers.CSharp.AnonymousTypeDescriptor)">
            <summary>
            Compares two anonymous type descriptorss, takes into account fields names and types, not locations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.Equals(System.Object)">
            <summary>
            Compares two anonymous type descriptorss, takes into account fields names and types, not locations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.WithNewFieldsTypes(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Creates a new anonymous type descriptor based on 'this' one, 
            but having field types passed as an argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousTypeDescriptor.IsGood">
            <summary> 
            Returns 'true' if all the fields are 'good' 
            This is ONLY used for debugging purpose
            </summary>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ErrorPropertySymbol">
            <summary>
            When indexer overload resolution fails, we have two options:
              1) Create a BoundBadExpression with the candidates as child nodes;
              2) Create a BoundIndexerAccess with the error flag set.
              
            Option 2 is preferable, because it retains information about the arguments
            (names, ref kind, etc), and results in better output from flow analysis.
            However, we can't create a BoundIndexerAccess with a null indexer symbol,
            so we create an ErrorPropertySymbol to fill the gap.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ErrorTypeSymbol">
            <summary>
            An ErrorSymbol is used when the compiler cannot determine a symbol object to return because
            of an error. For example, if a field is declared "Foo x;", and the type "Foo" cannot be
            found, an ErrorSymbol is returned when asking the field "x" what it's type is.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorTypeSymbol.GetMembers">
            <summary>
            Get all the members of this symbol.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol. If this symbol has no members,
            returns an empty ReadOnlyArray. Never returns Null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorTypeSymbol.GetMembers(System.String)">
            <summary>
            Get all the members of this symbol that have a particular name.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol with the given name. If there are
            no members with this name, returns an empty ReadOnlyArray. Never returns Null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorTypeSymbol.GetTypeMembers">
            <summary>
            Get all the members of this symbol that are types.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol. If this symbol has no type members,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorTypeSymbol.GetTypeMembers(System.String)">
            <summary>
            Get all the members of this symbol that are types that have a particular name, of any arity.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol with the given name.
            If this symbol has no type members with this name,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorTypeSymbol.GetTypeMembers(System.String,System.Int32)">
            <summary>
            Get all the members of this symbol that are types that have a particular name and arity
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol with the given name and arity.
            If this symbol has no type members with this name and arity,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorTypeSymbol.Accept``2(Roslyn.Compilers.CSharp.SymbolVisitor{``0,``1},``0)">
            <summary>
            Implements visitor pattern.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.ErrorInfo">
            <summary>
            The underlying error.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.ResultKind">
            <summary>
            Summary of the reason why the type is bad.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.CandidateSymbols">
            <summary>
            When constructing this ErrorTypeSymbol, there may have been symbols that seemed to
            be what the user intended, but were unsuitable. For example, a type might have been
            inaccessible, or ambiguous. This property returns the possible symbols that the user
            might have intended. It will return no symbols if no possible symbols were found.
            See the CandidateReason property to understand why the symbols were unsuitable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.CandidateReason">
            <summary>
             If CandidateSymbols returns one or more symbols, returns the reason that those
             symbols were not chosen. Otherwise, returns None.
             </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.IsReferenceType">
            <summary>
            Returns true if this type is known to be a reference type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.IsValueType">
            <summary>
            Returns true if this type is known to be a value type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.MemberNames">
            <summary>
            Collection of names of members declared within this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.TypeKind">
            <summary>
            Gets the kind of this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.ContainingSymbol">
            <summary>
            Get the symbol that logically contains this symbol. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.Locations">
            <summary>
            Gets the locations where this symbol was originally defined, either in source or
            metadata. Some symbols (for example, partial classes) may be defined in more than one
            location.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.Arity">
            <summary>
            Returns the arity of this type, or the number of type parameters it takes.
            A non-generic type has zero arity.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.Name">
            <summary>
            Gets the name of this symbol. Symbols without a name return the empty string; null is
            never returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.TypeArguments">
            <summary>
            Returns the type arguments that have been substituted for the type parameters. 
            If nothing has been substituted for a give type parameters,
            then the type parameter itself is consider the type argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.TypeParameters">
            <summary>
            Returns the type parameters that this type has. If this is a non-generic type,
            returns an empty ReadOnlyArray.  
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.ConstructedFrom">
            <summary>
            Returns the type symbol that this type was constructed from. This type symbol
            has the same containing type (if any), but has type arguments that are the same
            as the type parameters (although its containing type might not).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.DeclaredAccessibility">
            <summary>
            Get this accessibility that was declared on this symbol. For symbols that do not have
            accessibility declared on them, returns NotApplicable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.IsStatic">
            <summary>
            Returns true if this symbol is "static"; i.e., declared with the "static" modifier or
            implicitly static.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.IsAbstract">
            <summary>
            Returns true if this symbol was declared as requiring an override; i.e., declared with
            the "abstract" modifier. Also returns true on a type declared as "abstract", all
            interface types, and members of interface types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ErrorTypeSymbol.IsSealed">
            <summary>
            Returns true if this symbol was declared to override a base class member and was also
            sealed from further overriding; i.e., declared with the "sealed" modifier.  Also set for
            types that do not allow a derived class (declared with "sealed" or "static" or "struct"
            or "enum" or "delegate").
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SymbolExtensions">
            <summary>
            SymbolExtensions for member symbols.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetParameters(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Get the parameters of a member symbol.  Should be a method, property, or event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetParameterTypes(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Get the types of the parameters of a member symbol.  Should be a method, property, or event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetParameterRefKinds(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Get the ref kinds of the parameters of a member symbol.  Should be a method, property, or event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.CustomModifierCount(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Count the number of custom modifiers in/on the return type
            and parameters of the specified method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.CustomModifierCount(Roslyn.Compilers.CSharp.PropertySymbol)">
            <summary>
            Count the number of custom modifiers in/on the type
            and parameters (for indexers) of the specified property.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.HasCustomModifiers(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Count the number of custom modifiers in/on the return type
            and parameters of the specified method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetMemberArity(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Return the arity of a member.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetBaseEvent(Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            If the event is overrides another, returns the base virtual event.
            Otherwise return the original event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetOwnOrInheritedAddMethod(Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            If the event has a AddMethod, return that.  Otherwise check the overridden
            event, if any.  Repeat for each overridden event.
            </summary>
            <remarks>
            This method exists to mimic the behavior of GetOwnOrInheritedGetMethod, but it
            should only ever look at the overridden event in error scenarios.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetOwnOrInheritedRemoveMethod(Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            If the event has a RemoveMethod, return that.  Otherwise check the overridden
            event, if any.  Repeat for each overridden event.
            </summary>
            <remarks>
            This method exists to mimic the behavior of GetOwnOrInheritedSetMethod, but it
            should only ever look at the overridden event in error scenarios.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.ConstructIfGeneric(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Returns a constructed named type symbol if 'type' is generic, otherwise just returns 'type'
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.IsBaseTypeOf(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Is this type a base type or effective base type of the other type?
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.IsAccessibleViaInheritance(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Returns true if the members of superType are accessible from subType due to inheritance.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.ContainingNamespaceOrType(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            The immediately containing namespace or named type, or null
            if the containing symbol is neither a namespace or named type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.IsContainingSymbolOfAllTypeParameters(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Returns true if all type parameter references within the given
            type belong to containingSymbol or its containing types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.IsContainingSymbolOfAllTypeParameters(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Returns true if all type parameter references within the given
            types belong to containingSymbol or its containing types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolExtensions.GetDocumentationCommentID(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Returns the Documentation Comment ID for the symbol.
            </summary>
            <exception cref="T:System.InvalidOperationException">Thrown if the symbol does not support
            documentation comments.</exception>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterDiagnosticInfo">
            <summary>
            A tuple of TypeParameterSymbol and DiagnosticInfo, created for errors
            reported from ConstraintsHelper rather than creating Diagnostics directly.
            This decouples constraints checking from syntax and Locations, and supports
            callers that may want to create Location instances lazily or not at all.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstraintsHelper">
            <summary>
            Helper methods for generic type parameter constraints. There are two sets of methods: one
            set for resolving constraint "bounds" (that is, determining the effective base type, interface set,
            etc.), and another set for checking for constraint violations in type and method references.
            
            Bounds are resolved by calling one of the ResolveBounds overloads. Typically bounds are
            resolved by each TypeParameterSymbol at, or before, one of the corresponding properties
            (BaseType, Interfaces, etc.) is accessed. Resolving bounds may result in errors (cycles,
            inconsistent constraints, etc.) and it is the responsibility of the caller to report any such
            errors as declaration errors or use-site errors (depending on whether the type parameter
            was from source or metadata) and to ensure bounds are resolved for source type parameters
            even if the corresponding properties are never accessed directly.
            
            Constraints are checked by calling one of the CheckConstraints or CheckAllConstraints
            overloads for any generic type or method reference from source. In some circumstances,
            references are checked at the time the generic type or generic method is bound and constructed
            by the Binder. In those case, it is sufficient to call one of the CheckConstraints overloads
            since compound types (such as A&lt;T&gt;.B&lt;U&gt; or A&lt;B&lt;T&gt;&gt;) are checked
            incrementally as each part is bound. In other cases however, constraint checking needs to be
            delayed to prevent cycles where checking constraints requires binding the syntax that is currently
            being bound (such as the constraint in class C&lt;T&gt; where T : C&lt;T&gt;). In those cases,
            the caller must lazily check constraints, and since the types may be compound types, it is
            necessary to call CheckAllConstraints.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConstraintsHelper.ResolveBounds(Roslyn.Compilers.CSharp.TypeParameterSymbol,Roslyn.Compilers.CSharp.AssemblySymbol,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.TypeParameterSymbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Determine the effective base type, effective interface set, and set of type
            parameters (excluding cycles) from the type parameter constraints. Conflicts
            within the constraints and constraint types are returned as diagnostics.
            'inherited' should be true if the type parameters are from an overridden
            generic method. In those cases, additional constraint checks are applied.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConstraintsHelper.CheckAllConstraints(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.ConversionsBase,Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Check all generic constraints on the given type and any containing types
            (such as A&lt;T&gt; in A&lt;T&gt;.B&lt;U&gt;). This includes checking constraints
            on generic types within the type (such as B&lt;T&gt; in A&lt;B&lt;T&gt;[]&gt;).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConstraintsHelper.CheckConstraints(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.ConversionsBase,Roslyn.Compilers.CSharp.TypeMap,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeParameterSymbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.TypeParameterDiagnosticInfo})">
            <summary>
            Check type parameter constraints for the containing type or method symbol.
            </summary>
            <param name="containingSymbol">The generic type or method.</param>
            <param name="conversions">Conversions instance.</param>
            <param name="substitution">The map from type parameters to type arguments.</param>
            <param name="typeParameters">Containing symbol type parameters.</param>
            <param name="typeArguments">Containing symbol type arguments.</param>
            <param name="diagnosticsBuilder">Diagnostics.</param>
            <returns>True if the constraints were satisfied, false otherwise.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConstraintsHelper.HasPublicParameterlessConstructor(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Return true if the class type has a public parameterless constructor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ConstraintsHelper.IsEncompassedBy(Roslyn.Compilers.CSharp.ConversionsBase,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Returns true if type a is encompassed by type b (spec 6.4.3),
            and returns false otherwise.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingAttributeData">
            <summary>
            Represents a retargeting custom attribute
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Retargeting.RetargetingAttributeData.GetSystemType(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Gets the retargeted System.Type type symbol.
            </summary>
            <param name="targetSymbol">Target symbol on which this attribute is applied.</param>
            <returns>Retargeted System.Type type symbol.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol">
            <summary>
            Represents a primary module of a RetargetingAssemblySymbol. Essentially this is a wrapper around 
            another SourceModuleSymbol that is responsible for retargeting symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            
            Here is how retargeting is implemented in general:
            - Symbols from underlying module are substituted with retargeting symbols.
            - Symbols from referenced assemblies that can be reused as is (i.e. don't have to be retargeted) are
              used as is.
            - Symbols from referenced assemblies that must be retargeted are substituted with result of retargeting.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NonMissingModuleSymbol">
            <summary>
            A <see cref="T:Roslyn.Compilers.CSharp.NonMissingModuleSymbol"/> is a special kind of <see cref="T:Roslyn.Compilers.CSharp.ModuleSymbol"/> that represents
            a module that is not missing, i.e. the "real" thing.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ModuleSymbol">
            <summary>
            Represents a module within an assembly. Every assembly contains one or more modules.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ModuleSymbol.GetReferencedAssemblies">
            <summary>
            Returns an array of assembly identities for assemblies referenced by this module.
            Items at the same position from GetReferencedAssemblies and from GetReferencedAssemblySymbols 
            should correspond to each other.
            
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ModuleSymbol.GetReferencedAssemblySymbols">
            <summary>
            Returns an array of AssemblySymbol objects corresponding to assemblies referenced 
            by this module. Items at the same position from GetReferencedAssemblies and 
            from GetReferencedAssemblySymbols should correspond to each other. If reference is 
            not resolved by compiler, GetReferencedAssemblySymbols returns MissingAssemblySymbol in the
            correspnding item.
            
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ModuleSymbol.SetReferences(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.AssemblyIdentity},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AssemblySymbol},Roslyn.Compilers.CSharp.SourceAssemblySymbol)">
            <summary>
            A helper method for AssemblyManager to set assembly identities for assemblies 
            referenced by this module and corresponding AssemblySymbols.
            </summary>
            <param name="identities">Identities of referenced assemblies (those that are or will be emitted to metadada).</param>
            <param name="symbols">Assembly symbols that the identities are resolved against.</param>
            
            <param name="originatingSourceAssembly">
            Source assembly that triggered creation of this module symbol.
            For debug purposes only, this assembly symbol should not be persisted within
            this module symbol because the module can be shared across multiple source 
            assemblies. This method will only be called for the first one.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ModuleSymbol.LookupTopLevelMetadataType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a top level type referenced from metadata, names should be
            compared case-sensitively.
            </summary>
            <param name="emittedName">
            Full type name, possibly with generic name mangling.
            </param>
            <returns>
            Symbol for the type, or MissingMetadataSymbol if the type isn't found.
            </returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ModuleSymbol.GetModuleNamespace(Roslyn.Compilers.Common.INamespaceSymbol)">
            <summary>
            Given a namespace symbol, returns the corresponding module specific namespace symbol
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.GlobalNamespace">
            <summary>
            Returns a NamespaceSymbol representing the global (root) namespace, with
            module extent, that can be used to browse all of the symbols defined in this module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.ContainingAssembly">
            <summary>
            Returns the containing assembly. Modules are always directly contained by an assembly,
            so this property always returns the same as ContainingSymbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.Kind">
            <summary>
            Returns value 'NetModule' of the <see cref="T:Roslyn.Compilers.CSharp.SymbolKind"/>
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsMissing">
            <summary>
            Does this symbol represent a missing module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.DeclaredAccessibility">
            <summary>
            Returns 'NotApplicable'
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsStatic">
            <summary>
            Returns false because module can't be declared as 'static'.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsVirtual">
            <summary>
            Returns false because module can't be virtual.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsOverride">
            <summary>
            Returns false because module can't be overridden.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsAbstract">
            <summary>
            Returns false because module can't be abstract.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsSealed">
            <summary>
            Returns false because module can't be sealed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.IsExtern">
            <summary>
            Returns false because module can't be defined externally.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.HasAssemblyCompilationRelaxationsAttribute">
            <summary>
            Returns true if there is any applied CompilationRelaxationsAttribute assembly attribute for this module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.HasAssemblyRuntimeCompatibilityAttribute">
            <summary>
            Returns true if there is any applied RuntimeCompatibilityAttribute assembly attribute for this module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ModuleSymbol.DefaultMarshallingCharSet">
            <summary>
            Default char set for contained types, or null if not specified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.referencedAssemblySymbols">
            <summary>
            An array of AssemblySymbol objects corresponding to assemblies referenced by this module.
            The array and its content is provided by AssemblyManager and must not be modified.
            Items at the same position from this array and from GetReferencedAssemblySymbols should 
            correspond to each other. If reference is not resolved by compiler, corresponding item in 
            this array is MissingAssemblySymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.referencedAssemblies">
            <summary>
            An array of assembly identities for assemblies referenced by this module.
            The array and its content is provided by AssemblyManager and must not be modified.
            Items at the same position from this array and from ModuleSymbol.referencedAssemblySymbols
            should correspond to each other. This array is returned by GetReferencedAssemblies() method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.GetReferencedAssemblies">
            <summary>
            Returns an array of assembly identities for assemblies referenced by this module.
            Items at the same position from GetReferencedAssemblies and from GetReferencedAssemblySymbols 
            should correspond to each other.
            
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.GetReferencedAssemblySymbols">
            <summary>
            Returns an array of AssemblySymbol objects corresponding to assemblies referenced 
            by this module. Items at the same position from GetReferencedAssemblies and 
            from GetReferencedAssemblySymbols should correspond to each other. If reference is 
            not resolved by compiler, GetReferencedAssemblySymbols returns MissingAssemblySymbol in the
            correspnding item.
            
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.SetReferences(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.AssemblyIdentity},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AssemblySymbol},Roslyn.Compilers.CSharp.SourceAssemblySymbol)">
            <summary>
            A helper method for AssemblyManager to set assembly identities for assemblies 
            referenced by this module and corresponding AssemblySymbols.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.LookupTopLevelMetadataType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a top level type referenced from metadata, names should be
            compared case-sensitively.
            </summary>
            <param name="emittedName">
            Full type name, possibly with generic name mangling.
            </param>
            <returns>
            Symbol for the type, or MissingMetadataSymbol if the type isn't found.
            </returns>
            <remarks></remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NonMissingModuleSymbol.IsMissing">
            <summary>
            Does this symbol represent a missing module.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.SymbolMap">
            <summary>
            Retargeting map from underlying module to this one.
            
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.retargetingAssembly">
            <summary>
            Owning RetargetingAssemblySymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.underlyingModule">
            <summary>
            The underlying ModuleSymbol, cannot be another RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.retargetingAssemblyMap">
            <summary>
            The map that captures information about what assembly should be retargeted 
            to what assembly. Key is the AssemblySymbol referenced by the underlying module,
            value is the corresponding AssemblySymbol referenced by this module, and corresponding
            retargeting map for symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.#ctor(Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol,Roslyn.Compilers.CSharp.SourceModuleSymbol)">
            <summary>
            Constructor.
            </summary>
            <param name="retargetingAssembly">
            Owning assembly.
            </param>
            <param name="underlyingModule">
            The underlying ModuleSymbol, cannot be another RetargetingModuleSymbol.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.SetReferences(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.AssemblyIdentity},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AssemblySymbol},Roslyn.Compilers.CSharp.SourceAssemblySymbol)">
            <summary>
            A helper method for AssemblyManager to set AssemblySymbols for assemblies 
            referenced by this module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.UnderlyingModule">
            <summary>
            The underlying ModuleSymbol, cannot be another RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.RetargetingSymbolTranslator.SymbolMap">
            <summary>
            Retargeting map from underlying module to the retargeting module.
            
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.RetargetingSymbolTranslator.RetargetingAssembly">
            <summary>
            RetargetingAssemblySymbol owning retargetingModule.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.RetargetingSymbolTranslator.UnderlyingModule">
            <summary>
            The underlying ModuleSymbol for retargetingModule.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Retargeting.RetargetingModuleSymbol.RetargetingSymbolTranslator.RetargetingAssemblyMap">
            <summary>
            The map that captures information about what assembly should be retargeted 
            to what assembly. Key is the AssemblySymbol referenced by the underlying module,
            value is the corresponding AssemblySymbol referenced by the reatergeting module, and 
            corresponding retargeting map for symbols.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SignatureOnlyPropertySymbol">
            <summary>
            A representation of a property symbol that is intended only to be used for comparison purposes
            (esp in PropertySignatureComparer).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers">
            <summary>
            Encapsulates the MakeOverriddenOrHiddenMembers functionality for methods, properties (including indexers), 
            and events.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.MakeOverriddenOrHiddenMembersWorker(Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Walk up the type hierarchy from ContainingType and list members that this
            member either overrides (accessible members with the same signature, if this
            member is declared "override") or hides (accessible members with the same name
            but different kinds, plus members that would be in the overrides list if
            this member were not declared "override").
            
            Members in the overridden list may be non-virtual or may have different
            accessibilities, types, accessors, etc.  They are really candidates to be
            overridden.
            
            Members in the hidden list are definitely hidden.
            
            Members in the runtime overridden list are indistinguishable from the members
            in the overridden list from the point of view of the runtime (see
            FindOtherOverriddenMethodsInContainingType for details).
            </summary>
            <remarks>
            In the presence of non-C# types, the meaning of "same signature" is rather
            complicated.  If this member isn't from source, then it refers to the runtime's
            notion of signature (i.e. including return type, custom modifiers, etc).
            If this member is from source, then the process is (conceptually) as follows.
            
            1) Walk up the type hierarchy, recording all matching members with the same
               signature, ignoring custom modifiers and return type.  Stop if a hidden
               member is encountered.
            2) Apply the following "tie-breaker" rules until you have at most one member,
               a) Prefer members in more derived types.
               b) Prefer an exact custom modifier match (i.e. none, for a source member).
               c) Prefer fewer custom modifiers (values/positions don't matter, just count).
               d) Prefer earlier in GetMembers order (within the same type).
            3) If a member remains, search its containing type for other members that
               have the same C# signature (overridden members) or runtime signature
               (runtime overridden members).
            
            In metadata, properties participate in overriding only through their accessors.
            That is, property/event accessors may implicitly or explicitly override other methods
            and a property/event can be considered to override another property/event if its accessors
            override those of the other property/event.
            This implementation (like Dev10) will not follow that approach.  Instead, it is
            based on spec section 10.7.5, which treats properties as entities in their own
            right.  If all property/event accessors have conventional names in metadata and nothing
            "unusual" is done with explicit overriding, this approach should produce the same
            results as an implementation based on accessor overriding.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.MakePropertyAccessorOverriddenOrHiddenMembers(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.PropertySymbol)">
            <summary>
            In the CLI, accessors are just regular methods and their overriding/hiding rules are the same as for
            regular methods.  In C#, however, accessors are intimately connected with their corresponding properties.
            Rather than walking up the type hierarchy from the containing type of this accessor, looking for members
            with the same name, MakePropertyAccessorOverriddenOrHiddenMembers delegates to the associated property.
            For an accessor to hide a member, the hidden member must be a corresponding accessor on a property hidden
            by the associated property.  For an accessor to override a member, the overridden member must be a
            corresponding accessor on a property (directly or indirectly) overridden by the associated property.
            
            Example 1:
            
            public class A { public virtual int P { get; set; } }
            public class B : A { public override int P { get { return 1; } } } //get only
            public class C : B { public override int P { set { } } } // set only
            
            C.P.set overrides A.P.set because C.P.set is the setter of C.P, which overrides B.P,
            which overrides A.P, which has A.P.set as a setter.
            
            Example 2:
            
            public class A { public virtual int P { get; set; } }
            public class B : A { public new virtual int P { get { return 1; } } } //get only
            public class C : B { public override int P { set { } } } // set only
            
            C.P.set does not override any method because C.P overrides B.P, which has no setter
            and does not override a property.
            </summary>
            <param name="accessor">This accessor.</param>
            <param name="associatedProperty">The property associated with this accessor.</param>
            <returns>Members overridden or hidden by this accessor.</returns>
            <remarks>
            This method is intended to return values consistent with the definition of C#, which
            may differ from the actual meaning at runtime.
            
            Note: we don't need a different path for interfaces - Property.OverriddenOrHiddenMembers handles that.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.MakeEventAccessorOverriddenOrHiddenMembers(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            In the CLI, accessors are just regular methods and their overriding/hiding rules are the same as for
            regular methods.  In C#, however, accessors are intimately connected with their corresponding events.
            Rather than walking up the type hierarchy from the containing type of this accessor, looking for members
            with the same name, MakeEventAccessorOverriddenOrHiddenMembers delegates to the associated event.
            For an accessor to hide a member, the hidden member must be a corresponding accessor on a event hidden
            by the associated event.  For an accessor to override a member, the overridden member must be a
            corresponding accessor on a event (directly or indirectly) overridden by the associated event.
            </summary>
            <param name="accessor">This accessor.</param>
            <param name="associatedEvent">The event associated with this accessor.</param>
            <returns>Members overridden or hidden by this accessor.</returns>
            <remarks>
            This method is intended to return values consistent with the definition of C#, which
            may differ from the actual meaning at runtime.
            
            Note: we don't need a different path for interfaces - Event.OverriddenOrHiddenMembers handles that.
            
            CONSIDER: It is an error for an event to have only one accessor.  Currently, we mimic the behavior for
            properties, for consistency, but an alternative approach would be to say that nothing is overridden.
            
            CONSIDER: is there a way to share code with MakePropertyAccessorOverriddenOrHiddenMembers?
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.FindOverriddenOrHiddenMembersInType(Roslyn.Compilers.CSharp.Symbol,System.Boolean,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol,System.Boolean@,Roslyn.Compilers.CSharp.Symbol@,System.Int32@,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Look for overridden or hidden members in a specific type.
            </summary>
            <param name="member">Member that is hiding or overriding.</param>
            <param name="memberIsFromSource">True if member is from source (member.OriginalDefinition.IsFromSource).</param>
            <param name="thisContainingType">The type that contains member (member.ContainingType).</param>
            <param name="currType">The type to search.</param>
            <param name="currTypeHasExactMatch">Will be set to true if there's an exact signature match (including custom modifiers).</param>
            <param name="currTypeBestMatch">
            A member with the same signature if currTypeHasExactMatch is true,
            a member with (a minimal number of) different custom modifiers if there is one,
            and null otherwise.</param>
            <param name="minCustomModifierCount">Running minimal custom modifier count.  May not be updated if exact match found.</param>
            <param name="hiddenBuilder">Hidden members (same name, different kind) will be added to this builder.</param>
            <remarks>
            There is some similarity between this member and TypeSymbol.FindPotentialImplicitImplementationMethodDeclaredInType.
            When making changes to this member, think about whether or not they should also be applied in TypeSymbol.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.FindRelatedMembers(System.Boolean,System.Boolean,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol}@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol}@,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            If representative member is non-null and is contained in a constructed type, then find
            other members in the same type with the same signature.  If this is an override member,
            add them to the overridden and runtime overridden lists.  Otherwise, add them to the
            hidden list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.AddHiddenMemberIfNotDestructorOperatorOrConversion(Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.Symbol)">
            <summary>
            Destructors are never considered to be hidden, so filter them out.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.FindOtherOverriddenMethodsInContainingType(Roslyn.Compilers.CSharp.Symbol,System.Boolean,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Having found the best member to override, we want to find members with the same signature on the
            best member's containing type.
            </summary>
            <param name="representativeMember">
            The member that we consider to be overridden (may have different custom modifiers from the overriding member).
            Assumed to already be in the overridden and runtime overridden lists.
            </param>
            <param name="overridingMemberIsFromSource">
            If the best match was based on the custom modifier count, rather than the custom modifiers themselves 
            (because the overriding member is in source), then we should use the count when determining whether the 
            override is ambiguous.
            </param>
            <param name="overriddenBuilder">
            If the declaring type is constructed, it's possible that two (or more) members have the same signature
            (including custom modifiers).  Return a list of such members so that we can report the ambiguity.
            </param>
            <param name="runtimeOverriddenBuilder">
            If the declaring type is constructed, it's possible that two (or more) members have the same signature
            (including custom modifiers) in metadata (no ref/out distinction).  Return a list of such members so
            that we can report the ambiguity.
            
            Even in a non-generic type, it's possible for two indexers to have the same signature.  For example,
            this would be the case if the default member of a type is "get_Item" and indexers "A" and "B", 
            with the same signature, both have an indexer called "get_Item".
            
            From: SymbolPreparer.cpp
            DevDiv Bugs 115384: Both out and ref parameters are implemented as references. In addition, out parameters are 
            decorated with OutAttribute. In CLR when a signature is looked up in virtual dispatch, CLR does not distinguish
            between these to parameter types. The choice is the last method in the vtable. Therefore we check and warn if 
            there would potentially be a mismatch in CLRs and C#s choice of the overriden method. Unfortunately we have no 
            way of communicating to CLR which method is the overriden one. We only run into this problem when the the 
            parameters are generic.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.FindOtherHiddenMembersInContainingType(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Having found that we are hiding a method with exactly the same signature
            (including custom modifiers), we want to find methods with the same signature
            on the declaring type because they will also be hidden.
            (If the declaring type is constructed, it's possible that two or more
            methods have the same signature (including custom modifiers).)
            (If the representative member is an indexer, it's possible that two or more
            properties have the same signature (including custom modifiers, even in a
            non-generic type).
            </summary>
            <param name="representativeMember">
            The member that we consider to be hidden (must have exactly the same custom modifiers as the hiding member).
            Assumed to already be in hiddenBuilder.
            </param>
            <param name="hiddenBuilder">
            Will have all other members with the same signature (including custom modifiers) as 
            representativeMember added.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.GetRuntimeOverriddenMethodIgnoringNewSlot(Roslyn.Compilers.CSharp.MethodSymbol,System.Boolean)">
            <summary>
            Given a method, find the method that it overrides from the perspective of the CLI.
            Key differences from C#: non-virtual methods are ignored, the RuntimeSignatureComparer
            is used (i.e. consider return types, ignore ref/out distinction).
            </summary>
            <remarks>
            WARN: Must not check method.MethodKind - PEMethodSymbol.ComputeMethodKind uses this method.
            NOTE: Does not check whether the given method will be marked "newslot" in metadata (which
            would indicate that it does not override anything).
            WARN: If the method may override a source method and declaration diagnostics have yet to
            be computed, then it is important to pass ignoreInterfaceImplementationChanges: true
            (see MethodSymbol.IsMetadataVirtual for details).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersHelpers.IsOverriddenSymbolAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <remarks>
            Note that the access check is done using the original definitions.  This is because we want to avoid
            reductions in accessibility that result from type argument substitution (e.g. if an inaccessible type
            has been passed as a type argument).
            See DevDiv #11967 for an example.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EventSymbolExtensions.GetLeastOverriddenEvent(Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            Walk up OverriddenEvent and return the first EventSymbol for which OverriddenEvent is null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EventSymbolExtensions.GetBadEventUsageDiagnosticInfo(Roslyn.Compilers.CSharp.EventSymbol)">
            <summary>
            There are two BadEventUsage error codes and this method decides which one should
            be used for a given event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbolExtensions.InferExtensionMethodTypeArguments(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            If the extension method is applicable based on the "this" argument type, return
            the method constructed with the inferred type arguments. If the method is not an
            unconstructed generic method, type inference is skipped. If the method is not
            applicable, or if constraints when inferring type parameters from the "this" type
            are not satisfied, the return value is null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbolExtensions.IsRuntimeFinalizer(Roslyn.Compilers.CSharp.MethodSymbol,System.Boolean)">
            <summary>
            The runtime considers a method to be a finalizer (i.e. a method that should be invoked
            by the garbage collector) if it (directly or indirectly) overrides System.Object.Finalize.
            </summary>
            <remarks>
            As an optimization, return true immediately for metadata methods with MethodKind
            Destructor - they are guaranteed to be finalizers.
            </remarks>
            <param name="method">Method to inspect.</param>
            <param name="skipFirstMethodKindCheck">This method is used to determine the method kind of
            a PEMethodSymbol, so we may need to avoid using MethodKind until we move on to a different
            MethodSymbol.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodSymbolExtensions.ConstructIfGeneric(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Returns a constructed method symbol if 'method' is generic, otherwise just returns 'method'
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NamespaceExtent">
            <summary>
            A NamespaceExtent represents whether a namespace contains types and sub-namespaces from a
            particular module, assembly, or merged across all modules (source and metadata) in a
            particular compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceExtent.#ctor(Roslyn.Compilers.CSharp.ModuleSymbol)">
            <summary>
            Create a NamespaceExtent that represents a given ModuleSymbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceExtent.#ctor(Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            Create a NamespaceExtent that represents a given AssemblySymbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceExtent.#ctor(Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Create a NamespaceExtent that represents a given Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceExtent.Kind">
            <summary>
            Returns what kind of extent: Module, Assembly, or Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceExtent.Module">
            <summary>
            If the Kind is ExtendKind.Module, returns the module symbol that this namespace
            encompasses. Otherwise throws InvalidOperationException.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceExtent.Assembly">
            <summary>
            If the Kind is ExtendKind.Assembly, returns the assembly symbol that this namespace
            encompasses. Otherwise throws InvalidOperationException.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceExtent.Compilation">
            <summary>
            If the Kind is ExtendKind.Compilation, returns the compilation symbol that this
            namespace encompasses. Otherwise throws InvalidOperationException.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.RangeVariableSymbol">
            <summary>
            A RangeVariableSymbol represents an identifier introduced in a query expression as the
            identifier of a "from" clause, an "into" query continuation, a "let" clause, or a "join" clause.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RangeVariableSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RangeVariableSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ReducedExtensionMethodSymbol">
            <summary>
            An extension method with the "this" parameter removed.
            Used for the public binding API only, not for compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ReducedExtensionMethodSymbol.Create(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Return the extension method in reduced form if the extension method
            is applicable, and satisfies type parameter constraints, based on the
            "this" argument type. Otherwise, returns null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.EventSymbol">
            <summary>
            Represents an event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EventSymbol.GetFieldAttributes">
            <summary>
            Gets the attributes on event's associated field, if any.
            Returns an empty <see cref="T:Roslyn.Compilers.ReadOnlyArray`1"/> if
            there are no attributes.
            </summary>
            <remarks>
            This publicly exposes the attributes of the internal backing field.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.EventSymbol.Accept``2(Roslyn.Compilers.CSharp.SymbolVisitor{``0,``1},``0)">
            <summary>
            Implements visitor pattern.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.Type">
            <summary>
            The type of the event. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.AddMethod">
            <summary>
            The 'add' accessor of the event.  Null only in error scenarios.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.RemoveMethod">
            <summary>
            The 'remove' accessor of the event.  Null only in error scenarios.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.HasSpecialName">
            <summary>
            True if this symbol has a special name (metadata flag SpecialName is set).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.OverriddenEvent">
            <summary>
            Returns the overridden event, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.IsExplicitInterfaceImplementation">
            <summary>
            Source: Was the member name qualified with a type name?
            Metadata: Is the member an explicit implementation?
            </summary>
            <remarks>
            Will not always agree with ExplicitInterfaceImplementations.Any()
            (e.g. if binding of the type part of the name fails).
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.ExplicitInterfaceImplementations">
            <summary>
            Returns interface events explicitly implemented by this event.
            </summary>
            <remarks>
            Events imported from metadata can explicitly implement more than one event.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventSymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingEventSymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingEventSymbol.underlyingEvent">
            <summary>
            The underlying EventSymbol, cannot be another RetargetingEventSymbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceEventFieldSymbol">
            <summary>
            A delegate field associated with a <see cref="T:Roslyn.Compilers.CSharp.SourceFieldLikeEventSymbol"/>.
            </summary>
            <remarks>
            SourceFieldSymbol takes care of the initializer (plus "var" in the interactive case).
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedFieldLikeEventAccessorSymbol">
            <summary>
            Event accessor that has been synthesized for a field-like event declared in source.
            </summary>
            <remarks>
            Associated with <see cref="T:Roslyn.Compilers.CSharp.SourceFieldLikeEventSymbol"/>.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceFieldLikeEventSymbol">
            <summary>
            This class represents an event declared in source without explicit accessors.
            It implicitly has an associated field (of the same name) and thread-safe accessors.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceEventSymbol">
            <summary>
            This class represents an event declared in source.  It may be either
            field-like (see SourceFieldLikeEventSymbol) or property-like (see
            SourceCustomEventSymbol).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceEventSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceEventSymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourceEventSymbol.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceEventSymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceEventSymbol.GetEarlyDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from special early bound well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceEventSymbol.AttributeDeclarationSyntaxList">
            <summary>
            Gets the syntax list of custom attributes applied on the event symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceEventSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute. 
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceEventSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceCustomEventSymbol">
            <summary>
            This class represents an event declared in source with explicit accessors
            (i.e. not a field-like event).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceCustomEventAccessorSymbol">
            <summary>
            This class represents an event accessor declared in source 
            (i.e. not one synthesized for a field-like event).
            </summary>
            <remarks>
            The accessors are associated with <see cref="T:Roslyn.Compilers.CSharp.SourceCustomEventSymbol"/>.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedTypeParameterSymbol">
            <summary>
            A type parameter for a synthesized class or method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterConstraintClause">
            <summary>
            A simple representation of a type parameter constraint clause
            as a set of constraint bits and a set of constraint types.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEEventSymbol">
            <summary>
            The class to represent all events imported from a PE/module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Metadata.PE.PEEventSymbol.ExplicitInterfaceImplementations">
            <summary>
            Intended behavior: this event, E, explicitly implements an interface event, IE, 
            if E.add explicitly implements IE.add and E.remove explicitly implements IE.remove.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PEPropertyOrEventHelpers">
            <summary>
            Helper methods that exist to share code between properties and events.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEAttributeData">
            <summary>
            Represents a PE custom attribute
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PEAttributeData.IsTargetAttribute(System.String,System.String)">
            <summary>
            Matches an attribute by metadata namespace, metadata type name. Does not load the type symbol for
            the attribute.
            </summary>
            <param name="namespaceName"></param>
            <param name="typeName"></param>
            <returns>True if the attribute data matches.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PEAttributeData.IsTargetAttribute(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.AttributeDescription)">
            <summary>
            Matches an attribute by metadata namespace, metadata type name and metadata signature. Does not load the
            type symbol for the attribute.
            </summary>
            <param name="targetSymbol">Target symbol.</param>
            <param name="description">Attribute to match.</param>
            <returns>True if the attribute matches.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingModuleSymbol">
            <summary>
            A <see cref="T:Roslyn.Compilers.CSharp.MissingModuleSymbol"/> is a special kind of <see cref="T:Roslyn.Compilers.CSharp.ModuleSymbol"/> that represents
            a module that couldn't be found.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingNamespaceSymbol">
            <summary>
            A <see cref="T:Roslyn.Compilers.CSharp.MissingNamespaceSymbol"/> is a special kind of <see cref="T:Roslyn.Compilers.CSharp.NamespaceSymbol"/> that represents
            a namespace that couldn't be found.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NamespaceSymbol">
            <summary>
            Represents a namespace.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceSymbol.GetNamespaceMembers">
            <summary>
            Get all the members of this symbol that are namespaces.
            </summary>
            <returns>An IEnumerable containing all the namespaces that are members of this symbol.
            If this symbol has no namespace members, returns an empty IEnumerable. Never returns
            null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceSymbol.Accept``2(Roslyn.Compilers.CSharp.SymbolVisitor{``0,``1},``0)">
            <summary>
            Implements visitor pattern.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceSymbol.LookupNestedNamespace(Roslyn.Compilers.ReadOnlyArray{System.String})">
            <summary>
            Lookup a nested namespace.
            </summary>
            <param name="names">
            Sequence of names for nested child namespaces.
            </param>
            <returns>
            Symbol for the most nested namespace, if found. Nothing 
            if namespace or any part of it can not be found.
            </returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NamespaceSymbol.GetExtensionMethods(Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.MethodSymbol},System.String,System.Int32,Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Add all extension methods in this namespace to the given list. If name or arity
            or both are provided, only those extension methods that match are included.
            </summary>
            <param name="methods">Methods list</param>
            <param name="nameOpt">Optional method name</param>
            <param name="arity">Method arity</param>
            <param name="options">Lookup options</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.IsGlobalNamespace">
            <summary>
            Returns whether this namespace is the unnamed, global namespace that is 
            at the root of all namespaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.Extent">
            <summary>
            Namespaces are by their nature open-ended, but a NamespaceSymbol contains a specific set
            of members. The set of members contained by a NamespaceSymbol is denoted by the Extent
            of the namespace. If a Namespace has an module Extent, it contains members of the
            namespace that are present in a particular module. If a Namespace has an compilation
            extent, it contains all members of the namespace in a compilation, including those
            defined in source and all directly referenced metadata assemblies (or added metadata
            modules). 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.ConstituentNamespaces">
            <summary>
            If a namespace has Assembly or Compilation extent, it may be composed of multiple
            namespaces that are merged together. If so, ConstituentNamespaces returns
            all the namespaces that were merged. If this namespace was not merged, returns
            an array containing only this namespace.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.ContainingAssembly">
            <summary>
            Containing assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.Kind">
            <summary>
            Gets the kind of this symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.DeclaredAccessibility">
            <summary>
            Get this accessibility that was declared on this symbol. For symbols that do not have
            accessibility declared on them, returns NotApplicable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.IsStatic">
            <summary>
            Returns true if this symbol is "static"; i.e., declared with the "static" modifier or
            implicitly static.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.IsAbstract">
            <summary>
            Returns true if this symbol was declared as requiring an override; i.e., declared with
            the "abstract" modifier. Also returns true on a type declared as "abstract", all
            interface types, and members of interface types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.IsSealed">
            <summary>
            Returns true if this symbol was declared to override a base class member and was also
            sealed from further overriding; i.e., declared with the "sealed" modifier.  Also set for
            types that do not allow a derived class (declared with "sealed" or "static" or "struct"
            or "enum" or "delegate").
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceSymbol.ImplicitType">
            <summary>
            Returns an implicit type symbol for this namespace or null if there is none. This type
            wraps misplaced global code.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol">
            <summary>
            A <see cref="T:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol"/> is a special kind of <see cref="T:Roslyn.Compilers.CSharp.AssemblySymbol"/> that represents
            an assembly that is not missing, i.e. the "real" thing.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.emittedNameToTypeMap">
            <summary>
            This is a cache similar to the one used by MetaImport::GetTypeByName
            in native compiler. The difference is that native compiler pre-populates 
            the cache when it loads types. Here we are populating the cache only
            with things we looked for, so that next time we are looking for the same 
            thing, the lookup is fast. This cache also takes care of TypeForwarders. 
            Gives about 8% win on subsequent lookups in some scenarios.     
            </summary>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.LookupTopLevelMetadataType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a top level type referenced from metadata, names should be
            compared case-sensitively.
            </summary>
            <param name="emittedName">
            Full type name, possibly with generic name mangling.
            </param>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.LookupTopLevelMetadataTypeWithCycleDetection(Roslyn.Compilers.Internal.MetadataTypeName@,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.AssemblySymbol})">
            <summary>
            NOTE: Methods other than this one should call LookupTopLevelMetadataType, rather than this method.
            
            Lookup a top level type referenced from metadata, names should be
            compared case-sensitively.  Detect cycles during lookup.
            </summary>
            <param name="emittedName">
            Full type name, possibly with generic name mangling.
            </param>
            <param name="visitedAssemblies">
            List of assemblies lookup has already visited (since type forwarding can introduce cycles).
            </param>
            <remarks>
            This is the only place where we look into other assemblies for forwarding types, so this is the only
            place where we need to pass along a list of visited assemblies.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.CachedTypeByEmittedName(System.String)">
            <summary>
            For test purposes only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.IsMissing">
            <summary>
            Does this symbol represent a missing assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.GlobalNamespace">
            <summary>
            Gets the merged root namespace that contains all namespaces and types defined in the modules
            of this assembly. If there is just one module in this assembly, this property just returns the 
            GlobalNamespace of that module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NonMissingAssemblySymbol.EmittedNameToTypeMapCount">
            <summary>
            For test purposes only.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceLocalSymbol">
            <summary>
            Represents a local variable in a method body.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceLocalSymbol.isSpecificallyNotPinned">
            <summary>
            There are three ways to initialize a fixed statement local:
              1) with an address;
              2) with an array (or fixed-size buffer); or
              3) with a string.
            
            In the first two cases, the resulting local will be emitted with a "pinned" modifier.
            In the third case, it is not the fixed statement local but a synthesized temp that is pinned.  
            Unfortunately, we can't distinguish these cases when the local is declared; we only know
            once we have bound the initializer.
            </summary>
            <remarks>
            CompareExchange doesn't support bool, so use an int.  First bit is true/false, second bit 
            is read/unread (debug-only).
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceLocalSymbol.constantTuple">
            <summary>
            Store the constant value and the corresponding diagnostics together
            to avoid having the former set by one thread and the latter set by
            another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceLocalSymbol.MakeConstantTuple(Roslyn.Compilers.CSharp.LocalSymbol,Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Determine the constant value of this local and the corresponding diagnostics.
            Set both to constantTuple in a single operation for thread safety.
            </summary>
            <param name="inProgress">Null for the initial call, non-null if we are in the process of evaluating a constant.</param>
            <param name="boundInitValue">If we already have the bound node for the initial value, pass it in to avoid recomputing it.</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceLocalSymbol.Name">
            <summary>
            Gets the name of the local variable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceLocalSymbol.Locations">
            <summary>
            Gets the locations where the local symbol was originally defined in source.
            There should not be local symbols from metadata, and there should be only one local variable declared.
            TODO: check if there are multiple same name local variables - error symbol or local symbol?
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamespaceSymbol.RegisterDeclaredCorTypes">
            <summary>
            Register COR types declared in this namespace, if any, in the COR types cache.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.IsRestrictedBaseType(Roslyn.Compilers.SpecialType)">
            <summary>
            Returns true if the type cannot be used as an explicit base class.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetSynthesizedExplicitImplementations(System.Threading.CancellationToken)">
            <summary>
            In some circumstances (e.g. implicit implementation of an interface method by a non-virtual method in a 
            base type from another assembly) it is necessary for the compiler to generate explicit implementations for
            some interface methods.  They don't go in the symbol table, but if we are emitting, then we should
            generate code for them.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.AddHidingAbstractDiagnostic(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Location,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag,System.Boolean@)">
            <summary>
            If necessary, report a diagnostic for a hidden abstract member.
            </summary>
            <returns>True if a diagnostic was reported.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.CheckInterfaceUnification(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            It is invalid for a type to directly (vs through a base class) implement two interfaces that
            unify (i.e. are the same for some substitution of type parameters).
            </summary>
            <remarks>
            CONSIDER: check this while building up InterfacesAndTheirBaseInterfaces (only in the SourceNamedTypeSymbol case).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.ImplementInterfaceMember(Roslyn.Compilers.CSharp.TypeSymbol.SymbolAndDiagnostics,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.SynthesizedExplicitImplementationMethod})">
            <summary>
            Though there is a method that C# considers to be an implementation of the interface method, that
            method may not be considered an implementation by the CLR.  In particular, implicit implementation
            methods that are non-virtual or that have different (usually fewer) custom modifiers than the
            interface method, will not be considered CLR overrides.  To address this problem, we either make
            them virtual (in metadata, not in C#), or we introduce an explicit interface implementation that
            delegates to the implicit implementation.
            </summary>
            <param name="implementingMemberAndDiagnostics">Returned from FindImplementationForInterfaceMemberWithDiagnostics.</param>
            <param name="interfaceMember">The interface method or property that is being implemented.</param>
            <param name="synthesizedImplementations">A list to which we should add any stubs that we generate.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.IsPossibleImplementationUnderRuntimeRules(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            The CLR will only look for an implementation of an interface method in a type that
              1) declares that it implements that interface; or
              2) is a base class of a type that declares that it implements the interface but not
                   a subtype of a class that declares that it implements the interface.
                   
            For example,
            
              interface I
              class A
              class B : A, I
              class C : B
              class D : C, I
            
            Suppose the runtime is looking for D's implementation of a member of I.  It will look in 
            D because of (1), will not look in C, will look in B because of (1), and will look in A
            because of (2).
            
            The key point is that it does not look in C, which C# *does*.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.IsOverrideOfPossibleImplementationUnderRuntimeRules(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            If C# picks a different implementation than the CLR (see IsPossibleImplementationUnderClrRules), then we might
            still be okay, but dynamic dispath might result in C#'s choice getting called anyway.
            </summary>
            <remarks>
            This is based on SymbolPreparer::IsCLRMethodImplSame in the native compiler.
            
            ACASEY: What the native compiler actually does (I think) is compute the C# answer, compute the CLR answer,
            and then confirm that they override the same method.  What I've done here is check for the situations
            where the answers could disagree.  I believe the results will be equivalent.  If in doubt, a more conservative
            check would be implementingMethod.ContainingType.InterfacesAndTheirBaseInterfaces.Contains(@interface).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.AddPointedAtType(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Whenever a pointer type is referenced in syntax, we have to check whether
            the pointed at type is managed.  For struct types, this means checking
            whether any of the instance fields have managed types.  If one of the
            instance field types refers back to this type, then we're going to hit
            infinite recursion because we don't expose the types of instance fields
            of this type until BindType has been called on the syntax and BindType
            wants to consume the instance field types for IsManagedType (see
            BaseTypeAnalysis.IsManagedType for the actual implementation).  We break
            this cycle by having BindType store enough information to do the check
            and report a diagnostic during ForceComplete.  This method holds that
            information.
            
            WARN: lazyPointedAtTypes is consumed by CheckForPointedAtManagedTypes,
            so never call this after that method has started.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetEarlyAttributeDecodingMembers">
            <summary>
            During early attribute decoding, we consider a safe subset of all members that will not
            cause cyclic dependencies.  Get all such members for this symbol.
            
            In particular, this method will return nested types and fields (other than auto-property
            backing fields).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetEarlyAttributeDecodingMembers(System.String)">
            <summary>
            During early attribute decoding, we consider a safe subset of all members that will not
            cause cyclic dependencies.  Get all such members for this symbol that have a particular name.
            
            In particular, this method will return nested types and fields (other than auto-property
            backing fields).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.EffectiveAccessibility">
            <summary>
            Compute the "effective accessibility" of the current class for the purpose of warnings about unused fields.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.CheckForPointedAtManagedTypes(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            If this is a struct type and one or more members referenced a pointer type in 
            its declaration, then the pointer type - along with the corresponding syntax -
            is stored in lazyPointedAtTypes.  Walk over that structure and report a 
            diagnostic for each managed type encountered.
            
            WARN: lazyPointedAtTypes may be incomplete if the members of this type are not
            complete, so never call this before CompletionPart.MembersCompleted is set.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.MergeIndexersAndNonIndexers(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Merge (already ordered) non-type, non-indexer members with (already ordered) indexer members.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.FixPartialMember(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.SourceMemberMethodSymbol,Roslyn.Compilers.CSharp.SourceMemberMethodSymbol)">
            <summary>
            Fix up a partial method by combining its defining and implementing declarations, updating the array of symbols (by name),
            and returning the combined symbol.
            </summary>
            <param name="symbols">The symbols array containing both the latent and implementing declaration</param>
            <param name="part1">One of the two declarations</param>
            <param name="part2">The other declaration</param>
            <returns>An updated symbols array containing only one method symbol representing the two parts</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.CheckForMemberConflictWithPropertyAccessor(Roslyn.Compilers.CSharp.PropertySymbol,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Report an error if a member (other than a method) exists with the same name
            as the property accessor, or if a method exists with the same name and signature.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.CheckForMemberConflictWithEventAccessor(Roslyn.Compilers.CSharp.EventSymbol,System.Boolean,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Report an error if a member (other than a method) exists with the same name
            as the event accessor, or if a method exists with the same name and signature.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetAccessorOrPropertyLocation(Roslyn.Compilers.CSharp.PropertySymbol,System.Boolean)">
            <summary>
            Return the location of the accessor, or if no accessor, the location of the property.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetAccessorOrEventLocation(Roslyn.Compilers.CSharp.EventSymbol,System.Boolean)">
            <summary>
            Return the location of the accessor, or if no accessor, the location of the event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.ParametersMatchPropertyAccessor(Roslyn.Compilers.CSharp.PropertySymbol,System.Boolean,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ParameterSymbol})">
            <summary>
            Return true if the method parameters match the parameters of the
            property accessor, including the value parameter for the setter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.ParametersMatchEventAccessor(Roslyn.Compilers.CSharp.EventSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ParameterSymbol})">
            <summary>
            Return true if the method parameters match the parameters of the
            event accessor, including the value parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.lazyTypeParameterConstraints">
            <summary>
            A collection of type parameter constraints, populated when
            constraints for the first type parameter are requested.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetEarlyDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from special early bound well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.GetSynthesizedAttributes">
            <remarks>
            These won't be returned by GetAttributes on source methods, but they
            will be returned by GetAttributes on metadata symbols.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.BaseType">
            <summary>
            Gets the BaseType of this type. If the base type could not be determined, then 
            an instance of ErrorType is returned. If this kind of type does not have a base type
            (for example, interfaces), null is returned. Also the special class System.Object
            always has a BaseType of null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.Interfaces">
            <summary>
            Gets the set of interfaces that this type directly implements. This set does not include
            interfaces that are base interfaces of directly implemented interfaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.EnumUnderlyingType">
            <summary>
            For enum types, gets the underlying type. Returns null on all other
            kinds of types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.EnumValueField">
            <summary>
            For enum types, returns the synthesized instance field used
            for generating metadata. Returns null for non-enum types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceNamedTypeSymbol.MembersAndInitializers">
            <summary>
            Encapsulates information about the non-type members of a (i.e. this) type.
              1) For non-initializers, symbols are created and stored in a list.
              2) For fields, the symbols are stored in (1) and the initializers are
                   stored with other initialized fields from the same syntax tree with
                   the same static-ness.
              3) For indexers, syntax (weak) references are stored for later binding.
            </summary>
            <remarks>
            CONSIDER: most types won't have indexers, so we could move the indexer list
            into a subclass to spare most instances the space required for the field.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedBackingFieldSymbol">
            <summary>
            Represents a compiler generated backing field for an automatically implemented property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypedConstant">
            <summary>
            <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/> represents a constant value used as an argument to a custom attribute. 
            The <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/> can represent a primitive type, an enum type, a <see cref="T:System.Type"/> 
            or an array of <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>s. 
            </summary>
            <remarks>
            Kind            Value                                   Type
            Primitive       Boxed value, string or null             <see cref="T:Roslyn.Compilers.CSharp.TypeSymbol"/> for the boxed value
            Enum            Boxed value of the underlying type      <see cref="T:Roslyn.Compilers.CSharp.TypeSymbol"/> for enum
            Type            <see cref="T:Roslyn.Compilers.CSharp.TypeSymbol"/> or null        <see cref="T:Roslyn.Compilers.CSharp.TypeSymbol"/> for <see cref="T:System.Type"/>
            Array           <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>[] or null   <see cref="T:Roslyn.Compilers.CSharp.ArrayTypeSymbol"/>
            Error           null                                    <see cref="T:Roslyn.Compilers.CSharp.ErrorTypeSymbol"/> or null
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypedConstant.ToString">
            <summary>
            Returns the System.String that represents the current TypedConstant.
            </summary>
            <returns>A System.String that represents the current TypedConstant.</returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypedConstant.Kind">
            <summary>
            Returns the kind of the <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypedConstant.Type">
            <summary>
            Returns the <see cref="T:Roslyn.Compilers.CSharp.TypeSymbol"/> of the <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>, 
            or null if the type can't be determined (error).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypedConstant.Value">
            <summary>
            Returns the value of a non-array <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>. Throws if called on an array <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypedConstant.Values">
            <summary>
            Returns the value of an array <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>. Throws if called on a non-array <see cref="T:Roslyn.Compilers.CSharp.TypedConstant"/>.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterBounds">
            <summary>
            The effective "bounds" of a type parameter: the constraint types, effective
            interface set, and effective base type, determined from the declared
            constraints, with any cycles removed. The fields are exposed by the
            TypeParameterSymbol as ConstraintTypes, Interfaces, and BaseType.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.TypeParameterBounds.ConstraintTypes">
            <summary>
            The type parameters, classes, and interfaces explicitly declared as
            constraint types on the containing type parameter, with cycles removed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.TypeParameterBounds.Interfaces">
            <summary>
            The set of interfaces explicitly declared on the containing type
            parameter and any type parameters on which the containing
            type parameter depends, with duplicates removed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsValidAttributeParameterType(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Determines if the given type is a valid attribute parameter type
            </summary>
            <param name="type">Type to validated</param>
            <param name="compilation">compilation</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.GetAttributeParameterTypedConstantKind(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Gets the typed constant kind for the given attribute parameter type.
            </summary>
            <param name="type">Type to validated</param>
            <param name="compilation">compilation</param>
            <returns>TypedConstantKind for the attribute parameter type</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsExpressionTree(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            return true if the type is constructed from System.Linq.Expressions.Expression`1
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.GetDefaultValue(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Return the default value constant for the given type,
            or null if the default value is not a constant.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.VisitType``1(Roslyn.Compilers.CSharp.TypeSymbol,System.Func{Roslyn.Compilers.CSharp.TypeSymbol,``0,System.Boolean},``0)">
            <summary>
            Visit the given type and, in the case of compound types, visit all "sub type"
            (such as A in A[], or { A&lt;T&gt;, T, U } in A&lt;T&gt;.B&lt;U&gt;) invoking 'predicate'
            with the type and 'arg' at each sub type. If the predicate returns true for any type,
            traversal stops and that type is returned from this method. Otherwise if traversal
            completes without the predicate returning true for any type, this method returns null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.ContainsTypeParameter(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeParameterSymbol)">
            <summary>
            (null TypeParameterSymbol "parameter"): Checks if the given type is a type parameter 
            or its referent type is a type parameter (array/pointer) or contains a type parameter (aggregate type)
            (non-null TypeParameterSymbol "parameter"): above + also checks if the type parameter
            is the same as "parameter"
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.ContainsDynamic(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Return true if the type contains any dynamic type reference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.GetNonErrorGuess(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Guess the non-error type that the given type was intended to represent.
            If the type itself is not an error type, then it will be returned.
            Otherwise, the underlying type (if any) of the error type will be
            returned.
            </summary>
            <remarks>
            Any non-null type symbol returned is guaranteed not to be an error type.
            
            It is possible to pass in a constructed type and received back an 
            unconstructed type.  This can occur when the type passed in was
            constructed from an error type - the underlying definition will be
            available, but there won't be a good way to "re-substitute" back up
            to the level of the specified type.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.GetNonErrorTypeKindGuess(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Guess the non-error typekind that the given type was intended to represent,
            if possible. If not, return TypeKind.Error.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsValidSwitchGoverningType(Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean)">
            <summary>
            Returns true if the type is a valid switch expression type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsRestrictedType(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Returns true if the type is one of the restricted types, namely: System.TypedReference, 
            System.ArgIterator, or System.RuntimeArgumentHandle.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsIntrinsicType(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            The type is one of the simple types defined in Dev10 C#, see "predeftype.h"/simple
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.MarkCheckedIfNecessary(Roslyn.Compilers.CSharp.TypeSymbol,System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.TypeSymbol}@)">
            <summary>
            Add this instance to the set of checked types. Returns true
            if this was added, false if the type was already in the set.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.ComputeHashCode(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Compute a hash code for the constructed type. The return value will be
            non-zero so callers can used zero to represent an uninitialized value.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsSameType(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean,System.Boolean)">
            <summary>
            Determines if two type symbols represent the same type, according to the language
            semantics.
            </summary>
            <param name="t1">First type.</param>
            <param name="t2">Second type.</param>
            <param name="ignoreCustomModifiers">True to compare without regard to custom modifiers, false by default.</param>
            <param name="ignoreDynamic">True to ignore the distinction between object and dynamic, false by default.</param>
            <returns>True if the types are equivalent.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.IsSameTypeIgnoring(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean,System.Boolean)">
            <summary>
            Logical equality on TypeSymbols that ignores custom modifiers and/or the object/dynamic distinction.
            Differs from IsSameType for arrays, pointers, and generic instantiations.
            </summary>
            <remarks>
            Ported from VB.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.CustomModifierCount(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Count the custom modifiers within the specified TypeSymbol.
            Potentially non-zero for arrays, pointers, and generic instantiations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.HasCustomModifiers(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Check for custom modifiers within the specified TypeSymbol.
            Potentially true for arrays, pointers, and generic instantiations.
            </summary>
            <remarks>
            A much less efficient implementation would be CustomModifierCount() == 0.
            CONSIDER: Could share a backing method with CustomModifierCount.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.CanUnifyWith(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Return true if this type can unify with the specified type
            (i.e. is the same for some substitution of type parameters).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeSymbolExtensions.GetNextBaseType(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol},Roslyn.Compilers.CSharp.Compilation,System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.Symbol}@)">
            <summary>
            Used when iterating through base types in contexts in which the caller needs to avoid cycles and can't use BaseType
            (perhaps because BaseType is in the process of being computed)
            </summary>
            <param name="type"></param>
            <param name="basesBeingResolved"></param>
            <param name="compilation"></param>
            <param name="visited"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax">
            <summary>Class representing what language construct an attribute targets.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxNode">
            <summary>
            Represents a non-terminal node in the syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.#ctor(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode,System.Int32,Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Used by structured trivia which has "parent == null", and therefore must know its
            SyntaxTree explicitly when created.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.CloneNodeAsRoot``1(``0,Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Creates a clone of a red node that can be used as a root of given syntaxTree.
            New node has no parents, position == 0, and syntaxTree as specified.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetCachedSlot(System.Int32)">
            <summary>
            Gets a node at given node index without forcing its creation.
            If node was not created it would return null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetNodeSlot(System.Int32)">
            <summary>
            Gets node at given node index. 
            This WILL force node creation if node has not yet been created.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetLeadingTrivia">
            <summary>
            The list of trivia that appears before this node in the source code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetTrailingTrivia">
            <summary>
            The list of trivia that appears after this node in the source code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetSlot(System.Int32)">
            <summary>
            Same as GetNodeSlot, but can also return a token. This is used in uncommon cases where
            we do not know if slot is a node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.ToString">
            <summary>
            Returns the string representation of this node, not including its leading and trailing trivia.
            </summary>
            <returns>The string representation of this node, not including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.ToFullString">
            <summary>
            Returns full string representation of this node including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this node including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this node to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.SerializeTo(System.IO.Stream,System.Threading.CancellationToken)">
            <summary>
            Serialize the syntax node into a byte stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DeserializeFrom(System.IO.Stream,System.Threading.CancellationToken)">
            <summary>
            Deserialize a syntax node from the byte stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetChildPosition(System.Int32)">
            <summary>
            This function calculates the offset of a child at given position. It is very common that
            some children to the left of the given index already know their positions so we first
            check if that is the case. In a worst case the cost is O(n), but it is not generally an
            issue because number of children in regular nodes is fixed and small. In a case where
            the number of children could be large (lists) this function is overridden with more
            efficient implementations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.EquivalentTo(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Determines whether this node is structurally equivalent to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetLocation">
            <summary>
            Gets a <see cref="P:Roslyn.Compilers.CSharp.SyntaxNode.Location"/> for this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetReference">
            <summary>
            Gets a SyntaxReference for this syntax node. SyntaxReferences can be used to
            regain access to a syntax node without keeping the entire tree and source text in
            memory.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics in the sub tree that has this node as its root.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetFirstDirective(System.Func{Roslyn.Compilers.CSharp.DirectiveTriviaSyntax,System.Boolean})">
            <summary>
            Gets the first directive of the tree rooted by this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetLastDirective(System.Func{Roslyn.Compilers.CSharp.DirectiveTriviaSyntax,System.Boolean})">
            <summary>
            Gets the last directive of the tree rooted by this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.HasAnnotations(System.Type)">
            <summary>
            Determines whether this node has annotations of the specified type.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this node has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetAnnotations(System.Type)">
            <summary>
            Gets all annotations of the specified type attached to this node.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetAnnotatedNodesAndTokens(System.Type)">
            <summary>
            Gets all nodes and tokens with an annotation of the specified type.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetAnnotatedNodesAndTokens(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Gets all nodes and tokens with the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetAnnotatedTrivia(System.Type)">
            <summary>
            Finds all trivia with an annotation of the specified type.
            The type must be a strict sub type of SyntaxTrivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetAnnotatedTrivia(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Gets all trivia with the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.ChildNodes">
            <summary>
            Gets a list of the child nodes in document order. This list does not contain tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.ChildNodesAndTokens">
            <summary>
            Gets the list of child nodes and tokens of this node in document order, where each element
            is a SyntaxNodeOrToken instance.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.Ancestors(System.Boolean)">
            <summary>
            Gets a list of ancestor nodes that have type TNode and satisfies the predicate.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.AncestorsAndSelf(System.Boolean)">
            <summary>
            Gets a list of ancestor nodes (including this node) that have type TNode and satisfies the predicate.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodes(System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodes(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodesAndSelf(System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes (including this node) in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodesAndSelf(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes (including this node) in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search
            descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia
            are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodesAndTokens(System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes and tokens in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search
            descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia
            are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodesAndTokens(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of the descendant nodes and tokens in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search
            descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia
            are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodesAndTokensAndSelf(System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes and tokens (including this node) in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search
            descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia
            are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantNodesAndTokensAndSelf(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of the descendant nodes and tokens (including this node) in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search
            descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia
            are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetFirstToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Gets the first token of the tree rooted by this node.
            </summary>
            <param name="includeZeroWidth">True if zero width tokens should be included, false by
            default.</param>
            <param name="includeSkipped">True if skipped tokens should be included, false by default.</param>
            <param name="includeDirectives">True if directives should be included, false by default.</param>
            <param name="includeDocumentationComments">True if documentation comments should be
            included, false by default.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetFirstToken(System.Func{Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean},System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,System.Boolean})">
            <summary>
            Gets the first token of the tree rooted by this node.
            </summary>
            <param name="predicate">Only tokens for which this predicate returns true are included.  Pass null to include
            all tokens.</param>
            <param name="stepInto">Steps into trivia if this is not null.  Only trivia for which this delegate returns
            true are included.</param> 
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.GetLastToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Gets the last non-zero-width token of the tree rooted by this node.
            </summary>
            <param name="includeZeroWidth">True if zero width tokens should be included, false by
            default.</param>
            <param name="includeSkipped">True if skipped tokens should be included, false by default.</param>
            <param name="includeDirectives">True if directives should be included, false by default.</param>
            <param name="includeDocumentationComments">True if documentation comments should be
            included, false by default.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantTokens(System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant tokens under this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantTokens(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant tokens under this node with a full span that intersects the
            specified span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.FindToken(System.Int32,System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,System.Boolean})">
            <summary>
            Finds a token according to the following rules:
            1) If position matches the End of the node/s FullSpan and the node is CompilationUnit,
              then EoF is returned. 
            
            2) If node.FullSpan.Contains(position) the token that contains given position is
               returned. If stepInto is not Nothing, then structured trivia that satisfies the
               condition will also be visited during the search.
            
            3) Otherwise an IndexOutOfRange is thrown
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.FindToken(System.Int32,System.Boolean)">
            <summary>
            Finds a token according to the following rules:
            1) If position matches the End of the node/s FullSpan and the node is CompilationUnit,
               then EoF is returned. 
            
             2) If node.FullSpan.Contains(position) then the token that contains given position is
                returned.
            
             3) Otherwise an ArgumentOutOfRangeException is thrown
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.FindTrivia(System.Int32,System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,System.Boolean})">
            <summary>
            Finds a descendant trivia of this node at the specified position, where the position is
            within the span of the node.
            </summary>
            <param name="position">The character position of the trivia relative to the beginning of
            the file.</param>
            <param name="stepInto">Specifies a function that determines per trivia node, whether to
            descend into structured trivia of that node.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.FindTrivia(System.Int32,System.Boolean)">
            <summary>
            Finds a descendant trivia of this node whose span includes the supplied position.
            </summary>
            <param name="position">The character position of the trivia relative to the beginning of
            the file.</param>
            <param name="findInsideTrivia">Whether to search inside structured trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantTrivia(System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            A list of all trivia for all descendant tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.DescendantTrivia(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            A list of all trivia for all descendant tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.ChildNodesAndTokensCore">
            <summary>
            The list of child nodes and tokens of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNode.EquivalentToCore(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Determine if this node is structurally equivalent to another.
            </summary>
            <param name="other"></param>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.SyntaxTree">
            <summary>
            Returns SyntaxTree that owns the node or null if node does not belong to a SyntaxTree
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.Parent">
            <summary>
            The node that contains this node in its Children collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.Kind">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.CSharp.SyntaxKind"/>  of the non-terminal.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.Language">
            <summary>
            The language name that this node is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.Position">
            <summary>
            The character position of this node relative to the beginning of the file, not including
            leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.ContainsDirectives">
            <summary>
            Determines whether this node has any descendant preprocessor directives. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.ContainsDiagnostics">
            <summary>
            Determines whether this node or any of its descendant nodes, tokens or trivia have any
            diagnostics on them.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.ContainsAnnotations">
            <summary>
            Determines whether this node or any of its descendant nodes, tokens or trivia have annotations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.HasLeadingTrivia">
            <summary>
            Determines whether this node has any leading trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.HasTrailingTrivia">
            <summary>
            Determines whether this node has any trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.IsStructuredTrivia">
            <summary>
            Determines whether this node represents a structured trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.HasStructuredTrivia">
            <summary>
            Determines whether a descendant trivia of this node is structured.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.IsMissing">
            <summary>
            Determines whether the node represents a language construct that was actually parsed
            from the source code. Missing nodes are generated by the parser in error scenarios to
            represent constructs that should have been present in the source code in order to
            compile successfully but were actually missing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.FullSpan">
            <summary>
            The absolute span of this node in characters, including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.Span">
            <summary>
            The absolute span of this node in characters, not including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.Width">
            <summary>
            The width of the node in characters, not including leading and trailing trivia.
            </summary>
            <remarks>
            The Width property returns the same value as Span.Length, but is somewhat more efficient.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.FullWidth">
            <summary>
            The complete width of the node in characters, including leading and trailing trivia.
            </summary>
            <remarks>The FullWidth property returns the same value as FullSpan.Length, but is
            somewhat more efficient.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.KindCore">
            <summary>
            An integer representing the language specific kind of node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNode.ParentCore">
            <summary>
            The node that holds this node in its Children collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeSyntax">
            <summary>Attribute syntax.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AttributeSyntax.GetErrorDisplayName">
            <summary>
            Return the name used in syntax for the attribute. This is typically the class
            name without the "Attribute" suffix. (For certain diagnostics, the native
            compiler uses the attribute name from syntax rather than the class name.)
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeSyntax.Name">
            <summary>Gets the name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax">
            <summary>Base type for method declaration syntax.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberDeclarationSyntax">
            <summary>Member declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax.ParameterList">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParameterSyntax">
            <summary>Parameter syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DiagnosticList">
            <summary>
            A list of <see cref="T:Roslyn.Compilers.CSharp.Diagnostic"/> objects.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DiagnosticList.GetEnumerator">
            <summary>
            Returns an enumerator over this list of diagnostics.
            </summary>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DiagnosticList.Count">
            <summary>
            Returns the count of diagnostic instances in this list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DiagnosticList.Item(System.Int32)">
            <summary>
            Returns the diagnostic instance at the specified index in this list.
            </summary>
            <param name="index">The index of the diagnostic.</param>
            <returns>The specified diagnostic.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DiagnosticList.Enumerator">
            <summary>
            An enumerator for diagnostic lists.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DiagnosticList.Enumerator.MoveNext">
            <summary>
            Moves the enumerator to the next diagnostic instance in the diagnostic list.
            </summary>
            <returns>Returns true if enumerator moved to the next diagnostic, false if the
            enumerator was at the end of the diagnostic list.</returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DiagnosticList.Enumerator.Current">
            <summary>
            The current diagnostic that the enumerator is pointing at.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NamespaceDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SeparatedSyntaxList`1.GetSeparator(System.Int32)">
            <summary>
            Gets the separator at the given index in this list.
            </summary>
            <param name="index">The index.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SeparatedSyntaxList`1.ToString">
            <summary>
            Returns the string representation of the nodes in this list including separators but not including 
            the first node's leading trivia and the last node or token's trailing trivia.
            </summary>
            <returns>
            The string representation of the nodes in this list including separators but not including 
            the first node's leading trivia and the last node or token's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SeparatedSyntaxList`1.ToFullString">
            <summary>
            Returns the full string representation of the nodes in this list including separators, 
            the first node's leading trivia, and the last node or token's trailing trivia.
            </summary>
            <returns>
            The full string representation of the nodes in this list including separators including separators,
            the first node's leading trivia, and the last node or token's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SeparatedSyntaxList`1.Add(`0[])">
            <summary>
            Add one or more nodes to the end of the list.
            </summary>
            <returns>A new list with the nodes added.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SeparatedSyntaxList`1.Insert(System.Int32,`0[])">
            <summary>
            Insert one or more nodes in the list at the specified index.
            </summary>
            <returns>A new list with the nodes inserted.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SimpleNameSyntax">
            <summary>Provides the base class from which the classes that represent simple name syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NameSyntax">
            <summary>Provides the base class from which the classes that represent name syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeSyntax">
            <summary>Provides the base class from which the classes that represent type syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExpressionSyntax">
            <summary>Provides the base class from which the classes that represent expression syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.NameSyntax.GetUnqualifiedName">
            <summary>
            Returns the unqualified (right-most) part of a qualified or alias-qualified name, or the name itself if already unqualified. 
            </summary>
            <returns>The unqualified (right-most) part of a qualified or alias-qualified name, or the name itself if already unqualified.
            If called on an instance of <see cref="T:Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax"/> returns the value of the <see cref="P:Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax.Name"/> property.
            If called on an instance of <see cref="T:Roslyn.Compilers.CSharp.QualifiedNameSyntax"/> returns the value of the <see cref="P:Roslyn.Compilers.CSharp.QualifiedNameSyntax.Right"/> property.
            If called on an instance of <see cref="T:Roslyn.Compilers.CSharp.SimpleNameSyntax"/> returns the instance itself.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SimpleNameSyntax.Identifier">
            <summary>SyntaxToken representing the identifier of the simple name.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.IsPartOfStructuredTrivia(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Determines if the node is a descendant of a structured trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.IsPartOfStructuredTrivia(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Determines if the token is a descendant of a structured trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.IsPartOfStructuredTrivia(Roslyn.Compilers.CSharp.SyntaxTrivia)">
            <summary>
            Determines if the trivia is a descendant of a structured trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.IsPartOfStructuredTrivia(Roslyn.Compilers.CSharp.SyntaxNodeOrToken)">
            <summary>
            Determines if the node or token is a descendant of a structured trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceNodes``2(``0,System.Collections.Generic.IEnumerable{``1},System.Func{``1,``1,Roslyn.Compilers.CSharp.SyntaxNode})">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <typeparam name="TNode">The type of the replaced node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldNodes">The nodes to be replaced; descendants of the root node.</param>
            <param name="computeReplacementNode">A function that computes a replacement node for the
            argument nodes. The first argument is the original node. The second argument is the same
            node rewritten with replaced descendants.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceToken``1(``0,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Creates a new tree of nodes with the specified old token replaced with a new token.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldToken">The token to be replaced.</param>
            <param name="newToken">The new token to use in the new tree in place of the old
            token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceTokens``1(``0,System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxToken},System.Func{Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken})">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldTokens">The token to be replaced; descendants of the root node.</param>
            <param name="computeReplacementToken">A function that computes a replacement token for
            the argument tokens. The first argument is the original token. The second argument is
            the same token rewritten with replaced trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceTrivia``1(``0,Roslyn.Compilers.CSharp.SyntaxTrivia,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a new tree of nodes with the specified old trivia replaced with a new trivia
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldTrivia">The trivia to be replaced.</param>
            <param name="newTrivia">The new trivia to use in the new tree in place of the old
            trivia.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxTrivia,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a new token with the specified old trivia replaced with a new trivia. The old trivia may appear in
            the token's leading or trailing trivia.
            </summary>
            <param name="token">The original token.</param>
            <param name="oldTrivia">The trivia to be replaced.</param>
            <param name="newTrivia">The new trivia to use in the new tree in place of the old
            trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceTrivia``1(``0,System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxTrivia},System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,Roslyn.Compilers.CSharp.SyntaxTrivia,Roslyn.Compilers.CSharp.SyntaxTriviaList})">
            <summary>
            Creates a new tree of nodes with the specified old trivia replaced with computed new trivia.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldTrivia">The trivia to be replaced; descendants of the root node.</param>
            <param name="computeReplacementTrivia">A function that computes a replacement trivia for
            the argument trivia. The first argument is the original trivia. The second argument is
            the same trivia rewritten with replaced structure.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxTrivia},System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,Roslyn.Compilers.CSharp.SyntaxTrivia,Roslyn.Compilers.CSharp.SyntaxTriviaList})">
            <summary>
            Creates a new token with the specified old trivia replaced with computed new trivia.
            </summary>
            <param name="token">The original token.</param>
            <param name="oldTrivia">The trivia to be replaced; descendants of the root token.</param>
            <param name="computeReplacementTrivia">A function that computes a replacement trivia for
            the argument trivia. The first argument is the original trivia. The second argument is
            the same trivia rewritten with replaced structure.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceNode``1(``0,Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.SyntaxRemoveOptions,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxTriviaList},System.Func{Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxTriviaList})">
            <summary>
            Creates a new tree of nodes with the specified node removed.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node from which to remove a descendant node from.</param>
            <param name="node">The node to remove.</param>
            <param name="options">Options that determine how the node's trivia is treated.</param>
            <param name="keepLeadingTrivia">A function that determines which parts of the leading trivia are kept in the result.</param>
            <param name="keepTrailingTrivia">A function that determines which parts of the trailing trivia are kept in the result.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.ReplaceNodes``1(``0,System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxNode},Roslyn.Compilers.SyntaxRemoveOptions,System.Func{Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxTriviaList},System.Func{Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxTriviaList})">
            <summary>
            Creates a new tree of nodes with the specified nodes removed.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node from which to remove a descendant node from.</param>
            <param name="nodes">The nodes to remove.</param>
            <param name="options">Options that determine how the nodes' trivia is treated.</param>
            <param name="keepLeadingTrivia">A function that determines which parts of the leading trivia are kept in the result.</param>
            <param name="keepTrailingTrivia">A function that determines which parts of the trailing trivia are kept in the result.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.NormalizeWhitespace``1(``0,System.String,System.Boolean)">
            <summary>
            Creates a new syntax node with all whitespace and end of line trivia replaced with
            regularly formatted trivia.
            </summary>
            <typeparam name="TNode">The type of the node.</typeparam>
            <param name="node">The node to format.</param>
            <param name="indentation">An optional sequence of whitespace characters that defines a
            single level of indentation.</param>
            <param name="elasticTrivia">If true the replaced trivia is elastic trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.NormalizeWhitespace(Roslyn.Compilers.CSharp.SyntaxToken,System.String,System.Boolean)">
            <summary>
            Creates a new token with all whitespace and end of line trivia replaced with regularly
            formatted trivia.
            </summary>
            <param name="token">The token to format.</param>
            <param name="indentation">An optional sequence of whitespace characters that defines a
            single level of indentation.</param>
            <param name="elasticTrivia">If true the replaced trivia is elastic trivia.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxExtensions.NormalizeWhitespace(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Boolean)">
            <summary>
            Creates a new list of trivia with all whitespace and end of line trivia replaced with
            regularly formatted trivia.
            </summary>
            <param name="trivia">The list of trivia.</param>
            <param name="indentation">An optional sequence of whitespace characters that defines a
            single level of indentation.</param>
            <param name="elasticTrivia"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LanguageVersion">
            <summary>
            Specifies the language version.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LanguageVersion.CSharp1">
            <summary>
            C# language version 1.0.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LanguageVersion.CSharp2">
            <summary>
            C# language version 2.0.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LanguageVersion.CSharp3">
            <summary>
            C# language version 3.0.
            </summary>
            <remarks> Features: LINQ.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LanguageVersion.CSharp4">
            <summary>
            C# language version 4.0.
            </summary>
            <remarks> Features: dynamic.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LanguageVersion.CSharp5">
            <summary>
            C# language version 5.0.
            </summary>
            <remarks> Features: async.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LanguageVersion.CSharp6">
            <summary> C# language version 6.0.
            </summary>
             <remarks>
             Features: using of a static class.
             </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParseOptions">
            <summary>
            This class stores several source parsing related options and offers access to their values.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ParseOptions.Default">
            <summary>
            The default parse options.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ParseOptions.Compatibility">
            <summary>
            Gets the compatibility mode.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ParseOptions.LanguageVersion">
            <summary>
            Gets the language version.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParseOptions.PreprocessorSymbolNames">
            <summary>
            Gets the names of defined preprocessor symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.Blender.newPosition">
            <summary>
            newPosition represents the position we are in the final IText.  As we consume and reuse
            nodes from the old tree we will update our position in the new text accordingly.
            Likewise, when we must lex tokens out of the new tree we will update as well.
            
            NOTE(cyrusn): We do not need an oldPosition because it is redundant given the
            oldTreeCursor.  The oldPosition is implicitly defined by the position of the cursor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Blender.ExtendToAffectedRange(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.TextChangeRange)">
            <summary>
            Affected range of a change is the range within which nodes can be affected by a change
            and cannot be reused. Because of lookahead effective range of a change is larger than
            the change itself.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.Blender.Cursor">
            <summary>
            THe cursor represents a location in the tree that we can move around to indicate where
            we are in the original tree as we're incrementally parsing.  When it is at a node or
            token, it can either move forward to that entity's next sibling.  It can also move down
            to a node's first child or first token.
            
            Once the cursor hits the end of file, it's done.  Note: the cursor will skip any other
            zero length nodes in the tree.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.LexerCache.IdentityDictionary`1">
            <summary>
            This is basically a hash-set of strings that is searchable by  
            strings, string sub ranges, character array ranges or string-builder.  
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.LexerCache.TextMap`1">
            <summary>
            This is basically a hash-set of strings that is searchable by  
            strings, string sub ranges, character array ranges or string-builder.  
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.SyntaxParser.AddSkippedSyntax(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxToken,Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode,System.Boolean)">
            <summary>
            Converts skippedSyntax node into tokens and adds these as trivia on the target token.
            Also adds the first error (in depth-first preorder) found in the skipped syntax tree to the target token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.SyntaxParser.FindOffset(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode,Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode,System.Int32@)">
            <summary>
            This function searches for the given location node within the subtree rooted at root node. 
            If it finds it, the function computes the offset span of that child node within the root and returns true, 
            otherwise it returns false.
            </summary>
            <param name="root">Root node</param>
            <param name="location">Node to search in the subtree rooted at root node</param>
            <param name="offset">Offset of the location node within the subtree rooted at child</param>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SyntaxParser.IsInteractive">
            <summary>
            Interactive code - global statements, member declarations and expressions allowed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SyntaxParser.IsScript">
            <summary>
            Script - global statements and member declarations allowed, but not expressions.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodyCompiler.CompileSynthesizedExplicitImplementations(Roslyn.Compilers.CSharp.SourceNamedTypeSymbol,Roslyn.Compilers.CSharp.TypeCompilationState)">
            <summary>
            In some circumstances (e.g. implicit implementation of an interface method by a non-virtual method in a 
            base type from another assembly) it is necessary for the compiler to generate explicit implementations for
            some interface methods.  They don't go in the symbol table, but if we are emitting, then we should
            generate code for them.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MethodBodyCompiler.HasThisConstructorInitializer(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Returns true if the method is a constructor and has a this() constructor initializer.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Accessibility">
            <summary>
            Represents the accessibility of a symbol. Note: This enum is ordered by effective
            accessibility.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Accessibility.NotApplicable">
            <summary>
            Indicates that accessibility is not applicable to this kind of symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Accessibility.ProtectedAndInternal">
            <summary>
            Not supported in C#, but should be supported for symbols imported from reference
            assemblies in other languages.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.VarianceSafety">
            <summary>
            This class groups together all of the functionality needed to check for error CS1961, ERR_UnexpectedVariance.
            Its functionality is accessible through the NamedTypeSymbol extension method CheckInterfaceVarianceSafety and
            the MethodSymbol extension method CheckMethodVarianceSafety (for checking delegate Invoke).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.CheckInterfaceVarianceSafety(Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Accumulate diagnostics related to the variance safety of an interface.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.CheckMethodVarianceSafety(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Accumulate diagnostics related to the variance safety of an interface method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.CheckPropertyVarianceSafety(Roslyn.Compilers.CSharp.PropertySymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Accumulate diagnostics related to the variance safety of an interface property.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.CheckEventVarianceSafety(Roslyn.Compilers.CSharp.EventSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Accumulate diagnostics related to the variance safety of an interface event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.CheckParametersVarianceSafety(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ParameterSymbol},Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Accumulate diagnostics related to the variance safety of an interface method/property parameter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.CheckTypeParametersVarianceSafety(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeParameterSymbol},Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Accumulate diagnostics related to the variance safety of an interface method type parameters.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.IsVarianceUnsafe(Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean,System.Boolean,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Returns true if the type is output-unsafe or input-unsafe, as defined in the C# spec.
            Roughly, a type is output-unsafe if it could not be the return type of a method and
            input-unsafe if it could not be a parameter type of a method.
            </summary>
            <remarks>
            This method is intended to match spec section 13.1.3.1 as closely as possible 
            (except that the output-unsafe and input-unsafe checks are merged).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.IsVarianceUnsafe(Roslyn.Compilers.CSharp.NamedTypeSymbol,System.Boolean,System.Boolean,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            3) T is an interface, class, struct, or delegate type <![CDATA[S<A_1, ..., A_k>]]> constructed
            from a generic type <![CDATA[S<X_1, ..., X_k>]]> where for at least one A_i one
            of the following holds:
                a) X_i is covariant or invariant and A_i is output-unsafe [input-unsafe]
                b) X_i is contravariant or invariant and A_i is input-unsafe [output-unsafe] (note: spec has "input-safe", but it's a typo)
            </summary>
            <remarks>
            Slight rewrite to make it more idiomatic for C#:
                a) X_i is covariant and A_i is input-unsafe
                b) X_i is contravariant and A_i is output-unsafe
                c) X_i is invariant and A_i is input-unsafe or output-unsafe
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.VarianceSafety.AddVarianceError(Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.TypeParameterSymbol,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.MessageID)">
            <summary>
            Add an ERR_UnexpectedVariance diagnostic to the diagnostic bag.
            </summary>
            <param name="diagnostics">Diagnostic bag.</param>
            <param name="unsafeTypeParameter">Type parameter that is not variance safe.</param>
            <param name="context">Context in which type is not variance safe (e.g. method).</param>
            <param name="expectedVariance">Desired variance of type.</param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AbstractTypeMap">
            <summary>
            Abstract base class for mutable and immutable type maps.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractTypeMap.SubstituteMemberType(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Substitute for a type declaration.  May use alpha renaming if the container is substituted.
            </summary>
            <param name="previous"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractTypeMap.SubstituteNamedType(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            SubstType, but for NamedTypeSymbols only.  This is used for concrete types, so no alpha substitution appears in the result.
            </summary>
            <param name="previous"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractTypeMap.SubstituteType(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Perform the substitution on the given type.  Each occurrence of the type parameter is
            replaced with its corresponding type argument from the map.
            </summary>
            <param name="previous">The type to be rewritten.</param>
            <returns>The type with type parameters replaced with the type arguments.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractTypeMap.SubstituteTypes(System.Collections.Generic.IList{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Perform the substitution on every member of the list, returning a new list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractTypeMap.SubstituteTypesDistinct(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.TypeSymbol})">
            <summary>
            Substitute types, and return the results without duplicates, preserving the original order.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AbstractTypeMap.SubstituteNamedTypes(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.NamedTypeSymbol})">
            <summary>
            Like SubstTypes, but for NamedTypeSymbols.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MutableTypeMap">
            <summary>
            Utility class for substituting actual type arguments for formal generic type parameters.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OverriddenOrHiddenMembersResult">
            <summary>
            Groups the information computed by MakeOverriddenOrHiddenMembers.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LabelSymbol">
            <summary>
            Represents a label in method body
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.Name">
            <summary>
            Gets the name of this label
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.IsExtern">
            <summary>
            Returns false because label can't be defined externally.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.IsSealed">
            <summary>
            Returns false because label can't be sealed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.IsAbstract">
            <summary>
            Returns false because label can't be abstract.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.IsOverride">
            <summary>
            Returns false because label can't be overridden.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.IsVirtual">
            <summary>
            Returns false because label can't be virtual.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.IsStatic">
            <summary>
            Returns false because label can't be static.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.DeclaredAccessibility">
            <summary>
            Returns 'NotApplicable' because label can't be used outside the member body.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.Locations">
            <summary>
            Gets the locations where the symbol was originally defined, either in source or
            metadata. Some symbols (for example, partial classes) may be defined in more than one
            location.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.ContainingMethod">
            <summary>
            Gets the immediately containing symbol of the <see cref="T:Roslyn.Compilers.CSharp.LabelSymbol"/>.
            It should be the <see cref="T:Roslyn.Compilers.CSharp.MethodSymbol"/> containing the label in its body.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.ContainingSymbol">
            <summary>
            Gets the immediately containing symbol of the <see cref="T:Roslyn.Compilers.CSharp.LabelSymbol"/>.
            It should be the <see cref="T:Roslyn.Compilers.CSharp.MethodSymbol"/> containing the label in its body.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabelSymbol.Kind">
            <summary>
            Returns value 'Label' of the <see cref="T:Roslyn.Compilers.CSharp.SymbolKind"/>
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.MethodRefMetadataDecoder">
            <summary>
            This subclass of MetadataDecoder is specifically for finding
            method symbols corresponding to method MemberRefs.  The parent 
            implementation is unsuitable because it requires a PEMethodSymbol
            for context when decoding method type parameters and no such
            context is available because it is precisely what we are trying
            to find.  Since we know in advance that there will be no context
            and that signatures decoded with this class will only be used
            for comparison (when searching through the methods of a known
            TypeSymbol), we can return indexed type parameters instead.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder">
            <summary>
            Helper class to resolve metadata tokens and signatures.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.moduleSymbol">
            <summary>
            ModuleSymbol for the module - source of metadata.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.typeContextOpt">
            <summary>
            Type context for resolving generic type arguments.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.methodContextOpt">
            <summary>
            Method context for resolving generic method type arguments.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.GetWinMdAssembliesIndex">
            <summary>
            When we load a winmd file we also need to load a bunch
            of extra assemblies for type projection
            
            This returns the starting index of these assemblies.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.LookupTopLevelTypeDefSymbol(System.Int32,Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a type defined in referenced assembly.
            </summary>
            <param name="referencedAssemblyIndex"></param>
            <param name="emittedName"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.LookupTopLevelTypeDefSymbol(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a type defined in this module.
            This method will be called only if the type we are
            looking for hasn't been loaded yet. Otherwise, MetadataDecoder
            would have found the type in TypeDefRowIdToTypeMap based on its 
            TypeDef row id. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.SubstituteTypeParameters(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol[],System.Boolean[])">
            <summary>
            Produce constructed type symbol.
            </summary>
            <param name="genericTypeDef">
            Symbol for generic type.
            </param>
            <param name="arguments">
            Generic type arguments, including those for nesting types.
            </param>
            <param name="refersToNoPiaLocalType">
            Flags for arguments. Each item indicates whether corresponding argument refers to NoPia local types.
            </param>
            <returns></returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.IsOrClosedOverATypeFromAssemblies(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AssemblySymbol})">
            <summary>
            Perform a check whether the type or at least one of its generic arguments 
            is defined in the specified assemblies. The check is performed recursively. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MetadataDecoder.SubstituteNoPiaLocalType(Roslyn.Compilers.Internal.MetadataTypeName@,System.Boolean,Roslyn.Compilers.CSharp.TypeSymbol,System.String,System.String,System.String,Roslyn.Compilers.CSharp.AssemblySymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.AssemblySymbol})">
            <summary>
            Find canonical type for NoPia embedded type.
            </summary>
            <param name="name"></param>
            <param name="isInterface"></param>
            <param name="baseType"></param>
            <param name="interfaceGuid"></param>
            <param name="scope"></param>
            <param name="identifier"></param>
            <param name="referringAssembly"></param>
            <param name="lookupIn"></param>
            <returns>
            Symbol for the canonical type or an ErrorTypeSymbol. Never returns null.
            </returns>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.MethodRefMetadataDecoder.containingType">
            <summary>
            Type context for resolving generic type arguments.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MethodRefMetadataDecoder.GetGenericMethodTypeParamSymbol(System.Int32)">
            <summary>
            We know that we'll never have a method context because that's what we're
            trying to find.  Instead, just return an indexed type parameter that will
            make comparison easier.
            </summary>
            <param name="position"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MethodRefMetadataDecoder.GetGenericTypeParamSymbol(System.Int32)">
            <summary>
            This override changes two things:
                1) Return type arguments instead of type parameters.
                2) Handle non-PE types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.MethodRefMetadataDecoder.FindMethodBySignature(Roslyn.Compilers.CSharp.TypeSymbol,System.UInt32)">
            <summary>
            Search through the members of a given type symbol to find the method that matches a particular
            signature.
            </summary>
            <param name="targetTypeSymbol">Type containing the desired method symbol.</param>
            <param name="targetMemberRefToken">A MemberRef token that can be used to obtain the name and signature of the method</param>
            <returns>The matching method symbol, or null if the inputs do not correspond to a valid method.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodKind">
            <summary>
            Represents the kind of a method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.AnonymousFunction">
            <summary>
            An anonymous method or lambda expression
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.Constructor">
            <summary>
            An instance constructor. The return type is always void.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.Conversion">
            <summary>
            A user-defined conversion.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.DelegateInvoke">
            <summary>
            The invoke method of a delegate.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.Destructor">
            <summary>
            A destructor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.EventAdd">
            <summary>
            The implicitly-defined add method associated with an event.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.EventRemove">
            <summary>
            The implicitly-defined remove method associated with an event.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.ExplicitInterfaceImplementation">
            <summary>
            An explicit interface implementation method. The ImplementedMethods
            property can be used to determine which method is being implemented.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.Operator">
            <summary>
            A user-defined operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.Ordinary">
            <summary>
            A normal method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.PropertyGet">
            <summary>
            The implicitly-defined get method associated with a property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.PropertySet">
            <summary>
            The implicitly-defined set method associated with a property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.ReducedExtension">
            <summary>
            An extension method with the "this" parameter removed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MethodKind.StaticConstructor">
            <summary>
            A static constructor. The return type is always void.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SignatureOnlyParameterSymbol">
            <summary>
            Intended to be used to create ParameterSymbols for a SignatureOnlyMethodSymbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PropertySymbolExtensions.GetBaseProperty(Roslyn.Compilers.CSharp.PropertySymbol)">
            <summary>
            If the property is overrides another, returns the base virtual property.
            Otherwise return the original property.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PropertySymbolExtensions.GetOwnOrInheritedGetMethod(Roslyn.Compilers.CSharp.PropertySymbol)">
            <summary>
            If the property has a GetMethod, return that.  Otherwise check the overridden
            property, if any.  Repeat for each overridden property.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PropertySymbolExtensions.GetOwnOrInheritedSetMethod(Roslyn.Compilers.CSharp.PropertySymbol)">
            <summary>
            If the property has a SetMethod, return that.  Otherwise check the overridden
            property, if any.  Repeat for each overridden property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingPropertySymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingPropertySymbol.underlyingProperty">
            <summary>
            The underlying PropertySymbol, cannot be another RetargetingPropertySymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingPropertySymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberSignatureComparer">
            <summary>
            C#4 10.6: The name, the type parameter list and the formal parameter list of a method define
            the signature (§3.6) of the method. Specifically, the signature of a method consists of its
            name, the number of type parameters and the number, modifiers, and types of its formal
            parameters. For these purposes, any type parameter of the method that occurs in the type of
            a formal parameter is identified not by its name, but by its ordinal position in the type
            argument list of the method. The return type is not part of a method’s signature, nor are
            the names of the type parameters or the formal parameters.
            
            C#4 3.6: For the purposes of signatures, the types object and dynamic are considered the
            same. 
            
            C#4 3.6: We implement the rules for ref/out by mapping both to ref.  The caller (i.e.
            checking for proper overrides or partial methods, etc) should check that ref/out are
            consistent.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.ExplicitImplementationComparer">
            <summary>
            This instance is used when trying to determine if one member explicitly implements another,
            according the C# definition.
            The member signatures are compared without regard to name (including the interface part, if any)
            and the return types must match.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.CSharpImplicitImplementationComparer">
            <summary>
            This instance is used when trying to determine if one member implicitly implements another,
            according to the C# definition.
            The member names, parameters, and (return) types must match.  Custom modifiers are ignored.
            </summary>
            <remarks>
            One would expect this comparer to have requireSourceMethod = true, but it doesn't because (for source types)
            we allow inexact matching of custom modifiers when computing implicit member implementations.  Consider the
            following scenario: interface I has a method M with custom modifiers C1, source type ST includes I in its
            interface list but has no method M, and metadata type MT has a method M with custom modifiers C2.
            In this scenario, we want to compare I.M to MT.M without regard to custom modifiers, because if C1 != C2,
            we can just synthesize an explicit implementation of I.M in ST that calls MT.M.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.CSharpCloseImplicitImplementationComparer">
            <summary>
            This instance is used as a fallback when it is determined that one member does not implicitly implement
            another.  It applies a looser check to determine whether the proposed implementation should be reported
            as "close".
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.DuplicateSourceComparer">
            <summary>
            This instance is used to determine if two C# member declarations in source conflict.
            Names, arities, and parameter types are considered.
            Return types, type parameter constraints, custom modifiers, and parameter ref kinds, etc are ignored.
            </summary>
            <remarks>
            This does the same comparison that MethodSignature used to do.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.CSharpOverrideComparer">
            <summary>
            This instance is used to check whether one member overrides another, according to the C# definition.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.CSharpAccessorOverrideComparer">
            <summary>
            This instance is used to check whether one property or event overrides another, according to the C# definition.
            NOTE: C# ignores accessor member names.
            CAVEAT: considers return types so that getters and setters will be treated the same.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.CSharpCustomModifierOverrideComparer">
            <summary>
            Same as CSharpMethodOverrideComparer except that it pays attention to custom modifiers and return type.  
            Normally, the return type isn't considered during overriding, but this comparer is actually used to find
            exact matches (i.e. before tie-breaking takes place amongst close matches).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.RuntimeSignatureComparer">
            <summary>
            This instance is intended to reflect the definition of signature equality used by the runtime (ECMA 335 Section 8.6.1.6).
            It considers return type, name, parameters, calling convention, and custom modifiers, but ignores
            the difference between RefKind.Out and RefKind.Ref.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.RuntimeImplicitImplementationComparer">
            <summary>
            This instance is the same as RuntimeSignatureComparer.
            CONSIDER: just use RuntimeSignatureComparer?
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.CSharpSignatureAndConstraintsAndReturnTypeComparer">
            <summary>
            This instance is used to search for members that have the same name, parameters, (return) type, and constraints (if any)
            according to the C# definition.  Custom modifiers are ignored.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.RetargetedExplicitImplementationComparer">
            <summary>
            This instance is used to search for members that have identical signatures in every regard.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MemberSignatureComparer.LookupHidingComparer">
            <summary>
            This instance is used when trying to lookup in the scope of a type parameter, to see if a
            method found in a class constraint hides a method found in an interface constraint..
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MemberSignatureComparer.AreConstraintTypesSubset(System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.TypeSymbol},System.Collections.Generic.HashSet{Roslyn.Compilers.CSharp.TypeSymbol},Roslyn.Compilers.CSharp.TypeParameterSymbol)">
            <summary>
            Returns true if the first set of constraint types
            is a subset of the second set.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SignatureOnlyMethodSymbol">
            <summary>
            A representation of a method symbol that is intended only to be used for comparison purposes
            (esp in MethodSignatureComparer).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceLabelSymbol.switchCaseLabelConstant">
            <summary>
            Switch case labels have a constant expression associated with them.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceLabelSymbol.SwitchCaseLabelConstant">
            <summary>
            If the label is a switch case label, returns the associated constant value with
            case expression, otherwise returns null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceEnumConstantSymbol">
            <summary>
            Represents a constant field of an enum.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ExplicitInterfaceHelpers.FindExplicitImplementationCollisions(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Given a member, look for other members contained in the same type with signatures that will
            not be distinguishable by the runtime.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.lazyTypeParameterConstraints">
            <summary>
            A collection of type parameter constraints, populated when
            constraints for the first type parameter is requested.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.otherPartOfPartial">
            <summary>
            If this symbol represents a partial method definition or implementation part, its other part (if any).
            This should be set, if at all, before this symbol appears among the members of its owner.  
            The implementation part is not listed among the "members" of the enclosing type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.constraintClauseBinder">
            <summary>
            A binder to use for binding generic constraints. The field is only non-null while the .ctor
            is executing, and allows constraints to be bound before the method is added to the
            containing type. (Until the method symbol has been added to the container, we cannot
            get a binder for the method without triggering a recursive attempt to bind the method.)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.CopyMethodCustomModifiers(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.TypeSymbol@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.CustomModifier}@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ParameterSymbol}@,System.Boolean)">
            <remarks>
            Ref params are written using (ReadOnly)Interlocked.Exchange.
            NOTE: Exchange rather than CompareExchange since we're overwriting, not initializing.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.PartialMethodChecks(Roslyn.Compilers.CSharp.SourceMemberMethodSymbol,Roslyn.Compilers.CSharp.SourceMemberMethodSymbol,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Report differences between the defining and implementing
            parts of a partial method. Diagnostics are reported on the
            implementing part, matching Dev10 behavior.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.HaveSameConstraints(Roslyn.Compilers.CSharp.SourceMemberMethodSymbol,Roslyn.Compilers.CSharp.SourceMemberMethodSymbol)">
            <summary>
            Returns true if the two partial methods have the same constraints.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.OtherPartOfPartial">
            <summary>
            If this is a partial implementation part returns the definition part and vice versa.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.IsPartialDefinition">
            <summary>
            Returns true if this symbol represents a partial method definition (the part that specifies a signature but no body).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.IsPartialImplementation">
            <summary>
            Returns true if this symbol represents a partial method implementation (the part that specifies both signature and body).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.IsPartialWithoutImplementation">
            <summary>
            True if this is a partial method that doesn't have an implementation part.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.SourcePartialDefinition">
            <summary>
            Returns the implementation part of a partial method definition, 
            or null if this is not a partial method or it is the definition part.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceMemberMethodSymbol.SourcePartialImplementation">
            <summary>
            Returns the definition part of a partial method implementation, 
            or null if this is not a partial method or it is the implementation part.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourcePropertyAccessorSymbol.LocalAccessibility">
            <summary>
            Return Accessibility declared locally on the accessor, or
            NotApplicable if no accessibility was declared explicitly.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SymbolKind">
            <summary>
            Represents the different kinds of symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TempLocalSymbol">
            <summary>
            TempLocalSymbol is special kind of LocalSymbol that can have ref kind.
            
            The semantics of LHS ByRef local is roughly the same as of a ByRef argument
               EmitAssignment will do EmitAddress for RHS and then assign.
                                                
            The semantics of RHS ByRef local is roughly the same as of a ByRef parameter
               EmitExpression   will load the value which local is refering to.
               EmitAddress      will load the actual local.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LookupOptions">
            <summary>
            Options that can be used to modify the symbol lookup mechanism. 
            </summary>
            <remarks>
            Multiple options can be combined together.  LookupOptions.AreValid checks for valid combinations.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.Default">
            <summary>
            Consider all symbols, using normal accessibility rules.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.NamespaceAliasesOnly">
            <summary>
            Consider only namespace aliases and extern aliases.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.NamespacesOrTypesOnly">
            <summary>
            Consider only namespaces and types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.MustBeInvocableMember">
            <summary>
            Only  consider symbols that are invocable members.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.MustBeInstance">
            <summary>
            Consider only symbols that are instance members. Valid with IncludeExtensionMethods
            since extension methods are invoked on an instance.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.MustNotBeInstance">
            <summary>
            Do not consider symbols that are instance members.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.MustNotBeNamespace">
            <summary>
            Do not consider symbols that are namespaces.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.IgnoreAccessibility">
            <summary>
            Ignore accessibility checking when determining if a symbol is a match.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.AllMethodsOnArityZero">
            <summary>
            Consider methods of any arity when arity zero is specified. Because type parameters can be inferred, it is
            often desired to consider generic methods when no type arguments were present.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.LabelsOnly">
            <summary>
            Look only for label symbols.  This must be exclusive of all other options.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.UseBaseReferenceAccessibility">
            <summary>
            Usually, when determining if a member is accessible, both the type of the receiver
            and the type containing the access are used.  If this flag is specified, then only
            the containing type will be used (i.e. as if you've written base.XX).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.IncludeExtensionMethods">
            <summary>
            Include extension methods.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.AttributeTypeOnly">
            <summary>
            Consider only attribute types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.LookupOptions.VerbatimNameAttributeTypeOnly">
            <summary>
            Consider lookup name to be a verbatim identifier.
            If this flag is specified, then only one lookup is performed for attribute name: lookup with the given name,
            and attribute name lookup with "Attribute" suffix is skipped.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupOptionExtensions.AreValid(Roslyn.Compilers.CSharp.LookupOptions)">
            <summary>
            Are these options valid in their current combination?
            </summary>
            <remarks>
            Some checks made here:
            
            - Default is valid.
            - If LabelsOnly is set, it must be the only option.
            - If one of MustBeInstance or MustNotBeInstance are set, the other one must not be set.
            - If any of MustNotBeInstance, MustBeInstance, or MustNotBeNonInvocableMember are set,
              the options are considered valid.
            - Otherwise, only one of NamespaceAliasesOnly, NamespacesOrTypesOnly, or AllMethodsOnArityZero must be set.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AccessCheck">
            <summary>
            Contains the code for determining C# accessibility rules.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AccessCheck.IsSymbolAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            Checks if 'symbol' is accessible from within assembly 'within'.  
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AccessCheck.IsSymbolAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Checks if 'symbol' is accessible from within type 'within', with
            an optional qualifier of type "throughTypeOpt".
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AccessCheck.IsSymbolAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean@,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Checks if 'symbol' is accessible from within type 'within', with
            an qualifier of type "throughTypeOpt". Sets "failedThroughTypeCheck" to true
            if it failed the "through type" check.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.AccessCheck.IsSymbolAccessibleCore(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.TypeSymbol,System.Boolean@,Roslyn.Compilers.CSharp.Compilation,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Symbol})">
            <summary>
            Checks if 'symbol' is accessible from within 'within', which must be a NamedTypeSymbol
            or an AssemblySymbol. 
            
            Note that NamedTypeSymbol, if available, is the type that is associated with the binder 
            that found the 'symbol', not the inner-most type that contains the access to the
            'symbol'.
            
            If 'symbol' is accessed off of an expression then 'throughTypeOpt' is the type of that
            expression. This is needed to properly do protected access checks. Sets
            "failedThroughTypeCheck" to true if this protected check failed.
            
            NOTE(cyrusn): I expect this function to be called a lot.  As such, i do not do any memory
            allocations in the function itself (including not making any iterators).  This does mean
            that certain helper functions that we'd like to call are inlined in this method to
            prevent the overhead of returning collections or enumerators.  
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InContainerBinder">
            <summary>
            A binder that places the members of a symbol in scope.  If there is a container declaration
            with using directives, those are merged when looking up names.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InContainerBinder.#ctor(Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,Roslyn.Compilers.CSharp.Binder,Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean,System.Boolean)">
            <summary>
            Creates a binder for a container with imports (usings and extern aliases) that can be
            retrieved from <paramref name="declarationSyntax"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InContainerBinder.#ctor(Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol,Roslyn.Compilers.CSharp.Binder,Roslyn.Compilers.CSharp.Imports)">
            <summary>
            Creates a binder with given imports.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.WithClassTypeParametersBinder">
            <summary>
            A binder that places class/interface/struct/delegate type parameters in scope
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InMethodBinder">
            <summary>
            A binder for a method body, which places the method's parameters in scope
            and notes if the method is an iterator method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.WithMethodTypeParametersBinder">
            <summary>
            A binder that places method type parameters in scope.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.EmitResult">
            <summary>
            The result of the Compilation Emit operation.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ReflectionEmitResult">
            <summary>
            The result of emitting a compilation to a dynamic module.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExecutableCodeBinder">
            <summary>
            This binder owns and lazily creates the map of SyntaxNodes to Binders associated with
            the syntax with which it is created. This binder is not created in reaction to any
            specific syntax node type. It is inserted into the binder chain
            between the binder which it is constructed with and those that it constructs via
            the LocalBinderFactory. 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Declaration">
            <summary>
            A Declaration summarizes the declaration structure of a source file. Each entity declaration
            in the program that is a container (specifically namespaces, classes, interfaces, structs,
            and delegate declarations) is represented by a node in this tree.  At the top level, the
            compilation unit is treated as a declaration of the unnamed namespace.
            
            Special treatment is required for namespace declarations, because a single namespace
            declaration can declare more than one namespace.  For example, in the declaration
            
                namespace A.B.C {}
                
            we see that namespaces A and B and C are declared.  This declaration is represented as three
            declarations. All three of these ContainerDeclaration objects contain a reference to the
            syntax tree for the declaration.
            
            A "single" declaration represents a specific namespace or type declaration at a point in
            source code. A "root" declaration is a special single declaration which summarizes the
            contents of an entire file's types and namespaces.  Each source file is represented as a tree
            of single declarations.
            
            A "merged" declaration merges together one or more declarations for the same symbol.  For
            example, the root namespace has multiple single declarations (one in each source file) but
            there is a single merged declaration for them all.  Similarly partial classes may have
            multiple declarations, grouped together under the umbrella of a merged declaration.  In the
            common trivial case, a merged declaration for a single declaration contains only that single
            declaration.  The whole program, consisting of the set of all declarations in all of the
            source files, is represented by a tree of merged declarations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitAddress(Roslyn.Compilers.CSharp.BoundExpression,System.Boolean)">
            <summary>
            Emits address as in &amp; 
            
            May introduce a temp which it will return. (otherwise returns null)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitAddressOfTempClone(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Emits address of a temp.
            Used in cases where taking address directly is not possible 
            (typically because expression does not have a home)
            
            Introduce a temp which it will return.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitSequenceAddress(Roslyn.Compilers.CSharp.BoundSequence,System.Boolean)">
            <summary>
            May introduce a temp which it will return. (otherwise returns null)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.HasHome(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Checks if expression directly or indirectly represents a value with its own home. In
            such cases it is possible to get a reference without loading into a temporary.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.HasHome(Roslyn.Compilers.CSharp.BoundFieldAccess)">
            <summary>
            Special HasHome for fields. Fields have homes when they are writeable.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitFieldAddress(Roslyn.Compilers.CSharp.BoundFieldAccess)">
            <summary>
            May introduce a temp which it will return. (otherwise returns null)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitReceiverRef(Roslyn.Compilers.CSharp.BoundExpression,System.Boolean)">
            <summary>
            Emits receiver in a form that allows member accesses ( O or &amp; ). For verifiably
            reference types it is the actual reference. For generic types it is a address of the
            receiver with readonly intent. For the value types it is an address of the receiver.
            
            isAccessConstrained indicates that receiver is a target of a constrained callvirt
            in such case it is unnecessary to box a receier that is typed to a type parameter
            
            May introduce a temp which it will return. (otherwise returns null)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitInstanceFieldAddress(Roslyn.Compilers.CSharp.BoundFieldAccess)">
            <summary>
            May introduce a temp which it will return. (otherwise returns null)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitVectorInitializers(Roslyn.Compilers.CSharp.ArrayTypeSymbol,Roslyn.Compilers.CSharp.BoundArrayInitialization)">
            <summary>
            Emits appropriate initialization sequence for the array on the stack.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.AsConstOrDefault(Roslyn.Compilers.CSharp.BoundExpression,System.Boolean@)">
            <summary>
            Returns a constant value that corresponds to a single initializer.
            If expression is not a constant, a default value is returned.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.ShouldEmitBlockInitializer(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.BoundArrayInitialization)">
            <summary>
            Decides if we can/should emit initializer via a metadata block.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.CanUseCallOnRefTypeReceiver(Roslyn.Compilers.CSharp.BoundExpression)">
            <summary>
            Used to decide if we need to emit call or callvirt.
            It basically checks if the receiver expression cannot be null, but it is not 100% precise. 
            There are cases where it really can be null, but we do not care.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.MayUseCallForStructMethod(Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Used to decide if we need to emit 'call' or 'callvirt' for structure method.
            It basically checks if the method overrides any other and method's defining type
            is not a 'special' or 'special-by-ref' type. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.TreatLongsAsNative(Microsoft.Cci.PrimitiveTypeCode)">
            <summary>
            When array operation get long or ulong arguments the args should be 
            cast to native int.
            Note that the cast is always checked.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitVectorElementStore(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Emit an element store instruction for a single dimensional array.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitConditionalOperator(Roslyn.Compilers.CSharp.BoundConditionalOperator,System.Boolean)">
            <summary>
            Emit code for a conditional (aka ternary) operator.
            </summary>
            <remarks>
            (b ? x : y) becomes
                push b
                if pop then goto TRUE
                push y
                goto DONE
              TRUE:
                push x
              DONE:
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.CodeForJump(Roslyn.Compilers.CSharp.BoundBinaryOperator,System.Boolean,Roslyn.Compilers.CodeGen.ILOpCode@)">
            <summary>
            Produces opcode for a jump that corresponds to given opearation and sense.
            Also produces a reverse opcode - opcode for the same condition with inverted sense.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.EmitStringCompareAndBranch(Roslyn.Compilers.CodeGen.LocalDefinition,Roslyn.Compilers.ConstantValue,System.Object,System.Object[])">
            <summary>
            Delegate to emit string compare call and conditional branch based on the compare result.
            </summary>
            <param name="key">Key to compare</param>
            <param name="stringConstant">Case constant to compare the key against</param>
            <param name="targetLabel">Target label to branch to if key = stringConstant</param>
            <param name="arguments">Additional arguments for the delegate</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.GetLocal(Roslyn.Compilers.CSharp.BoundLocal)">
            <summary>
            Gets already declared and initialized local.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.FreeLocal(Roslyn.Compilers.CSharp.LocalSymbol)">
            <summary>
            Releases a local.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.AllocateTemp(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Allocates a temp without identity.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.FreeTemp(Roslyn.Compilers.CodeGen.LocalDefinition)">
            <summary>
            Frees a temp.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.FreeOptTemp(Roslyn.Compilers.CodeGen.LocalDefinition)">
            <summary>
            Frees an optional temp.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.CodeGen.CodeGenerator.indirectReturnState">
            <summary>
            In some cases returns are handled as gotos to return epilogue.
            This is used to track the state of the epilogue.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.CSharp.ScriptEngine">
            <summary>
            Represents a runtime execution context for C# scripts.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CSharp.ScriptEngine.ValidateReferences(Roslyn.Compilers.Common.CommonCompilation,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Checks that the compilation doesn't have any references whose name start with the reserved prefix.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SymbolDisplay">
            <summary>
            A static class which is used to display symbol content based on specific <see cref="T:Roslyn.Compilers.SymbolDisplayFormat"/> 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolDisplay.ToDisplayString(Roslyn.Compilers.Common.ISymbol,Roslyn.Compilers.SymbolDisplayFormat,System.IFormatProvider)">
            <summary>
            Convert a symbol to a string that can be displayed to the user.
            </summary>
            <param name="symbol">Symbol to be displayed.</param>
            <param name="format">Formatting rules - null implies
            SymbolDisplayFormat.ErrorMessageFormat.</param>
            <param name="formatProvider">For formatting values within the symbol - null is passed to
            IFormattable.ToString, which treats it as CultureInfo.CurrentCulture.</param>
            <returns>A formatted string that can be displayed to the user.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolDisplay.ToMinimalDisplayString(Roslyn.Compilers.Common.ISymbol,Roslyn.Compilers.Common.CommonLocation,Roslyn.Compilers.Common.ISemanticModel,Roslyn.Compilers.SymbolDisplayFormat,System.IFormatProvider)">
            <summary>
            Convert a symbol to a string that can be displayed to the user. May be tailored to a
            specific location in the source code.
            </summary>
            <param name="symbol">Symbol to be displayed.</param>
            <param name="location">A location in the source code (context).</param>
            <param name="semanticModel">Binding information (for determining names appropriate to
            the context).</param>
            <param name="format">Formatting rules - null implies
            SymbolDisplayFormat.MinimallyQualifiedFormat.</param>
            <param name="formatProvider">For formatting values within the symbol - null is passed to
            IFormattable.ToString, which treats it as CultureInfo.CurrentCulture.</param>
            <returns>A formatted string that can be displayed to the user.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolDisplay.ToDisplayParts(Roslyn.Compilers.Common.ISymbol,Roslyn.Compilers.SymbolDisplayFormat)">
            <summary>
            Convert a symbol to an array of string parts, each of which has a kind. Useful for
            colorizing the display string.
            </summary>
            <param name="symbol">Symbol to be displayed.</param>
            <param name="format">Formatting rules - null implies
            SymbolDisplayFormat.ErrorMessageFormat.</param>
            <returns>A read-only array of string parts.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SymbolDisplay.ToMinimalDisplayParts(Roslyn.Compilers.Common.ISymbol,Roslyn.Compilers.Common.CommonLocation,Roslyn.Compilers.Common.ISemanticModel,Roslyn.Compilers.SymbolDisplayFormat)">
            <summary>
            Convert a symbol to an array of string parts, each of which has a kind. May be tailored
            to a specific location in the source code. Useful for colorizing the display string.
            </summary>
            <param name="symbol">Symbol to be displayed.</param>
            <param name="location">A location in the source code (context).</param>
            <param name="semanticModel">Binding information (for determining names appropriate to
            the context).</param>
            <param name="format">Formatting rules - null implies
            SymbolDisplayFormat.MinimallyQualifiedFormat.</param>
            <returns>A read-only array of string parts.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.FieldInitializer">
            <summary>
            Represents a field initializer or a global statement in script code.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.FieldInitializer.Field">
            <summary>
            The field being initialized or null if this is a global statement.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.FieldInitializer.Syntax">
            <summary>
            A reference to <see cref="T:Roslyn.Compilers.CSharp.EqualsValueClauseSyntax"/> or <see cref="T:Roslyn.Compilers.CSharp.GlobalStatementSyntax"/>.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterBuilder">
            <summary>
            A context for binding type parameter symbols.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedParameterSymbol">
            <summary>
            Represents a simple compiler generated parameter of a given type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SynthesizedParameterSymbol.DeriveParameters(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            For each parameter of a source method, construct a corresponding synthesized parameter
            for a destination method.
            </summary>
            <param name="sourceMethod">Has parameters.</param>
            <param name="destinationMethod">Needs parameters.</param>
            <returns>Synthesized parameters to add to destination method.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeKind">
            <summary>
            Represents the different kinds of types.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AliasSymbol">
            <summary>
            Symbol representing a using alias appearing in a compilation unit or within a namespace
            declaration. Generally speaking, these symbols do not appear in the set of symbols reachable
            from the unnamed namespace declaration.  In other words, when a using alias is used in a
            program, it acts as a transparent alias, and the symbol to which it is an alias is used in
            the symbol table.  For example, in the source code
            <pre>
            namespace NS
            {
                using o = System.Object;
                partial class C : o {}
                partial class C : object {}
                partial class C : System.Object {}
            }
            </pre>
            all three declarations for class C are equivalent and result in the same symbol table object
            for C. However, these using alias symbols do appear in the results of certain SemanticModel
            APIs. Specifically, for the base clause of the first of C's class declarations, the
            following APIs may produce a result that contains an AliasSymbol:
            <pre>
                SemanticInfo SemanticModel.GetSemanticInfo(ExpressionSyntax expression);
                SemanticInfo SemanticModel.BindExpression(SyntaxNode location, ExpressionSyntax expression);
                SemanticInfo SemanticModel.BindType(SyntaxNode location, ExpressionSyntax type);
                SemanticInfo SemanticModel.BindNamespaceOrType(SyntaxNode location, ExpressionSyntax type);
            </pre>
            Also, the following are affected if container==null (and, for the latter, when arity==null
            or arity==0):
            <pre>
                IList&lt;string&gt; SemanticModel.LookupNames(SyntaxNode location, NamespaceOrTypeSymbol container = null, LookupOptions options = LookupOptions.Default, List&lt;string> result = null);
                IList&lt;Symbol&gt; SemanticModel.LookupSymbols(SyntaxNode location, NamespaceOrTypeSymbol container = null, string name = null, int? arity = null, LookupOptions options = LookupOptions.Default, List&lt;Symbol> results = null);
            </pre>
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasSymbol.Target">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.CSharp.NamespaceOrTypeSymbol"/> for the
            namespace or type referenced by the alias.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasSymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute.
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasSymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasSymbol.ContainingSymbol">
            <summary>
            Using aliases in C# are always contained within a namespace declaration, or at the top
            level within a compilation unit, within the implicit unnamed namespace declaration.  We
            return that as the "containing" symbol, even though the alias isn't a member of the
            namespace as such.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax">
            <summary>Class which represents the syntax node for alias qualified name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax.Alias">
            <summary>IdentifierNameSyntax node representing the name of the alias</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax.ColonColonToken">
            <summary>SyntaxToken representing colon colon.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AliasQualifiedNameSyntax.Name">
            <summary>SimpleNameSyntax node representing the name that is being alias qualified.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CompilationUnitSyntax.GetReferenceDirectives">
            <summary>
            Returns #r directives specified in the compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CompilationUnitSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.StatementSyntax">
            <summary>Represents the base class for all statements syntax classes.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ExpressionStatementSyntax.AllowsAnyExpression">
            <summary>
            Returns true if the <see cref="P:Roslyn.Compilers.CSharp.ExpressionStatementSyntax.Expression"/> property is allowed by the rules of the
            language to be an arbitrary expression, not just a statement expression.
            </summary>
            <remarks>
            True if, for example, this expression statement represents the last expression statement
            of the interactive top-level code.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode.EnumerateNodes">
            <summary>
            Enumerates all nodes of the tree rooted by this node (including this node).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.SyntaxToken.ToString">
            <summary>
            Returns the string representation of this token, not including its leading and trailing trivia.
            </summary>
            <returns>The string representation of this token, not including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.QualifiedNameSyntax">
            <summary>Class which represents the syntax node for qualified name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QualifiedNameSyntax.Left">
            <summary>NameSyntax node representing the name on the left side of the dot token of the qualified name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QualifiedNameSyntax.DotToken">
            <summary>SyntaxToken representing the dot.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QualifiedNameSyntax.Right">
            <summary>SimpleNameSyntax node representing the name on the right side of the dot token of the qualified name.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.FlowAnalysisPass.Rewrite(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.BoundBlock,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            The flow analysis pass.  This pass reports required diagnostics for unreachable
            statements and uninitialized variables (through the call to FlowAnalysisWalker.Analyze),
            and inserts a final return statement if the end of a void-returning method is reachable.
            </summary>
            <param name="method">the method to be analyzed</param>
            <param name="block">the method's body</param>
            <param name="diagnostics">the receiver of the reported diagnostics</param>
            <returns>the rewritten block for the method (with a return statement possibly inserted)</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel">
            <summary>
            Allows asking semantic questions about any node in a SyntaxTree within a Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclarationDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the syntax and declaration errors within the syntax tree associated with this object. Does not get
            errors involving compiling method bodies or initializers.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the process of obtaining the
            diagnostics.</param>
            <remarks>The declaration errors for a syntax tree are cached. The first time this method is called, all
            declarations are analyzed for diagnostics. Calling this a second time will return the cached diagnostics.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the errors within the syntax tree associated with this object. Includes errors involving compiling
            method bodies or initializers, in addition to the errors returned by GetDeclarationDiagnostics.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the process of obtaining the
            diagnostics.</param>
            <remarks>
            Because this method must semantically all method bodies and initializers to check for diagnostics, it may
            take a significant amount of time. Unlike GetDeclarationDiagnostics, diagnostics for method bodies and
            initializers are not cached, the any semantic information used to obtain the diagnostics is discarded.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetEnclosingBinder(System.Int32)">
            <summary>
            Gets the enclosing binder associated with the node
            </summary>
            <param name="position"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.ClassifyConversion(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was converted to a given
            type.
            </summary>
            <param name="expression">An expression which much occur within the syntax tree associated with this
            object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was possible, and if so, what
            kind of conversion it was. If no conversion was possible, a Conversion object with a false "Exists "
            property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a type), use
            Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.ClassifyConversionForCast(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was converted to a given
            type using an explicit cast.
            </summary>
            <param name="expression">An expression which much occur within the syntax tree associated with this
            object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was possible, and if so, what
            kind of conversion it was. If no conversion was possible, a Conversion object with a false "Exists "
            property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a type), use
            Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.NamespaceDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a namespace declaration syntax node, get the corresponding namespace symbol for the declaration
            assembly.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a namespace.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The namespace symbol that was declared by the namespace declaration.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a type declaration, get the corresponding type symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a type.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The type symbol that was declared.</returns>
            <remarks>
            NOTE:   We have no GetDeclaredSymbol overloads for subtypes of BaseTypeDeclarationSyntax as all of them return a NamedTypeSymbol.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.DelegateDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a delegate declaration, get the corresponding type symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a delegate.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The type symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.MemberDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given an member declaration syntax, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a member.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
            <remarks>
            NOTE:   We have no GetDeclaredSymbol overloads for following subtypes of MemberDeclarationSyntax:
            NOTE:   (1) GlobalStatementSyntax as they don't declare any symbols.
            NOTE:   (2) IncompleteMemberSyntax as there are no symbols for incomplete members.
            NOTE:   (3) BaseFieldDeclarationSyntax or its subtypes as these declarations can contain multiple variable declarators.
            NOTE:       GetDeclaredSymbol should be called on the variable declarators directly.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a enum member declaration, get the corresponding field symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares an enum member.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.BaseMethodDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a base method declaration syntax, get the corresponding method symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a method.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
            <remarks>
            NOTE:   We have no GetDeclaredSymbol overloads for subtypes of BaseMethodDeclarationSyntax as all of them return a MethodSymbol.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a property, indexer or an event, get the corresponding declared symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a property, indexer or an event.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.PropertyDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a property, get the corresponding declared symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a property, indexer or an event.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.IndexerDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares an indexer, get the corresponding declared symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares an indexer.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.EventDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a syntax node that declares a (custom) event, get the corresponding event symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a event.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.AccessorDeclarationSyntax,System.Threading.CancellationToken)">
            <summary>
            Given an syntax node that declares a property or member accessor, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares an accessor.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.VariableDeclaratorSyntax,System.Threading.CancellationToken)">
            <summary>
            Given an variable declarator syntax, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a variable.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.LabeledStatementSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a labeled statement syntax, get the corresponding label symbol.
            </summary>
            <param name="declarationSyntax">The syntax node of the labeled statement.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The label symbol for that label.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.SwitchLabelSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a switch label syntax, get the corresponding label symbol.
            </summary>
            <param name="declarationSyntax">The syntax node of the switch label.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The label symbol for that label.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.UsingDirectiveSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a using declaration get the corresponding symbol for the using alias that was introduced.  
            </summary>
            <param name="declarationSyntax"></param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The alias symbol that was declared.</returns>
            <remarks>
            If the using directive is an error because it attempts to introduce an alias for which an existing alias was
            previously declared in the same scope, the result is a newly-constructed AliasSymbol (i.e. not one from the
            symbol table).
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax,System.Threading.CancellationToken)">
            <summary>
            Given an extern alias declaration get the corresponding symbol for the alias that was introduced.
            </summary>
            <param name="declarationSyntax"></param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The alias symbol that was declared, or null if a duplicate alias symbol was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.ParameterSyntax,System.Threading.CancellationToken)">
            <summary>
            Given an parameter declaration syntax node, get the corresponding symbol.
            </summary>
            <param name="declarationSyntax">The syntax node that declares a parameter.</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The parameter that was declared.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.GetDeclaredSymbol(Roslyn.Compilers.CSharp.TypeParameterSyntax,System.Threading.CancellationToken)">
            <summary>
            Given a type parameter declaration (field or method), get the corresponding symbol
            </summary>
            <param name="typeParameter"></param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.Compilation">
            <summary>
            The compilation this object was obtained from.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.Root">
            <summary>
            The root node of the syntax tree that this object is associated with.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTreeSemanticModel.SyntaxTree">
            <summary>
            The SyntaxTree that this object is associated with.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ControlFlowAnalysis">
            <summary>
            This class implements the region control flow analysis operations. Region control flow
            analysis provides information about statements which enter and leave a region. The analysis
            is done lazily. When created, it performs no analysis, but simply caches the arguments.
            Then, the first time one of the analysis results is used it computes that one result and
            caches it. Each result is computed using a custom algorithm.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ControlFlowAnalysis.EntryPoints">
            <summary>
            A collection of statements outside the region that jump into the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ControlFlowAnalysis.ExitPoints">
            <summary>
            A collection of statements inside the region that jump to locations outside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ControlFlowAnalysis.EndPointIsReachable">
            <summary>
            Returns true if and only if the endpoint of the last statement in the region is reachable or the region contains no
            statements.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ControlFlowAnalysis.ReturnStatements">
            <summary>
            A collection of return (or yield break) statements found within the region that return from the enclosing method or lambda.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ControlFlowAnalysis.Succeeded">
            <summary>
            Returns true iff analysis was successful.  Analysis can fail if the region does not properly span a single expression,
            a single statement, or a contiguous series of statements within the enclosing block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DeclarationTable">
            <summary>
            A declaration table is a device which keeps track of type and namespace declarations from
            parse trees. It is optimized for the case where there is one set of declarations that stays
            constant, and a specific root namespace declaration corresponding to the currently edited
            file which is being added and removed repeatedly. It maintains a cache of information for
            "merging" the root declarations into one big summary declaration; this cache is efficiently
            re-used provided that the pattern of adds and removes is as we expect.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DeclarationTreeBuilder.CreateScriptRootDeclaration(Roslyn.Compilers.CSharp.CompilationUnitSyntax)">
            <summary>
            Creates a root declaration that contains a Script class declaration (possibly in a namespace) and namespace declarations.
            Top-level declarations in script code are nested in Script class.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ArrayTypeSymbol">
            <summary>
            An ArrayTypeSymbol represents an array type, such as int[] or object[,].
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ArrayTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.CustomModifier},System.Int32,Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Create a new ArrayTypeSymbol.
            </summary>
            <param name="elementType">The element type of this array type.</param>
            <param name="customModifiers">Custom modifiers for the element type of this array type.</param>
            <param name="rank">The rank of this array type.</param>
            <param name="compilation">The compilation in which the type is constructed.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ArrayTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.CustomModifier},System.Int32,Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            Create a new ArrayTypeSymbol.
            </summary>
            <param name="elementType">The element type of this array type.</param>
            <param name="customModifiers">Custom modifiers for the element type of this array type.</param>
            <param name="rank">The rank of this array type.</param>
            <param name="declaringAssembly">The assembly "declaring"/using the array type.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ArrayTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,System.Collections.Generic.List{Roslyn.Compilers.MetadataReader.MetadataDecoder{Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.AssemblySymbol,Roslyn.Compilers.CSharp.Symbol}.ModifierInfo},Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            Create a new ArrayTypeSymbol of rank 1.
            </summary>
            <param name="elementType">The element type of this array type.</param>
            <param name="customModifiers">Custom modifiers for the element type of this array type.</param>
            <param name="declaringAssembly">The assembly "declaring"/using the array type.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ArrayTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.CustomModifier},System.Int32,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Create a new ArrayTypeSymbol.
            </summary>
            <param name="elementType">The element type of this array type.</param>
            <param name="customModifiers">Custom modifiers for the element type of this array type.</param>
            <param name="rank">The rank of this array type.</param>
            <param name="array">The core library type "System.Array".</param>
            <param name="ilist">The core library type "IList".</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ArrayTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,System.Int32,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Create a new ArrayTypeSymbol.
            </summary>
            <param name="elementType">The element type of this array type.</param>
            <param name="rank">The rank of this array type.</param>
            <param name="array">The core library type "System.Array".</param>
            <param name="ilist">The core library type "IList".</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayTypeSymbol.CustomModifiers">
            <summary>
            Gets the list of custom modifiers associated with the array.
            Returns an empty list if there are no custom modifiers.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayTypeSymbol.Rank">
            <summary>
            Gets the number of dimensions of the array. A regular single-dimensional array
            has rank 1, a two-dimensional array has rank 2, etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayTypeSymbol.ElementType">
            <summary>
            Gets the type of the elements stored in the array.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Emit.Module.assemblySymbolMapper">
            <summary>
            Used to translate assembly symbols to assembly references in scenarios when the physical assemblies 
            being emitted don't correspond to the assembly symbols 1:1. This happens, for example, in interactive sessions where
            multiple code submissions might be compiled into a single dynamic assembly or into multiple assemblies 
            depending on properties of the code being emitted. If null we map assembly symbol exactly to its assembly name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Emit.Module.GetCompilerGeneratedTypes(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Returns null if there are no compiler generated types.
            </summary>
            <param name="container"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Emit.Module.GetCompilerGeneratedMethods(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Returns null if there are no compiler generated methods.
            </summary>
            <param name="container"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Emit.Module.GetCompilerGeneratedFields(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Returns null if there are no compiler generated fields.
            </summary>
            <param name="container"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.Module.CompilerGeneratedDefinitions">
            <summary>
            Captures the set of compiler generated definitions that should be added to a type
            during emit process.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Emit.Assembly.metadataName">
            <summary>
            The behavior of the C# command-line compiler is as follows:
              1) If the /out switch is specified, then the explicit assembly name is used.
              2) Otherwise,
                 a) if the assembly is executable, then the assembly name is derived from
                    the name of the file containing the entrypoint;
                 b) otherwise, the assembly name is derived from the name of the first input
                    file.
            
            Since we don't know which method is the entrypoint until well after the
            SourceAssemblySymbol is created, in case 2a, its name will not reflect the
            name of the file containing the entrypoint.  We leave it to our caller to
            provide that name explicitly.
            </summary>
            <remarks>
            In cases 1 and 2b, we expect (metadataName == sourceAssembly.MetadataName).
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CustomModifier">
            <summary>
            Represents a custom modifier (modopt/modreq).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CustomModifier.IsOptional">
            <summary>
            If true, a language may use the modified storage location without 
            being aware of the meaning of the modification, modopt vs. modreq. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CustomModifier.Modifier">
            <summary>
            A type used as a tag that indicates which type of modification applies.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.GenericMethodInstanceReference">
            <summary>
            Represents a reference to a generic method instantiation, closed over type parameters,
            e.g. MyNamespace.Class.Method{T}()
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.GenericNestedTypeInstanceReference">
            <summary>
            Represents a reference to a generic type instantiation that is nested in a non-generic type.
            e.g. A.B{int}
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.GenericTypeInstanceReference">
            <summary>
            Represents a reference to a generic type instantiation.
            Subclasses represent nested and namespace types.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.GenericNamespaceTypeInstanceReference">
            <summary>
            Represents a reference to a generic type instantiation that is not nested.
            e.g. MyNamespace.A{int}
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PointerTypeSymbol">
            <summary>
            Represents a pointer type such as "int *". Pointer types
            are used only in unsafe code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PointerTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Create a new PointerTypeSymbol.
            </summary>
            <param name="pointedAtType">The type being pointed at.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PointerTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.CustomModifier})">
            <summary>
            Create a new PointerTypeSymbol.
            </summary>
            <param name="pointedAtType">The type being pointed at.</param>
            <param name="customModifiers">Custom modifiers for the element type of this array type.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.PointerTypeSymbol.#ctor(Roslyn.Compilers.CSharp.TypeSymbol,System.Collections.Generic.List{Roslyn.Compilers.MetadataReader.MetadataDecoder{Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.AssemblySymbol,Roslyn.Compilers.CSharp.Symbol}.ModifierInfo})">
            <summary>
            Create a new PointerTypeSymbol.
            </summary>
            <param name="pointedAtType">The type being pointed at.</param>
            <param name="customModifiers">Custom modifiers for the element type of this array type.</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PointerTypeSymbol.CustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the pointer type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PointerTypeSymbol.PointedAtType">
            <summary>
            Gets the type of the storage location that an instance of the pointer type points to.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.SpecializedFieldReference">
            <summary>
            Represents a reference to a field of a generic type instantiation.
            e.g.
            A{int}.Field
            A{int}.B{string}.C.Field
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.SpecializedGenericNestedTypeInstanceReference">
            <summary>
            Represents a reference to an instantiation of a generic type nested in an instantiation of another generic type.
            e.g. 
            A{int}.B{string}
            A.B{int}.C.D{string}
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Emit.SpecializedNestedTypeReference">
            <summary>
            Represents a reference to a type nested in an instantiation of a generic type.
            e.g. 
            A{int}.B
            A.B{int}.C.D
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Diagnostic">
            <summary>
            A diagnostic, along with the location where it occurred.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Diagnostic.Location">
            <summary>
            The primary location of the diagnostic.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Diagnostic.AdditionalLocations">
            <summary>
            Get additional locations related to the diagnostic. Typically these are the locations of
            symbols that are mentioned in the message.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DiagnosticBagExtensions.SealDiagnostics(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Get all the diagnostics in the diagnostic bag, as an enumerable of Diagnostic. DiagnosticBag
            implements IEnumerable&lt;IDiagnostic&gt; instead of IEnumerable&lt;Diagnostic&gt;.
            </summary>
            <param name="diagBag"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DiagnosticBagExtensions.GetDiagnostics(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Get all the diagnostics in the diagnostic bag, as an enumerable of Diagnostic. DiagnosticBag
            implements IEnumerable&lt;IDiagnostic&gt; instead of IEnumerable&lt;Diagnostic&gt;.
            </summary>
            <param name="diagBag"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.DiagnosticBagExtensions.Add(Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.ErrorCode,Roslyn.Compilers.CSharp.Location,System.Object[])">
            <summary>
            Add a diagnostic to the bag.
            </summary>
            <param name="diagnostics"></param>
            <param name="code"></param>
            <param name="location"></param>
            <param name="args"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorFacts.GetMessage(Roslyn.Compilers.CSharp.MessageID,System.Globalization.CultureInfo)">
            <remarks>Don't call this during a parse--it loads resources</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorFacts.GetMessage(Roslyn.Compilers.CSharp.ErrorCode,System.Globalization.CultureInfo)">
            <remarks>Don't call this during a parse--it loads resources</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorFacts.GetMessage(Roslyn.Compilers.CSharp.XmlParseErrorCode,System.Globalization.CultureInfo)">
            <remarks>Don't call this during a parse--it loads resources</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ErrorFacts.PreventsSuccessfulDelegateConversion(Roslyn.Compilers.CSharp.ErrorCode)">
            <summary>
            When converting an anonymous function to a delegate type, there are some diagnostics
            that will occur regardless of the delegate type - particularly those that do not
            depend on the substituted types (e.g. name uniqueness).  Even though we need to
            produce a diagnostic in such cases, we do not need to abandon overload resolution -
            we can choose the overload that is best without regard to such diagnostics.
            </summary>
            <returns>True if seeing the ErrorCode should prevent a delegate conversion
            from completing successfully.</returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MetadataLocation">
            <summary>
            A program location in metadata.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NoLocation">
            <summary>
            A class that represents no location at all. Useful for errors in command line options, for example.
            </summary>
            <remarks></remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CharacterInfo">
            <summary>
            Defines a set of methods to determine how Unicode characters are treated by the C# compiler.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsHexDigit(System.Char)">
            <summary>
            Returns true if the Unicode character is a hexadecimal digit.
            </summary>
            <param name="c">The Unicode character.</param>
            <returns>true if the character is a hexadecimal digit 0-9, A-F, a-f.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsDecDigit(System.Char)">
            <summary>
            Returns true if the Unicode character is a decimal digit.
            </summary>
            <param name="c">The Unicode character.</param>
            <returns>true if the Unicode character is a decimal digit.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.HexValue(System.Char)">
            <summary>
            Returns the value of a hexadecimal Unicode character.
            </summary>
            <param name="c">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.DecValue(System.Char)">
            <summary>
            Returns the value of a decimal Unicode character.
            </summary>
            <param name="c">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsWhitespace(System.Char)">
            <summary>
            Returns true if the Unicode character represents a whitespace.
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsNewLine(System.Char)">
            <summary>
            Returns true if the Unicode character is a newline character.
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsIdentifierStartCharacter(System.Char)">
            <summary>
            Returns true if the Unicode character can be the starting character of a C# identifier.
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsIdentifierPartCharacter(System.Char)">
            <summary>
            Returns true if the Unicode character can be a part of a C# identifier.
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsValidIdentifier(System.String)">
            <summary>
            Check that the name is a valid identifier.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.ContainsDroppedIdentifierCharacters(System.String)">
            <summary>
            Spec section 2.4.2 says that identifiers are compared without regard
            to leading "@" characters or unicode formatting characters.  As in dev10,
            this is actually accomplished by dropping such characters during parsing.
            Unfortunately, metadata names can still contain these characters and will
            not be referenceable from source if they do (lookup will fail since the
            characters will have been dropped from the search string).
            See DevDiv #14432 for more.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsFormattingChar(System.Char)">
            <summary>
            Returns true if the Unicode character is a formatting character (Unicode class Cf).
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsFormattingChar(System.Globalization.UnicodeCategory)">
            <summary>
            Returns true if the Unicode character is a formatting character (Unicode class Cf).
            </summary>
            <param name="cat">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsXmlNameStartChar(System.Char)">
            <summary>
            Determines whether this Unicode character can start a XMLName.
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.CharacterInfo.IsXmlNameChar(System.Char)">
            <summary>
            Determines if this Unicode character can be part of an XML Name.
            </summary>
            <param name="ch">The Unicode character.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.DirectiveParser.ParseErrorOrWarningDirective(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxToken,Roslyn.Compilers.CSharp.InternalSyntax.SyntaxToken,System.Boolean)">
            <summary>
            An error/warning directive tells the compiler to indicate a syntactic error/warning
            at the current location.
            
            Format: #error Error message string
            Resulting message: from the first non-whitespace character after the directive
            keyword until the end of the directive (aka EOD) at the line break or EOF.
            Resulting span: [first non-whitespace char, EOD)
            
            Examples (pipes indicate span):
            #error |foo|
            #error  |foo|
            #error |foo |
            #error |foo baz|
            #error |//foo|
            #error |/*foo*/|
            #error |/*foo|
            </summary>
            <param name="hash">The '#' token.</param>
            <param name="keyword">The 'error' or 'warning' token.</param>
            <param name="isActive">True if the error/warning should be recorded.</param>
            <returns>An ErrorDirective or WarningDirective node.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanExternAliasDirective">
            <summary>
            Returns true if the lookahead tokens compose extern alias directive.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.SkipBadListTokensWithExpectedKindHelper(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxListBuilder,System.Func{Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser,System.Boolean},System.Func{Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser,System.Boolean},Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode@)">
            <remarks>
            WARNING: it is possible that "list" is really the underlying builder of a SeparateSyntaxListBuilder,
            so it is important that we not add anything to the list.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.IsTrueIdentifier">
            <summary>
            True if current identifier token is not really some contextual keyword
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ParseStatementNoDeclaration(System.Boolean)">
            <summary>
            Parses any statement but a declaration statement. Returns null if the lookahead looks like a declaration.
            </summary>
            <remarks>
            Variable declarations in global code are parsed as field declarations so we need to fallback if we encounter a declaration statement.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.IsPossibleTypedIdentifierStart(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxToken,Roslyn.Compilers.CSharp.InternalSyntax.SyntaxToken,System.Boolean)">
            <returns>
            true if the current token can be the first token of a typed identifier (a type name followed by an identifier),
            false if it definitely can't be,
            null if we need to scan further to find out.
            </returns>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.NotType">
            <summary>
            Definitely not a type name.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.MustBeType">
            <summary>
            Definitely a type name: either a predefined type (int, string, etc.) or an array type name (ending with a bracket).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.GenericTypeOrExpression">
            <summary>
            Might be a generic (qualified) type name or an expression.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.NonGenericTypeOrExpression">
            <summary>
            Might be a non-generic (qualified) type name or an expression.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.AliasQualifiedName">
            <summary>
            A type name with alias prefix (Alias::Name)
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.NullableType">
            <summary>
            Nullable type (ending with ?).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.InternalSyntax.LanguageParser.ScanTypeFlags.PointerOrMultiplication">
            <summary>
            Might be a pointer type or a multiplication.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.ScanEndOfLine">
            <summary>
            Scans a new-line sequence (either a single new-line character or a CR-LF combo).
            </summary>
            <returns>A trivia node with the new-line text</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.ScanWhitespace">
            <summary>
            Scans all of the whitespace (not new-lines) into a trivia node until it runs out.
            </summary>
            <returns>A trivia node with the whitespace text</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlToken">
            <summary>
            Lexer entry point for LexMode.XmlDocComment
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlElementTagToken">
            <summary>
            Lexer entry point for LexMode.XmlElementTag
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlAttributeTextToken">
            <summary>
            Lexer entry point for LexMode.XmlAttributeText
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlCDataSectionTextToken">
            <summary>
            Lexer entry point for LexMode.XmlCDataSectionText
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlCommentTextToken">
            <summary>
            Lexer entry point for LexMode.XmlCommentText
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlProcessingInstructionTextToken">
            <summary>
            Lexer entry point for LexMode.XmlProcessingInstructionText
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlDocCommentLeadingTrivia(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxListBuilder@)">
            <summary>
            Collects XML doc comment exterior trivia, and therefore is a no op unless we are in the Start or Exterior of an XML doc comment.
            </summary>
            <param name="trivia">List in which to collect the trivia</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.Lexer.LexXmlWhitespaceAndNewLineTrivia(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxListBuilder@)">
            <summary>
            Collects whitespace and new line trivia for XML doc comments. Does not see XML doc comment exterior trivia, and is a no op unless we are in the interior.
            </summary>
            <param name="trivia">List in which to collect the trivia</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compiler.CompileSynthesizedMethodMetadata(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.Emit.Module,System.Threading.CancellationToken)">
            <summary>
            Traverse the symbol table and call Module.AddCompilerGeneratedDefinition for each
            synthesized explicit implementation stub that has been generated (e.g. when the real
            implementation doesn't have the appropriate custom modifiers).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compiler.BindRegularCSharpFieldInitializers(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.FieldInitializer}},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.BoundInitializer},Roslyn.Compilers.DiagnosticBag,System.Boolean,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Imports}@)">
            <summary>
            In regular C#, all field initializers are assignments to fields and the assigned expressions
            may not reference instance members.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compiler.BindScriptFieldInitializers(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.FieldInitializer}},Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CSharp.BoundInitializer},Roslyn.Compilers.DiagnosticBag,System.Boolean,Roslyn.Utilities.ConsList{Roslyn.Compilers.CSharp.Imports}@)">
            <summary>
            In script C#, some field initializers are assignments to fields and others are global
            statements.  There are no restrictions on accessing instance members.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Compiler.BindConstructorInitializer(Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.DiagnosticBag,Roslyn.Compilers.CSharp.Compilation)">
            <summary>
            Bind the (implicit or explicit) constructor initializer of a constructor symbol.
            </summary>
            <param name="constructor">Constructor method.</param>
            <param name="diagnostics">Accumulates errors (e.g. access "this" in constructor initializer).</param>
            <param name="compilation">Used to retrieve binder.</param>
            <returns>A bound expression for the constructor initializer call.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Conversions.ClassifyConversion(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source expression is convertible to the destination type via
            any conversion: implicit, explicit, user-defined or built-in.
            </summary>
            <remarks>
            It is rare but possible for a source expression to be convertible to a destination type
            by both an implicit user-defined conversion and a built-in explicit conversion.
            In that circumstance, this method classifies the conversion as the implicit conversion.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Conversions.ClassifyConversionForCast(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source expression is convertible to the destination type via
            any conversion: implicit, explicit, user-defined or built-in.
            </summary>
            <remarks>
            It is rare but possible for a source expression to be convertible to a destination type
            by both an implicit user-defined conversion and a built-in explicit conversion.
            In that circumstance, this method classifies the conversion as the built-in conversion.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Conversions.ClassifyImplicitConversion(Roslyn.Compilers.CSharp.BoundExpression,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determines if the source expression is convertible to the destination type via
            any built-in or user-defined implicit conversion.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Conversions.ResolveDelegateMethodGroup(Roslyn.Compilers.CSharp.Binder,Roslyn.Compilers.CSharp.BoundMethodGroup,Roslyn.Compilers.CSharp.MethodSymbol)">
            <summary>
            Resolve method group based on the optional delegate invoke method.
            If the invoke method is null, ignore arguments in resolution.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Conversions.GetDelegateInvokeMethodIfAvailable(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Return the Invoke method symbol if the type is a delegate
            type and the Invoke method is available, otherwise null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticFacts.IsSymbolAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.NamedTypeSymbol,Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Checks if 'symbol' is accessible from within named type 'within'.  If 'symbol' is accessed off
            of an expression then 'throughTypeOpt' is the type of that expression. This is needed to
            properly do protected access checks.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SemanticFacts.IsSymbolAccessible(Roslyn.Compilers.CSharp.Symbol,Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            Checks if 'symbol' is accessible from within assembly 'within'.  
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SynthesizedEntryPointSymbol">
            <summary>
            Represents an interactive code entry point that is inserted into the compilation if there is not an existing one. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourcePropertySymbol.sourceName">
            <summary>
            Set in constructor, might be changed while decoding <see cref="T:System.Runtime.CompilerServices.IndexerNameAttribute"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.GetEarlyDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from special early bound well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.IsAccessibilityMoreRestrictive(Roslyn.Compilers.CSharp.Accessibility,Roslyn.Compilers.CSharp.Accessibility)">
            <summary>
            Return true if the accessor accessibility is more restrictive
            than the property accessibility, otherwise false.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.CopyPropertyCustomModifiers(Roslyn.Compilers.CSharp.PropertySymbol,Roslyn.Compilers.CSharp.TypeSymbol@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.CustomModifier}@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CSharp.ParameterSymbol}@,System.Boolean)">
            <remarks>
            TODO: if this is eventually performed lazily (i.e. outside the constructor),
            as in SourceMemberMethodSymbol, then the assignments should be replaced with
            CompareExchanges.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourcePropertySymbol.MakeSynthesizedSealedAccessor">
            <remarks>
            Only non-null for sealed properties without both accessors.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourcePropertySymbol.Name">
            <remarks>
            To facilitate lookup, all indexer symbols have the same name.
            Check the MetadataName property to find the name that will be
            emitted (based on IndexerNameAttribute, or the default "Item").
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourcePropertySymbol.IsIndexer">
            <remarks>
            Even though it is declared with an IndexerDeclarationSyntax, an explicit
            interface implementation is not an indexer because it will not cause the
            containing type to be emitted with a DefaultMemberAttribute (and even if
            there is another indexer, the name of the explicit implementation won't
            match).  This is important for roundtripping.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourcePropertySymbol.SynthesizedSealedAccessorOpt">
            <summary>
            If this property is sealed, then we have to emit both accessors - regardless of whether
            they are present in the source - so that they can be marked final. (i.e. sealed).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourcePropertySymbol.ObsoleteState">
            <summary>
            True if this symbol has been marked with the Obsolete attribute. 
            This property returns Unknown if the Obsolete Attribute hasn't been cracked yet.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourcePropertySymbol.ObsoleteAttributeData">
            <summary>
            Returns data decoded from Obsolete attribute or null if there is no Obsolete attribute.
            This property returns ObsoleteAttributeData.Uninitialized if attribute arguments haven't been decoded yet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IndexedTypeParameterSymbol">
            <summary>
            Indexed type parameters are used in place of type parameters for method signatures.  There is
            a unique mapping from index to a single IndexedTypeParameterSymbol.  
            
            They don't have a containing symbol or locations.
            
            They do not have constraints, variance, or attributes. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.IndexedTypeParameterSymbol.Take(System.Int32)">
            <summary>
            Create a vector of n dummy type parameters.  Always reuses the same type parameter symbol
            for the same position.
            </summary>
            <param name="count"></param>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LocalDeclarationStatementSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxList`1">
            <summary>
             Represents a read-only list of <see cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.ToString">
            <summary>
            Returns the string representation of the nodes in this list, not including 
            the first node's leading trivia and the last node's trailing trivia.
            </summary>
            <returns>
            The string representation of the nodes in this list, not including 
            the first node's leading trivia and the last node's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.ToFullString">
            <summary>
            Returns the full string representation of the nodes in this list including 
            the first node's leading trivia and the last node's trailing trivia.
            </summary>
            <returns>
            The full string representation of the nodes in this list including 
            the first node's leading trivia and the last node's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.Add(`0[])">
            <summary>
            Add one or more nodes to the end of the list.
            </summary>
            <returns>A new list with the nodes added.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.Insert(System.Int32,`0[])">
            <summary>
            Insert one or more nodes in the list at the specified index.
            </summary>
            <returns>A new list with the nodes inserted.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.First">
            <summary>
            The first node in the list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.FirstOrDefault">
            <summary>
            The first node in the list or default if the list is empty.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.Last">
            <summary>
            The last node in the list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.LastOrDefault">
            <summary>
            The last node in the list or default if the list is empty.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.Any">
            <summary>
            True if the list has at least one node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.Any(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            True if the list has at least one node of the specified kind.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.GetEnumerator">
            <summary>
            Get's the enumerator for this list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList`1.IndexOf(`0)">
            <summary>
            The index of the node in this list, or -1 if the node is not in the list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxList`1.Count">
            <summary>
            The number of nodes in the list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxList`1.Item(System.Int32)">
            <summary>
            Gets the node at the specified index.
            </summary>
            <param name="index">The zero-based index of the node to get or set.</param>
            <returns>The node at the specified index.</returns>
            <exception cref="T:System.IndexOutOfRangeException">"&gt;<paramref name="index"/>is out of bounds.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxList.GetRedElement(Roslyn.Compilers.CSharp.SyntaxNode@,System.Int32)">
            <summary>
            This works the same as GetRedOnly, but intended to be used in lists
            The only difference is that the public parent of the node is not the list, 
            but the list's parent. (element's grand parent).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeExtensions.CanHaveAssociatedLocalBinder(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            This method is used to keep the code that generates binders in sync
            with the code that searches for binders.  We don't want the searcher
            to skip over any nodes that could have associated binders, especially
            if changes are made later.
            
            "Local binder" is a vague term that refers to binders that represent
            scopes for names (e.g. BlockBinders) rather than binders that tweak
            default behaviors (e.g. FieldInitializerBinders).  Local binders are
            created by LocalBinderFactory.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeExtensions.ExtractAnonymousTypeMemberName(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Given an initializer expression infer the name of anonymous property.
            Returns None if unsuccessfull
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxRewriter">
            <summary>
            Represents a <see cref="T:Roslyn.Compilers.CSharp.SyntaxVisitor`1"/> which descends an entire <see cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/> graph and
            may replace or remove visited SyntaxNodes in depth-first order.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTokenList">
            <summary>
             Represents a read-only list of <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>.
            </summary>
            <summary>
             Represents a read-only list of <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.ToString">
            <summary>
            Returns the string representation of the tokens in this list, not including 
            the first token's leading trivia and the last token's trailing trivia.
            </summary>
            <returns>
            The string representation of the tokens in this list, not including 
            the first token's leading trivia and the last token's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.ToFullString">
            <summary>
            Returns the full string representation of the tokens in this list including 
            the first token's leading trivia and the last token's trailing trivia.
            </summary>
            <returns>
            The full string representation of the tokens in this list including 
            the first token's leading trivia and the last token's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Add(Roslyn.Compilers.CSharp.SyntaxToken[])">
            <summary>
            Add one or more tokens to the end of the list.
            </summary>
            <returns>A new list with the tokens added.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Insert(System.Int32,Roslyn.Compilers.CSharp.SyntaxToken[])">
            <summary>
            Insert one or more tokens in the list at the specified index.
            </summary>
            <returns>A new list with the tokens inserted.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.First">
            <summary>
            Returns the first token in the list.
            </summary>
            <returns>The first token in the list.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.FirstOrDefault">
            <summary>
            Returns the first token in the list or a default token if the list is empty.
            </summary>
            <returns>default(<see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>) if source is empty; otherwise, the first token in the
            list.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Last">
            <summary>
            Returns the last token in the list.
            </summary>
            <returns> The last token in the list.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.LastOrDefault">
            <summary>
            Returns the last token in the list of a default token if the list is empty.
            </summary>
            <returns>default(<see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>) if list is empty; otherwise, the last token in the
            list.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Any">
            <summary>
            Tests whether the list is non-empty.
            </summary>
            <returns>True if the list contains any tokens.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Any(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Tests whether a list contains tokens of a particular kind.
            </summary>
            <param name="kind">The <see cref="T:Roslyn.Compilers.CSharp.SyntaxKind"/> to test for.</param>
            <returns>Returns true if the list contains a token which matches <paramref name="kind"/></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.CopyTo(System.Int32,Roslyn.Compilers.CSharp.SyntaxToken[],System.Int32,System.Int32)">
            <summary>
            Copies the elements of the <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/> to an <see cref="T:System.Array"/>.
            </summary>
            <param name="offset">The starting index in the <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/></param>
            <param name="array">The one-dimensional <see cref="T:System.Array"/> that is the destination of the elements copied
            from <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/>. The Array must have zero-based indexing.</param>
            <param name="arrayOffset">The zero-based index in <paramref name="array"/>at which copying begins.</param>
            <param name="count">The number of items to copy.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.GetGreenNodeAt(System.Int32)">
            <summary>
            get the green node at the given slot
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.GetGreenNodeAt(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode,System.Int32)">
            <summary>
            get the green node at the given slot
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Reverse">
            <summary>
            return reversed enumerable
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.GetEnumerator">
            <summary>
            Returns an enumerator for the tokens in the <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.op_Equality(Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>
            Compares <paramref name="left"/> and <paramref name="right"/> for equality.
            </summary>
            <param name="left"></param>
            <param name="right"></param>
            <returns>True if the two <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/>s are equal.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.op_Inequality(Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>
            Compares <paramref name="left"/> and <paramref name="right"/> for inequality.
            </summary>
            <param name="left"></param>
            <param name="right"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Equals(System.Object)">
            <summary>
            Compares this <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/> with the <paramref name="obj"/> for equality.
            </summary>
            <returns>True if the two objects are equal.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.GetHashCode">
            <summary>
            Serves as a hash function for the <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.op_Implicit(Roslyn.Compilers.CSharp.SyntaxToken)~Roslyn.Compilers.CSharp.SyntaxTokenList">
            <summary>
            Converts a <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/> to a <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/>
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTokenList.Count">
            <summary>
            Returns the number of tokens in the list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTokenList.Item(System.Int32)">
            <summary>
            Gets the token at the specified index.
            
            don't use this in a loop. use enumerator instead
            </summary>
            <param name="index">The zero-based index of the token to get or set.</param>
            <returns>The token at the specified index.</returns>
            <exception cref="T:System.IndexOutOfRangeException">"&gt;<paramref name="index"/>is out of bounds.</exception>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTokenList.Enumerator">
            <summary>
            A structure for enumerating the a <see cref="T:Roslyn.Compilers.CSharp.SyntaxTokenList"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTokenList.Enumerator.MoveNext">
            <summary>
            Advances the enumerator to the next token in the collection.
            </summary>
            <returns>true if the enumerator was successfully advanced to the next element; false if the enumerator
            has passed the end of the collection.</returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTokenList.Enumerator.Current">
            <summary>
            Gets the current element in the collection.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTokenList.Reversed">
            <summary>
            reversed enumerable
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTriviaList">
            <summary>
            A List of SyntaxTrivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.IndexOf(Roslyn.Compilers.CSharp.SyntaxTrivia)">
            <summary>
            Returns the index of the given SyntaxTrivia.
            </summary>
            <param name="trivia"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.ToString">
            <summary>
            Returns the string representation of the trivia in this list, not including 
            the first trivia's leading sub-trivia or the last trivia's trailing sub-trivia
            if they are structured.
            </summary>
            <returns>
            The string representation of the trivia in this list, not including 
            the first trivia's leading sub-trivia or the last trivia's trailing sub-trivia
            if they are structured.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.ToFullString">
            <summary>
            Returns the full string representation of the trivia in this list including 
            the first trivia's leading sub-trivia and the last trivia's trailing sub-trivia
            even if they are structured.
            </summary>
            <returns>
            The full string representation of the trivia in this list including 
            the first trivia's leading sub-trivia and the last trivia's trailing sub-trivia
            even if they are structured.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.First">
            <summary>
            Returns the first SyntaxTrivia in the list.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.FirstOrDefault">
            <summary>
            Returns the first SyntaxTrivia in the list or the default value of SyntaxTrivia if the list has no items.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Last">
            <summary>
            Returns the last SyntaxTrivia in the list. May throw ArgumentOutOfRange exception.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.LastOrDefault">
            <summary>
            Returns the last SyntaxTrivia in the list or the default value of SyntaxTrivia if the list has no items.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Any">
            <summary>
            Does this list have any items.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Any(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Does this list contain any item of the given kind.
            </summary>
            <param name="kind"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Reverse">
            <summary>
            return reversed enumerable
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.GetEnumerator">
            <summary>
            Get an enumerator for this list.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.CopyTo(System.Int32,Roslyn.Compilers.CSharp.SyntaxTrivia[],System.Int32,System.Int32)">
            <summary>
            Copy count number of items starting at offset from this list into array starting at arrayOffset.
            </summary>
            <param name="offset"></param>
            <param name="array"></param>
            <param name="arrayOffset"></param>
            <param name="count"></param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.GetGreenNodeAt(System.Int32)">
            <summary>
            get the green node at the specific slot
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.GetGreenNodeAt(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode,System.Int32)">
            <summary>
            get the green node at the specific slot
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Equals(Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Compares equality between this list and other list.
            </summary>
            <param name="other"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.op_Equality(Roslyn.Compilers.CSharp.SyntaxTriviaList,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Are two SyntaxTriviaLists, left and right equal.
            </summary>
            <param name="left"></param>
            <param name="right"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.op_Inequality(Roslyn.Compilers.CSharp.SyntaxTriviaList,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Are two SyntaxTriviaLists, left and right not equal.
            </summary>
            <param name="left"></param>
            <param name="right"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.op_Implicit(Roslyn.Compilers.CSharp.SyntaxTrivia)~Roslyn.Compilers.CSharp.SyntaxTriviaList">
            <summary>
            Implicitly converts SyntaxTrivia to SyntaxTriviaList.
            </summary>
            <param name="trivia"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.op_Implicit(Roslyn.Compilers.CSharp.SyntaxTriviaList)~Roslyn.Compilers.Common.CommonSyntaxTriviaList">
            <summary>
            Implicitly converts SyntaxTriviaList to CommonSyntaxTriviaList
            </summary>
            <param name="triviaList"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.op_Explicit(Roslyn.Compilers.Common.CommonSyntaxTriviaList)~Roslyn.Compilers.CSharp.SyntaxTriviaList">
            <summary>
            Explicitly converts CommonSyntaxTriviaList to SyntaxTriviaList
            </summary>
            <param name="commonTriviaList"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Equals(System.Object)">
            <summary>
            Is this list equal to the passed in object.
            </summary>
            <param name="obj"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.op_Addition(Roslyn.Compilers.CSharp.SyntaxTriviaList,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Adds two SyntaxTriviaLists, list1 and list2 into a new SyntaxTriviaList and returns it.
            </summary>
            <param name="list1"></param>
            <param name="list2"></param>
            <returns></returns>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SyntaxTriviaList.Empty">
            <summary>
            Default instance of SyntaxTriviaList.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTriviaList.Count">
            <summary>
            Count of items in the list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTriviaList.Item(System.Int32)">
            <summary>
            Returns the SyntaxTrivia at this index.
            
            don't use this in a loop. use enumerator instead
            </summary>
            <param name="index"></param>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTriviaList.ContainsDiagnostics">
            <summary>
            Does any SyntaxTrivia in this list has diagnostics.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTriviaList.Enumerator">
            <remarks>
            We could implement the enumerator using the indexer of the SyntaxTriviaList, but then
            every node's offset would be computed separately.  Since we know that we will be accessing
            the nodes in order, we can maintain a running offset value ourselves and avoid this
            overhead.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTriviaList.Enumerator.MoveNext">
            <summary>
            Move to the next item in the list.
            </summary>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTriviaList.Enumerator.Current">
            <summary>
            The SyntaxTrivia item at the current location.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTriviaList.Reversed">
            <summary>
            reversed enumerable
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConcurrentHashSet`1">
            <summary>
            A concurrent, simplified HashSet.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LookupPosition">
            <summary>
            This class contains a variety of helper methods for determining whether a
            position is within the scope (and not just the span) of a node.  In general,
            general, the scope extends from the first token up to, but not including,
            the last token.  For example, the open brace of a block is within the scope
            of the block, but the close brace is not.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupPosition.IsInBlock(System.Int32,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>
            A position is considered to be inside a block if it is on or after
            the open brace and strictly before the close brace.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupPosition.IsInStatementScope(System.Int32,Roslyn.Compilers.CSharp.StatementSyntax)">
            <remarks>
            Used to determine whether it would be appropriate to use the binder for the statement (if any).
            Not used to determine whether the position is syntactically within the statement.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupPosition.IsInCatchClauseScope(System.Int32,Roslyn.Compilers.CSharp.CatchClauseSyntax)">
            <remarks>
            Used to determine whether it would be appropriate to use the binder for the statement (if any).
            Not used to determine whether the position is syntactically within the statement.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SequenceExtensions.AtLeast``1(System.Collections.Generic.IEnumerable{``0},System.Int32,System.Int32,System.Func{``0,System.Boolean})">
            <summary>
             Takes a sequence and a predicate, and counts hits and misses. If the sequence
             has hitThreshold hits, returns true, otherwise, returns false. Gives up
             if there are missThreshold misses.
             </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeUnification.CanUnify(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            Determine whether there is any substitution of type parameters that will
            make two types identical.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeUnification.CanUnifyHelper(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.MutableTypeMap@)">
            <summary>
            Determine whether there is any substitution of type parameters that will
            make two types identical.
            </summary>
            <param name="t1">LHS</param>
            <param name="t2">RHS</param>
            <param name="substitution">
            Substitutions performed so far (or null for none).
            Keys are type parameters, values are types (possibly type parameters).
            Will be updated with new subsitutions by the callee.
            Should be ignored when false is returned.
            </param>
            <returns>True if there exists a type map such that Map(LHS) == Map(RHS).</returns>
            <remarks>
            Derived from Dev10's BSYMMGR::UnifyTypes.
            Two types will not unify if they have different custom modifiers.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.TypeUnification.Contains(Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.TypeParameterSymbol)">
            <summary>
            Return true if the given type contains the specified type parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DiagnosticsPass">
            <summary>
            This pass detects and reports diagnostics that do not affect lambda convertability.
            These are mainly warnings or early detection of diagnostics that would otherwise be noticed
            later (such as restrictions on the forms of supported expression lambdas).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceLocation">
            <summary>
            A program location in source code.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SubstitutedNestedTypeSymbol">
            <summary>
            A named type symbol that results from substituting a new owner for a type declaration.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SubstitutedNamedTypeSymbol">
            <summary>
            Either a SubstitutedNestedTypeSymbol or a ConstructedNamedTypeSymbol, which share in common that they
            have type parameters substituted.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstructedNamedTypeSymbol">
            <summary>
            A generic named type symbol that has been constructed with type arguments distinct from its own type parameters.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MergedNamespaceSymbol">
            <summary>
            A MergedNamespaceSymbol represents a namespace that merges the contents of two or more other
            namespaces. Any sub-namespaces with the same names are also merged if they have two or more
            instances.
            
            Merged namespaces are used to merged the symbols from multiple metadata modules and the
            source "module" into a single symbol tree that represents all the available symbols. The
            compiler resolves names against this merged set of symbols.
            
            Typically there will not be very many merged namespaces in a Compilation: only the root
            namespaces and namespaces that are used in multiple referenced modules. (Microsoft, System,
            System.Xml, System.Diagnostics, System.Threading, ...)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MergedNamespaceSymbol.Create(Roslyn.Compilers.CSharp.NamespaceExtent,Roslyn.Compilers.CSharp.NamespaceSymbol,System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.NamespaceSymbol},System.String)">
            <summary>
            Create a possibly merged namespace symbol. If only a single namespace is passed it, it
            is just returned directly. If two or more namespaces are passed in, then a new merged
            namespace is created with the given extent and container.
            </summary>
            <param name="extent">The namespace extent to use, IF a merged namespace is created.</param>
            <param name="containingNamespace">The containing namespace to used, IF a merged
            namespace is created.</param>
            <param name="namespacesToMerge">One or more namespaces to merged. If just one, then it
            is returned. The merged namespace symbol may hold onto the array.</param>
            <param name="nameOpt">An optional name to give the resulting namespace.</param>
            <returns>A namespace symbol representing the merged namespace.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MergedNamespaceSymbol.SlowGetChildrenOfName(System.String)">
            <summary>
            Method that is called from the CachingLookup to lookup the children of a given name.
            Looks in all the constituent namespaces.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MergedNamespaceSymbol.SlowGetChildNames">
            <summary>
            Method that is called from the CachingLookup to get all child names. Looks in all
            constituent namespaces.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol">
            <summary>
            Represents an assembly imported from a PE.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol">
            <summary>
            Represents source or metadata assembly.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.lazySpecialTypes">
            <summary>
            An array of cached Cor types defined in this assembly.
            Lazily filled by GetSpecialType method.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.cachedSpecialTypes">
            <summary>
            How many Cor types have we cached so far.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.GetDeclaredSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Lookup declaration for predefined CorLib type in this Assembly.
            </summary>
            <param name="type"></param>
            <returns></returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.RegisterDeclaredSpecialType(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Register declaration of predefined CorLib type in this Assembly.
            </summary>
            <param name="corType"></param>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.lazySpecialTypeMembers">
            <summary>
            Not yet known value is represented by ErrorTypeSymbol.UnknownResultType
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.GetDeclaredSpecialTypeMember(Roslyn.Compilers.SpecialMember)">
            <summary>
            Lookup member declaration in predefined CorLib type in this Assembly. Only valid if this 
            assembly is the Cor Library
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.MakeFinalIVTDetermination(Roslyn.Compilers.CSharp.AssemblySymbol)">
            <summary>
            Determine whether this assembly has been granted access to <paramref name="potentialGiverOfAccess"></paramref>.
            Assumes that the public key has been determined. The result will be cached.
            </summary>
            <param name="potentialGiverOfAccess"></param>
            <returns></returns>
            <remarks></remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MetadataOrSourceAssemblySymbol.KeepLookingForDeclaredSpecialTypes">
            <summary>
            Continue looking for declaration of predefined CorLib type in this Assembly
            while symbols for new type declarations are constructed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.assembly">
            <summary>
            An Assembly object providing metadata for the assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.documentationProvider">
            <summary>
            A DocumentationProvider that provides XML documentation comments for this assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.modules">
            <summary>
            The list of contained PEModuleSymbol objects.
            The list doesn't use type ReadOnlyCollection(Of PEModuleSymbol) so that we
            can return it from Modules property as is.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.noPiaResolutionAssemblies">
            <summary>
            An array of assemblies involved in canonical type resolution of
            NoPia local types defined within this assembly. In other words, all 
            references used by a compilation referencing this assembly.
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.linkedReferencedAssemblies">
            <summary>
            An array of assemblies referenced by this assembly, which are linked (/l-ed) by 
            each compilation that is using this AssemblySymbol as a reference. 
            If this AssemblySymbol is linked too, it will be in this array too.
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.isLinked">
            <summary>
            Assembly is /l-ed by compilation that is using it as a reference.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.lazyCustomAttributes">
            <summary>
            Assembly's custom attributes
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEAssemblySymbol.lazyContainsExtensionMethods">
            <summary>
            Lazily initialized by MightContainExtensionMethods property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEFieldSymbol">
            <summary>
            The class to represent all fields imported from a PE/module.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol">
            <summary>
            The base class to represent a namespace imported from a PE/module. Namespaces that differ
            only by casing in name are not merged.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol.lazyNamespaces">
            <summary>
            A map of namespaces immediately contained within this namespace 
            mapped by their name (case-sensitively).
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol.lazyTypes">
            <summary>
            A map of types immediately contained within this namespace 
            grouped by their name (case-sensitively).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol.LoadAllMembers(System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}})">
            <summary>
            Initializes namespaces and types maps with information about 
            namespaces and types immediately contained within this namespace.
            </summary>
            <param name="typesByNS">
            The sequence of groups of TypeDef row ids for types contained within the namespace, 
            recursively including those from nested namespaces. The row ids must be grouped by the 
            fully-qualified namespace name case-sensitively. There could be multiple groups 
            for each fully-qualified namespace name. The groups must be sorted by
            their key in case-sensitive manner. Empty string must be used as namespace name for types 
            immediately contained within Global namespace. Therefore, all types in this namespace, if any, 
            must be in several first IGroupings.
            </param>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol.LazyInitializeNamespaces(System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}}}})">
            <summary>
            Create symbols for nested namespaces and initialize namespaces map.
            </summary>
            <param name="childNamespaces"></param>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol.LazyInitializeTypes(System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}})">
            <summary>
            Create symbols for nested types and initialize types map.
            </summary>
            <param name="typeGroups"></param>
            <remarks></remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol.ContainingPEModule">
            <summary>
            Returns PEModuleSymbol containing the namespace.
            </summary>
            <returns>PEModuleSymbol containing the namespace.</returns>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEGlobalNamespaceSymbol.moduleSymbol">
            <summary>
            The module containing the namespace.
            </summary>
            <remarks></remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEMethodSymbol">
            <summary>
            The class to represent all methods imported from a PE/module.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PEMethodSymbol.SetAssociatedProperty(Roslyn.Compilers.CSharp.Metadata.PE.PEPropertySymbol,Roslyn.Compilers.CSharp.MethodKind)">
            <summary>
            Associate the method with a particular property. Returns
            false if the method is already associated with a property or event.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PEMethodSymbol.SetAssociatedEvent(Roslyn.Compilers.CSharp.Metadata.PE.PEEventSymbol,Roslyn.Compilers.CSharp.MethodKind)">
            <summary>
            Associate the method with a particular event. Returns
            false if the method is already associated with a property or event.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol">
            <summary>
            Represents a net-module imported from a PE. Can be a primary module of an assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.assemblySymbol">
            <summary>
            Owning AssemblySymbol. This can be a PEAssemblySymbol or a SourceAssemblySymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.module">
            <summary>
            A Module object providing metadata.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.globalNamespace">
            <summary>
            Global namespace.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.lazySystemTypeSymbol">
            <summary>
            Cache the symbol for well-known type System.Type because we use it frequently
            (for attributes).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.TypeDefRowIdToTypeMap">
            <summary>
            This is a map from TypeDef row id to the target TypeSymbol. 
            It is used by MetadataDecoder to speed-up type reference resolution
            for metadata coming from this module. The map is lazily populated
            as we load types from the module.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.TypeRefRowIdToTypeMap">
            <summary>
            This is a map from TypeRef row id to the target TypeSymbol. 
            It is used by MetadataDecoder to speed-up type reference resolution
            for metadata coming from this module. The map is lazily populated
            by MetadataDecoder as we resolve TypeRefs from the module.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.lazyCustomAttributes">
            <summary>
            Module's custom attributes
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol.lazyAssemblyAttributes">
            <summary>
            Module's assembly attributes
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PENamedTypeSymbol">
            <summary>
            The class to represent all types imported from a PE/module.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamedTypeSymbol.lazyNestedTypes">
            <summary>
            A map of types immediately contained within this type 
            grouped by their name (case-sensitively).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamedTypeSymbol.lazyMemberNames">
            <summary>
            A set of all the names of the members in this type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamedTypeSymbol.lazyMembers">
            <summary>
            A map of members immediately contained within this type 
            grouped by their name (case-sensitively).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamedTypeSymbol.lazyKind">
            <summary>
            Lazily initialized by TypeKind property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENamedTypeSymbol.lazyContainsExtensionMethods">
            <summary>
            Lazily initialized by MightContainExtensionMethods property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PENestedNamespaceSymbol">
            <summary>
            The class to represent all, but Global, namespaces imported from a PE/module.
            Namespaces that differ only by casing in name are not merged.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENestedNamespaceSymbol.containingNamespaceSymbol">
            <summary>
            The parent namespace. There is always one, Global namespace contains all
            top level namespaces. 
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENestedNamespaceSymbol.name">
            <summary>
            The name of the namespace.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Metadata.PE.PENestedNamespaceSymbol.typesByNS">
            <summary>
            The sequence of groups of TypeDef row ids for types contained within the namespace, 
            recursively including those from nested namespaces. The row ids are grouped by the 
            fully-qualified namespace name case-sensitively. There could be multiple groups 
            for each fully-qualified namespace name. The groups are sorted by their 
            key in case-sensitive manner. Empty string is used as namespace name for types 
            immediately contained within Global namespace. Therefore, all types in this namespace, if any, 
            will be in several first IGroupings.
            
            This member is initialized by constructor and is cleared in EnsureAllMembersLoaded 
            as soon as symbols for children are created.
            </summary>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PENestedNamespaceSymbol.#ctor(System.String,Roslyn.Compilers.CSharp.Metadata.PE.PENamespaceSymbol,System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}})">
            <summary>
            Constructor.
            </summary>
            <param name="name">
            Name of the namespace, must be not empty.
            </param>
            <param name="containingNamespace">
            Containing namespace.
            </param>
            <param name="typesByNS">
            The sequence of groups of TypeDef row ids for types contained within the namespace, 
            recursively including those from nested namespaces. The row ids are grouped by the 
            fully-qualified namespace name case-sensitively. There could be multiple groups 
            for each fully-qualified namespace name. The groups are sorted by their 
            key in case-sensitive manner. Empty string is used as namespace name for types 
            immediately contained within Global namespace. Therefore, all types in this namespace, if any, 
            will be in several first IGroupings.
            </param>
            <remarks></remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEParameterSymbol">
            <summary>
            The class to represent all method parameters imported from a PE/module.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Metadata.PE.PEParameterSymbol.#ctor(Roslyn.Compilers.CSharp.Metadata.PE.PEModuleSymbol,Roslyn.Compilers.CSharp.Metadata.PE.PEPropertySymbol,System.Int32,System.UInt32,Roslyn.Compilers.MetadataReader.MetadataDecoder{Roslyn.Compilers.CSharp.TypeSymbol,Roslyn.Compilers.CSharp.MethodSymbol,Roslyn.Compilers.CSharp.AssemblySymbol,Roslyn.Compilers.CSharp.Symbol}.ParamInfo)">
            <summary>
            Construct a parameter symbol for a property loaded from metadata.
            </summary>
            <param name="moduleSymbol"></param>
            <param name="containingSymbol"></param>
            <param name="ordinal"></param>
            <param name="paramRid">The property parameter doesn't have a name in metadata,
            so this is the RowID of a corresponding accessor parameter, if there is one,
            or of the ParamInfo passed in, otherwise).</param>
            <param name="parameter"></param>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PEPropertySymbol">
            <summary>
            The class to represent all properties imported from a PE/module.
            </summary>
            <remarks></remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Metadata.PE.PEPropertySymbol.Name">
            <remarks>
            To facilitate lookup, all indexer symbols have the same name.
            Check the MetadataName property to find the name we imported.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Metadata.PE.PEPropertySymbol.IsIndexer">
            <remarks>
            This property can return true for bogus indexers.
            Rationale: If a type in metadata has a single, bogus indexer
            and a source method tries to invoke it, then Dev10 reports a bogus
            indexer rather than lack of an indexer.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Metadata.PE.PEPropertySymbol.ExplicitInterfaceImplementations">
            <summary>
            Intended behavior: this property, P, explicitly implements an interface property, IP, 
            if any of the following is true:
            
            1) P.get explicitly implements IP.get and P.set explicitly implements IP.set
            2) P.get explicitly implements IP.get and there is no IP.set
            3) P.set explicitly implements IP.set and there is no IP.get
            
            Extra or missing accessors will not result in errors, P will simply not report that
            it explicitly implements IP.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Metadata.PE.PETypeParameterSymbol">
            <summary>
            The class to represent all generic type parameters imported from a PE/module.
            </summary>
            <remarks></remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol">
            <summary>
            A <see cref="T:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol"/> is a special kind of <see cref="T:Roslyn.Compilers.CSharp.ErrorTypeSymbol"/> that represents
            a type symbol that was attempted to be read from metadata, but couldn't be
            found, because:
              a) The metadata file it lives in wasn't referenced
              b) The metadata file was referenced, but didn't contain the type
              c) The metadata file was referenced, contained the correct outer type, but
                 didn't contains a nested type in that outer type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol.Arity">
            <summary>
            Get the arity of the missing type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol.TopLevel">
            <summary>
            Represents not nested missing type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol.TopLevel.lazyTypeId">
            <summary>
            CorLibTypes.TypeId
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol.TopLevel.NamespaceName">
            <summary>
            This is the FULL namespace name (e.g., "System.Collections.Generic")
            of the type that couldn't be found.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MissingMetadataTypeSymbol.Nested">
            <summary>
            Represents nested missing type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NoPiaAmbiguousCanonicalTypeSymbol">
            <summary>
            A NoPiaAmbiguousCanonicalTypeSymbol is a special kind of ErrorSymbol that represents a NoPia
            embedded type symbol that was attempted to be substituted with canonical type, but the
            canonocal type was ambiguous.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NoPiaIllegalGenericInstantiationSymbol">
            <summary>
            A NoPiaIllegalGenericInstantiationSymbol is a special kind of ErrorSymbol that represents a
            generic type instantiation that cannot cross assembly boundaries according to NoPia rules.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NoPiaMissingCanonicalTypeSymbol">
            <summary>
            A NoPiaMissingCanonicalTypeSymbol is a special kind of ErrorSymbol that represents a NoPia
            embedded type symbol that was attempted to be substituted with canonical type, but the
            canonocal type couldn't be found.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol">
            <summary>
            Essentially this is a wrapper around another AssemblySymbol that is responsible for retargeting
            symbols from one assembly to another. It can retarget symbols for multiple assemblies at the same time. 
            
            For example, compilation C1 references v1 of Lib.dll and compilation C2 references C1 and v2 of Lib.dll. 
            In this case, in context of C2, all types from v1 of Lib.dll leaking through C1 (through method 
            signatures, etc.) must be retargeted to the types from v2 of Lib.dll. This is what 
            RetargetingAssemblySymbol is responsible for. In the example above, modules in C2 do not 
            reference C1.m_AssemblySymbol, but reference a special RetargetingAssemblySymbol created for 
            C1 by AssemblyManager.
            
            Here is how retargeting is implemented in general:
            - Symbols from underlying assembly are substituted with retargeting symbols.
            - Symbols from referenced assemblies that can be reused as is (i.e. doesn't have to be retargeted) are
              used as is.
            - Symbols from referenced assemblies that must be retargeted are substituted with result of retargeting.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.underlyingAssembly">
            <summary>
            The underlying AssemblySymbol, it leaks symbols that should be retargeted.
            This cannot be an instance of RetargetingAssemblySymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.modules">
            <summary>
            The list of contained ModuleSymbol objects. First item in the list
            is RetargetingModuleSymbol that wraps corresponding SourceModuleSymbol 
            from underlyingAssembly.Modules list, the rest are PEModuleSymbols for 
            added modules.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.noPiaResolutionAssemblies">
            <summary>
            An array of assemblies involved in canonical type resolution of
            NoPia local types defined within this assembly. In other words, all 
            references used by a compilation referencing this assembly.
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.linkedReferencedAssemblies">
            <summary>
            An array of assemblies referenced by this assembly, which are linked (/l-ed) by 
            each compilation that is using this AssemblySymbol as a reference. 
            If this AssemblySymbol is linked too, it will be in this array too.
            The array and its content is provided by AssemblyManager and must not be modified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.NoPiaUnificationMap">
            <summary>
            A map from a local NoPia type to corresponding canonical type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.isLinked">
            <summary>
            Assembly is /l-ed by compilation that is using it as a reference.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.#ctor(Roslyn.Compilers.CSharp.SourceAssemblySymbol,System.Boolean)">
            <summary>
            Constructor.
            </summary>
            <param name="underlyingAssembly">
            The underlying AssemblySymbol, cannot be an instance of RetargetingAssemblySymbol.
            </param>
            <param name="isLinked">
            Assembly is /l-ed by compilation that is using it as a reference.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.GetDeclaredSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Lookup declaration for FX type in this Assembly.
            </summary>
            <param name="type"></param>
            <returns></returns>
            <remarks></remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.Retargeting.RetargetingAssemblySymbol.UnderlyingAssembly">
            <summary>
            The underlying AssemblySymbol.
            This cannot be an instance of RetargetingAssemblySymbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingFieldSymbol">
            <summary>
            Represents a field in a RetargetingModuleSymbol. Essentially this is a wrapper around 
            another FieldSymbol that is responsible for retargeting symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingFieldSymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingFieldSymbol.underlyingField">
            <summary>
            The underlying FieldSymbol, cannot be another RetargetingFieldSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingFieldSymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingMethodSymbol">
            <summary>
            Represents a method in a RetargetingModuleSymbol. Essentially this is a wrapper around 
            another MethodSymbol that is responsible for retargeting symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingMethodSymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingMethodSymbol.underlyingMethod">
            <summary>
            The underlying MethodSymbol, cannot be another RetargetingMethodSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingMethodSymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingMethodSymbol.lazyReturnTypeCustomAttributes">
            <summary>
            Retargeted return type custom attributes
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingNamedTypeSymbol">
            <summary>
            Represents a type of a RetargetingModuleSymbol. Essentially this is a wrapper around 
            another NamedTypeSymbol that is responsible for retargeting referenced symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingNamedTypeSymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingNamedTypeSymbol.underlyingType">
            <summary>
            The underlying NamedTypeSymbol, cannot be another RetargetingNamedTypeSymbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingNamespaceSymbol">
            <summary>
            Represents a namespace of a RetargetingModuleSymbol. Essentially this is a wrapper around 
            another NamespaceSymbol that is responsible for retargeting symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingNamespaceSymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingNamespaceSymbol.underlyingNamespace">
            <summary>
            The underlying NamespaceSymbol, cannot be another RetargetingNamespaceSymbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingParameterSymbol">
            <summary>
            Represents a parameter of a RetargetingMethodSymbol. Essentially this is a wrapper around 
            another ParameterSymbol that is responsible for retargeting symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingParameterSymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingMethodParameterSymbol.retargetingMethod">
            <summary>
            Owning RetargetingMethodSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingPropertyParameterSymbol.retargetingProperty">
            <summary>
            Owning RetargetingPropertySymbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Retargeting.RetargetingTypeParameterSymbol">
            <summary>
            Represents a type parameter in a RetargetingModuleSymbol. Essentially this is a wrapper around 
            another TypeParameterSymbol that is responsible for retargeting symbols from one assembly to another. 
            It can retarget symbols for multiple assemblies at the same time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingTypeParameterSymbol.retargetingModule">
            <summary>
            Owning RetargetingModuleSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingTypeParameterSymbol.underlyingTypeParameter">
            <summary>
            The underlying TypeParameterSymbol, cannot be another RetargetingTypeParameterSymbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Retargeting.RetargetingTypeParameterSymbol.lazyCustomAttributes">
            <summary>
            Retargeted custom attributes
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BaseTypeAnalysis.IsManagedType(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            IsManagedType is simple for most named types:
                enums are not managed;
                non-enum, non-struct named types are managed;
                generic types and their nested types are managed;
                type parameters are managed;
                all special types have spec'd values (basically, (non-string) primitives) are not managed;
            
            Only structs are complicated, because the definition is recursive.  A struct type is managed
            if one of its instance fields is managed.  Unfortunately, this can result in infinite recursion.
            If the closure is finite, and we don't find anything definitely managed, then we return true.
            If the closure is infinite, we disregard all but a representative of any expanding cycle.
            
            Intuitively, this will only return true if there's a specific type we can point to that is would
            be managed even if it had no fields.  e.g. struct S { S s; } is not managed, but struct S { S s; object o; }
            is because we can point to object.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.BaseTypeAnalysis.IsManagedTypeHelper(Roslyn.Compilers.CSharp.NamedTypeSymbol)">
            <summary>
            Returns a boolean value if we can determine whether the type is managed
            without looking at its fields and Unset otherwise.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExtendedErrorTypeSymbol">
            <summary>
            An error type, used to represent the type of a type binding
            operation when binding fails.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ExtendedErrorTypeSymbol.ExtractNonErrorType(Roslyn.Compilers.CSharp.TypeSymbol)">
            <summary>
            If (we believe) we know which symbol the user intended, then we should retain that information
            in the corresponding error symbol - it can be useful for deciding how to handle the error.
            For example, we might want to know whether (we believe) the error type was supposed to be an
            interface, so that we can put it in a derived type's interface list, rather than in the base
            type slot.
            
            Sometimes we will return the original definition of the intended symbol.  For example, if we see 
            <![CDATA[IFoo<int>]]> and we have an IFoo with a different arity or accessibility 
            (e.g. <![CDATA[IFoo<int>]]> was constructed from an error symbol based on <![CDATA[IFoo<T>]]>), 
            then we'll return <![CDATA[IFoo<T>]]>, rather than trying to construct a corresponding closed
            type (which may not be difficult/possible in the case of nested types or mismatched arities).
            
            NOTE: Any non-null type symbol returned is guaranteed not to be an error type.
            </summary>
            <remarks>
            TypeSymbolExtensions.GetNonErrorGuess is a more discoverable version of this functionality.
            However, the real definition is in this class so that it can access the private field 
            nonErrorGuessType.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LookupFilter">
            <summary>
            represents one-to-one symbol -> SingleLookupResult filter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LookupResult">
            <summary>
            A LookupResult summarizes the result of a name lookup within a scope It also allows
            combining name lookups from different scopes in an easy way.
            
            A LookupResult can be ONE OF:
               empty - nothing found.
               a viable result - this kind of result prevents lookup into further scopes of lower priority.
                                 Viable results should be without error; ambiguity is handled in the caller.
                                 (Note that handling multiple "viable" results is not the same as in the VB compiler)
               a non-accessible result - this kind of result means that search continues into further scopes of lower priority for
                                 a viable result. An error is attached with the inaccessibility errors. Non-accessible results take priority over
                                 non-viable results.
               a non-viable result - a result that means that the search continues into further scopes of lower priority for
                                     a viable or non-accessible result. An error is attached with the error that indicates
                                     why the result is non-viable.  A typical readon would be that it is the wrong kind of symbol.
            
            Note that the class is poolable so its instances can be obtained from a pool vai GetInstance.
            Also it is a good idea to call Free on instances after they no longer needed.
            
            The typical pattern is "caller allocates / caller frees" -
               
               var result = LookupResult.GetInstance();
             
               scope.Lookup(result, "foo");
               ... use result ...
                    
               result.Clear();
               anotherScope.Lookup(result, "moo");
               ... use result ...
            
               result.Free();   //result and its content is invalid after this
               
            
            
            </summary>
            <remarks>
            Currently LookupResult is intended only for name lookup, not for overload resolution. It is
            not clear if overload resolution will work with the structure as is, require enhancements,
            or be best served by an alternate mechanism.
            
            We might want to extend this to a more general priority scheme.
            
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupResult.SetFrom(Roslyn.Compilers.CSharp.SingleLookupResult)">
            <summary>
            Set current result according to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.LookupResult.SetFrom(Roslyn.Compilers.CSharp.LookupResult)">
            <summary>
            Set current result according to another.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LookupResult.SingleSymbolOrDefault">
            <summary>
            Return the single symbol if there is exactly one, otherwise null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LookupResult.IsMultiViable">
            <summary>
            Is the result viable with one or more symbols?
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LookupResult.IsSingleViable">
            <summary>
            NOTE: Even there is a single viable symbol, it may be an error type symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceAssemblySymbol">
            <summary>
            Represents an assembly built by compiler.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.compilation">
            <summary>
            A Compilation the assembly is created for.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.lazyAssemblyIdentity">
            <summary>
            Assembly's identity.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.modules">
            <summary>
            A list of modules the assembly consists of. 
            The first (index=0) module is a SourceModuleSymbol, which is a primary module, the rest are net-modules.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.lazyCustomAttributesBag">
            <summary>
            Bag of assembly's custom attributes and decoded well-known attribute data.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.lazyNetModuleAttributesBag">
            <summary>
            Bag of assembly's custom attributes and decoded well-known attribute data from added netmodules.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.UnassignedFieldsMap">
            <summary>
            Map for storing effectively private or effectively internal fields declared in this assembly but never initialized nor assigned.
            Each {symbol, bool} key-value pair in this map indicates the following:
             (a) Key: Unassigned field symbol.
             (b) Value: True if the unassigned field is effectively internal, false otherwise.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.UnreadFields">
            <summary>
            private fields declared in this assembly but never read
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.TypesReferencedInExternalMethods">
            <summary>
            We imitate the native compiler's policy of not warning about unused fields
            when the enclosing type is used by an extern method for a ref argument.
            Here we keep track of those types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.FirstInCycleConstants">
            <summary>
            Constants declared in this assembly that are lexically first in a minimal cycle.
            </summary>
            <remarks>
            There are two reasons to store this on the assembly, rather than the field:
            
            1) Most fields will not be first-in-cycle constants, so having a flag on each one
            would be wasteful.
            
            2) An individual field may not know that it is a first-in-cycle constant until 
            some other field that depends on it is evaluated (e.g. if it is not first in one
            cycl but is first in another an the former is found first, then the field will
            be "complete" before the second cycle is found.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceAssemblySymbol.unusedFieldWarnings">
            <summary>
            The warnings for unused fields.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.ReportDiagnosticsForSynthesizedAttributes(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            We're going to synthesize some well-known attributes for this assembly symbol.  However, at synthesis time, it is
            too late to report diagnostics or cancel the emit.  Instead, we check for use site errors on the types and members
            we know we'll need at synthesis time.
            </summary>
            <remarks>
            As in Dev10, we won't report anything if the attribute TYPES are missing (note: missing, not erroneous) because we won't
            synthesize anything in that case.  We'll only report diagnostics if the attribute TYPES are present and either they or 
            the attribute CONSTRUCTORS have errors.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.ReportDiagnosticsForUnsafeSynthesizedAttributes(Roslyn.Compilers.CSharp.Compilation,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            If this compilation allows unsafe code (note: allows, not contains), then when we actually emit the assembly/module, 
            we're going to synthesize SecurityPermissionAttribute/UnverifiableCodeAttribute.  However, at synthesis time, it is
            too late to report diagnostics or cancel the emit.  Instead, we check for use site errors on the types and members
            we know we'll need at synthesis time.
            </summary>
            <remarks>
            As in Dev10, we won't report anything if the attribute TYPES are missing (note: missing, not erroneous) because we won't
            synthesize anything in that case.  We'll only report diagnostics if the attribute TYPES are present and either they or 
            the attribute CONSTRUCTORS have errors.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceAssemblySymbol.ContainsExtensionMethods">
            <summary>
            Returns true if and only if at least one type within the assembly contains
            extension methods. Note, this method is expensive since it potentially
            inspects all types within the assembly. The expectation is that this method is
            only called at emit time, when all types have been or will be traversed anyway.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceAssemblySymbol.Compilation">
            <summary>
            A Compilation the assembly is created for.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceAssemblySymbol.Flags">
            <summary>
            This represents what the user claimed in source through the AssemblyFlagsAttribute.
            It may be modified as emitted due to presence or absence of the public key.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceAssemblySymbol.InternalsAreVisible">
            <summary>
            True if internals are exposed at all.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            This property shouldn't be accessed during binding as it can lead to attribute binding cycle.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceAssemblySymbol.UnusedFieldWarnings">
            <summary>
            Get the warnings for unused fields.  This should only be fetched when all method bodies have been compiled.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceModuleSymbol">
            <summary>
            Represents the primary module of an assembly being built by compiler.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceModuleSymbol.assemblySymbol">
            <summary>
            Owning assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceModuleSymbol.sources">
            <summary>
            The declarations corresponding to the source files of this module.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceModuleSymbol.lazyCustomAttributesBag">
            <summary>
            Module's custom attributes 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SourceModuleSymbol.name">
            <summary>
            The name (contains extension)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceModuleSymbol.GetAttributesBag">
            <summary>
            Returns a bag of applied custom attributes and data decoded from well-known attributes. Returns null if there are no attributes applied on the symbol.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceModuleSymbol.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourceModuleSymbol.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceModuleSymbol.GetDecodedWellKnownAttributeData">
            <summary>
            Returns data decoded from well-known attributes applied to the symbol or null if there are no applied attributes.
            </summary>
            <remarks>
            Forces binding and decoding of attributes.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceTypeParameterSymbolBase.GetAttributes">
            <summary>
            Gets the attributes applied on this symbol.
            Returns an empty array if there are no attributes.
            </summary>
            <remarks>
            NOTE: This method should always be kept as a sealed override.
            If you want to override attribute binding logic for a sub-class, then override <see cref="M:Roslyn.Compilers.CSharp.SourceTypeParameterSymbolBase.GetAttributesBag"/> method.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SourceTypeParameterSymbolBase.CheckConstraintTypeConstraints(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Check constraints of generic types referenced in constraint types. For instance,
            with "interface I&lt;T&gt; where T : I&lt;T&gt; {}", check T satisfies constraints
            on I&lt;T&gt;. Those constraints are not checked when binding ConstraintTypes
            since ConstraintTypes has not been set on I&lt;T&gt; at that point.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OverriddenMethodTypeParameterMapBase">
            <summary>
            A map shared by all type parameters for an overriding method or a method
            that explicitly implements an interface. The map caches the overridden method
            and a type map from overridden type parameters to overriding type parameters.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SourceOverriddenMethodTypeParameterSymbol">
            <summary>
            A type parameter for a method that either overrides a base
            type method or explicitly implements an interface method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SourceOverriddenMethodTypeParameterSymbol.OverriddenTypeParameter">
            <summary>
            The type parameter to use for determining constraints. If there is a base
            method that the owner method is overriding, the corresponding type
            parameter on that method is used. Otherwise, the result is null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeMap">
            <summary>
            Utility class for substituting actual type arguments for formal generic type parameters.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ChildSyntaxList">
            <summary>
            A list of child SyntaxNodeOrToken structs.
            </summary>
            <summary>
            A list of child SyntaxNodeOrToken structs.
            </summary>
            <summary>
            A list of child SyntaxNodeOrToken structs.
            </summary>
            <summary>
            A list of child SyntaxNodeOrToken structs.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ChildSyntaxList.node">
            <summary>
            The underlying syntax node
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ChildSyntaxList.count">
            <summary>
            The count of elements in this list
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.#ctor(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.ChildSyntaxList"/> struct.
            </summary>
            <param name="node">The underlying syntax node.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.CountNodes(Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode)">
            <summary>
            Counts the nodes.
            </summary>
            <param name="green">The green.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.ItemInternal(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            internal indexer that does not verify index.
            Used when caller has already ensured that index is within bounds.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reverse">
            <summary>
            Returns the reversed list.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.GetEnumerator">
            <summary>
            Gets an enumerator that iterates through the collection.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.System#Collections#Generic#IEnumerable{Roslyn#Compilers#CSharp#SyntaxNodeOrToken}#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerator`1"/> that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.System#Collections#IEnumerable#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through a collection.
            </summary>
            <returns>
            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.Count">
            <summary>
            Gets the count of elements in this list
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.Node">
            <summary>
            Gets the underlying node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.Item(System.Int32)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.CSharp.SyntaxNodeOrToken"/> at the specified index.
            </summary>
            
            <exception cref="T:System.IndexOutOfRangeException">If <paramref name="index"/> is out of range</exception>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ChildSyntaxList.Enumerator">
            <summary>
            An enumerator for the ChildSyntaxList
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Enumerator.#ctor(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.ChildSyntaxList.Enumerator"/> struct.
            </summary>
            <param name="node">The underlying syntax node.</param>
            <param name="count">The count of elements.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Enumerator.MoveNext">
            <summary>
            Moves the next.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Enumerator.Reset">
            <summary>
            Resets this instance.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.Enumerator.Current">
            <summary>
            Gets the element this enumerator instance is pointing to.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl.#ctor(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl"/> class.
            </summary>
            <param name="node">The underlying syntax node.</param>
            <param name="count">The count of elements.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl.MoveNext">
            <summary>
            Advances the enumerator to the next element of the collection.
            </summary>
            <returns>
            true if the enumerator was successfully advanced to the next element; false if the enumerator has passed the end of the collection.
            </returns>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl.Reset">
            <summary>
            Sets the enumerator to its initial position, which is before the first element in the collection.
            </summary>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl.Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl.Current">
            <summary>
            Gets the element in the collection at the current position of the enumerator.
            </summary>
            <returns>
            The element in the collection at the current position of the enumerator.
              </returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.EnumeratorImpl.System#Collections#IEnumerator#Current">
            <summary>
            Gets the element in the collection at the current position of the enumerator.
            </summary>
            <returns>
            The element in the collection at the current position of the enumerator.
              </returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed">
            <summary>
            A reversed list of child SyntaxNodeOrToken structs.
            </summary>
            <summary>
            A reversed list of child SyntaxNodeOrToken structs.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.node">
            <summary>
            The underlying syntax node
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.count">
            <summary>
            The count of elements in this list
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.#ctor(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed"/> struct.
            </summary>
            <param name="node">The underlying syntax node.</param>
            <param name="count">The count of elements in this list.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.System#Collections#Generic#IEnumerable{Roslyn#Compilers#CSharp#SyntaxNodeOrToken}#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerator`1"/> that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.System#Collections#IEnumerable#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through a collection.
            </summary>
            <returns>
            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator">
            <summary>
            Enumerator or the Reversed list 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator.#ctor(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator"/> struct.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator.MoveNext">
            <summary>
            Advances the enumerator to the next element of the collection.
            </summary>
            <returns>
            true if the enumerator was successfully advanced to the next element; false if the enumerator has passed the end of the collection.
            </returns>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator.System#Collections#IEnumerator#Reset">
            <summary>
            Sets the enumerator to its initial position, which is before the first element in the collection.
            </summary>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator.System#IDisposable#Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator.Current">
            <summary>
            Gets the element the enumerator instance is currently pointing to.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ChildSyntaxList.Reversed.Enumerator.System#Collections#IEnumerator#Current">
            <summary>
            Gets the element the enumerator instance is currently pointing to.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax">
            <summary>Delegate declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.DelegateKeyword">
            <summary>Gets the "delegate" keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.ReturnType">
            <summary>Gets the return type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.ParameterList">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.ConstraintClauses">
            <summary>Gets the constraint clause list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DelegateDeclarationSyntax.SemicolonToken">
            <summary>Gets the semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.StructuredTriviaSyntax">
            <summary>
            It's a non terminal Trivia SyntaxNode that has a tree underneath it.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.StructuredTriviaSyntax.Roslyn#Compilers#Common#IStructuredTriviaSyntax#ParentTrivia">
            <summary>
            Get parent trivia.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxWalker">
            <summary>
            Represents a <see cref="T:Roslyn.Compilers.CSharp.SyntaxVisitor"/> that descends an entire <see cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/> graph
            visiting each SyntaxNode and its child SyntaxNodes and <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>s in depth-first order.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.GenericNameSyntax">
            <summary>Class which represents the syntax node for generic name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.GenericNameSyntax.Identifier">
            <summary>SyntaxToken representing the name of the identifier of the generic name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.GenericNameSyntax.TypeArgumentList">
            <summary>TypeArgumentListSyntax node representing the list of type arguments of the generic name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SeparatedSyntaxListBuilder`1.UnderlyingBuilder">
            <summary>
            WARN WARN WARN: This should be used with extreme caution - the underlying builder does
            not give any indication that it is from a separated syntax list but the constraints
            (node, token, node, token, ...) should still be maintained.
            </summary>
            <remarks>
            In order to avoid creating a separate pool of SeparatedSyntaxListBuilders, we expose
            our underlying SyntaxListBuilder to SyntaxListPool.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.IdentifierNameSyntax">
            <summary>Class which represents the syntax node for identifier name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.SimpleNameSyntax">
            <summary>Provides the base class from which the classes that represent simple name syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.NameSyntax">
            <summary>Provides the base class from which the classes that represent name syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeSyntax">
            <summary>Provides the base class from which the classes that represent type syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ExpressionSyntax">
            <summary>Provides the base class from which the classes that represent expression syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SimpleNameSyntax.Identifier">
            <summary>SyntaxToken representing the identifier of the simple name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IdentifierNameSyntax.Identifier">
            <summary>SyntaxToken representing the keyword for the kind of the identifier name.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.InternalSyntax.SeparatedSyntaxList`1.GetSeparator(System.Int32)">
            <summary>
            Gets the separator at the given index in this list.
            </summary>
            <param name="index">The index.</param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CSharpLineDirectiveMap">
            <summary>
            Adds C# specific parts to the line directive map.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MethodDeclarationSyntax">
            <summary>Method declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodDeclarationSyntax.ReturnType">
            <summary>Gets the return type syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodDeclarationSyntax.ConstraintClauses">
            <summary>Gets the constraint clause list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MethodDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.Syntax">
            <summary>
            A class containing factory methods for constructing syntax nodes, tokens and trivia.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.CarriageReturnLineFeed">
            <summary>
            A trivia with kind EndOfLineTrivia containing both the carriage return and line feed
            characters.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.LineFeed">
            <summary>
            A trivia with kind EndOfLineTrivia containing a single line feed character.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.CarriageReturn">
            <summary>
            A trivia with kind EndOfLineTrivia containing a single carriage return character.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.Space">
            <summary>
             A trivia with kind WhitespaceTrivia containing a single space character.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.Tab">
            <summary>
            A trivia with kind WhitespaceTrivia containing a single tab character.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.ElasticCarriageReturnLineFeed">
            <summary>
            An elastic trivia with kind EndOfLineTrivia containing both the carriage return and line feed characters.
            Elastic trivia are used to denote trivia that was not produced by parsing source text, and are usually not
            preserved during formatting.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.ElasticLineFeed">
            <summary>
            An elastic trivia with kind EndOfLineTrivia containing a single line feed character. Elastic trivia are used
            to denote trivia that was not produced by parsing source text, and are usually not preserved during
            formatting.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.ElasticCarriageReturn">
            <summary>
            An elastic trivia with kind EndOfLineTrivia containing a single carriage return character. Elastic trivia
            are used to denote trivia that was not produced by parsing source text, and are usually not preserved during
            formatting.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.ElasticSpace">
            <summary>
            An elastic trivia with kind WhitespaceTrivia containing a single space character. Elastic trivia are used to
            denote trivia that was not produced by parsing source text, and are usually not preserved during formatting.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.ElasticTab">
            <summary>
            An elastic trivia with kind WhitespaceTrivia containing a single tab character. Elastic trivia are used to
            denote trivia that was not produced by parsing source text, and are usually not preserved during formatting.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.Syntax.ElasticMarker">
            <summary>
            An elastic trivia with kind WhitespaceTrivia containing no characters. Elastic marker trivia are included
            automatically by factory methods when trivia is not specified. Syntax formatting will replace elastic
            markers with appropriate trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EndOfLine(System.String,System.Boolean)">
            <summary>
            Creates a trivia with kind EndOfLineTrivia containing the specified text. 
            </summary>
            <param name="text">The text of the trivia. Any text can be specified here, however only carriage return and
            line feed characters are recognized by the parser as end of line.</param>
            <param name="elastic">If true, the trivia produced is an elastic trivia. Elastic trivia are used to denote
            trivia that was not produced by parsing source text, and are usually not preserved during
            formatting.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Whitespace(System.String,System.Boolean)">
            <summary>
            Creates a trivia with kind WhitespaceTrivia containing the specified text.
            </summary>
            <param name="text">The text of the whitespace. Any text can be specified here, however only specific
            whitespace characters are recognized by the parser.</param>
            <param name="elastic">If true, the trivia produced is an elastic trivia. Elastic trivia are used to denote
            trivia that was not produced by parsing source text, and are usually not preserved during
            formatting.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Comment(System.String)">
            <summary>
            Creates a trivia with kind either SingleLineCommentTrivia or MultiLineCommentTrivia containing the specified
            text.
            </summary>
            <param name="text">The entire text of the comment including the leading '//' token for single line comments
            or stop or start tokens for multiline comments.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DisabledText(System.String)">
            <summary>
            Creates a trivia with kind DisabledTextTrivia. Disabled text corresponds to any text between directives that
            is not considered active.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PreprocessingMessage(System.String)">
            <summary>
            Creates a trivia with kind PreprocessingMessageTrivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SyntaxTrivia(Roslyn.Compilers.CSharp.SyntaxKind,System.String)">
            <summary>
            Trivia nodes represents parts of the program text that are not parts of the
            syntactic grammar, such as spaces, newlines, comments, preprocessors
            directives, and disabled code.
            </summary>
            <param name="kind">
            A <cref c="SyntaxKind"/> representing the specific kind of SyntaxTrivia. One of
            WhitespaceTrivia, EndOfLineTrivia, CommentTrivia,
            DocumentationCommentExteriorTrivia, DisabledTextTrivia.
            </param>
            <param name="text">
            The actual text of this token.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Token(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Creates a token corresponding to a syntax kind. This method can be used for token syntax kinds whose text
            can be inferred by the kind alone.
            </summary>
            <param name="kind">A syntax kind value for a token. These have the suffix Token or Keyword.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Token(Roslyn.Compilers.CSharp.SyntaxTriviaList,Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Creates a token corresponding to syntax kind. This method can be used for token syntax kinds whose text can
            be inferred by the kind alone.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="kind">A syntax kind value for a token. These have the suffix Token or Keyword.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Token(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token corresponding to syntax kind. This method can be used for token syntax kinds whose text can
            be inferred by the kind alone.
            </summary>
            <param name="kind">A syntax kind value for a token. These have the suffix Token or Keyword.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Token(Roslyn.Compilers.CSharp.SyntaxTriviaList,Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token corresponding to syntax kind. This method can be used for token syntax kinds whose text can
            be inferred by the kind alone.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="kind">A syntax kind value for a token. These have the suffix Token or Keyword.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MissingToken(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Creates a missing token corresponding to syntax kind. A missing token is produced by the parser when an
            expected token is not found. A missing token has no text and normally has associated diagnostics.
            </summary>
            <param name="kind">A syntax kind value for a token. These have the suffix Token or Keyword.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MissingToken(Roslyn.Compilers.CSharp.SyntaxTriviaList,Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a missing token corresponding to syntax kind. A missing token is produced by the parser when an
            expected token is not found. A missing token has no text and normally has associated diagnostics.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="kind">A syntax kind value for a token. These have the suffix Token or Keyword.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Identifier(System.String)">
            <summary>
            Creates a token with kind IdentiferToken containing the specified text.
            <param name="text">The raw text of the identifier name, including any escapes or leading '@'
            character.</param>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Identifier(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind IdentiferToken containing the specified text.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the identifier name, including any escapes or leading '@'
            character.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Identifier(System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind IdentiferToken containing the specified text.
            </summary>
            <param name="text">The raw text of the identifier name, including any escapes or leading '@'
            character.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Identifier(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind IdentiferToken containing the specified text.
            </summary>
            <param name="contextualKind">An alternative SyntaxKind that can be inferred for this token in special
            contexts. These are usually keywords.</param>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the identifier name, including any escapes or leading '@'
            character.</param>
            <param name="valueText">The text of the identifier name without escapes or leading '@' character.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.Int32)">
            <summary>
            Creates a token with kind NumericLiteralToken from a 4-byte signed integer value.
            </summary>
            <param name="value">The 4-byte signed integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.Int32)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 4-byte signed integer value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 4-byte signed integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Int32,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 4-byte signed integer value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 4-byte signed integer value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.UInt32)">
            <summary>
            Creates a token with kind NumericLiteralToken from a 4-byte unsigned integer value.
            </summary>
            <param name="value">The 4-byte unsigned integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.UInt32)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 4-byte unsigned integer value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 4-byte unsigned integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.UInt32,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteraToken from the text and corresponding 4-byte unsigned integer value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 4-byte unsigned integer value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.Int64)">
            <summary>
            Creates a token with kind NumericLiteralToken from an 8-byte signed integer value.
            </summary>
            <param name="value">The 8-byte signed integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.Int64)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 8-byte signed integer value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 8-byte signed integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Int64,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 8-byte signed integer value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 8-byte signed integer value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.UInt64)">
            <summary>
            Creates a token with kind NumericLiteralToken from an 8-byte unsigned integer value.
            </summary>
            <param name="value">The 8-byte unsigned integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.UInt64)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 8-byte unsigned integer value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 8-byte unsigned integer value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.UInt64,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 8-byte unsigned integer value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 8-byte unsigned integer value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.Single)">
            <summary>
            Creates a token with kind NumericLiteralToken from a 4-byte floating point value.
            </summary>
            <param name="value">The 4-byte floating point value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.Single)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 4-byte floating point value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 4-byte floating point value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Single,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 4-byte floating point value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 4-byte floating point value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.Double)">
            <summary>
            Creates a token with kind NumericLiteralToken from an 8-byte floating point value.
            </summary>
            <param name="value">The 8-byte floating point value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.Double)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 8-byte floating point value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 8-byte floating point value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Double,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding 8-byte floating point value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The 8-byte floating point value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.Decimal)">
            <summary>
            Creates a token with kind NumericLiteralToken from a decimal value.
            </summary>
            <param name="value">The decimal value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.Decimal)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding decimal value.
            </summary>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The decimal value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Decimal,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind NumericLiteralToken from the text and corresponding decimal value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The decimal value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String)">
            <summary>
            Creates a token with kind StringLiteralToken from a string value.
            </summary>
            <param name="value">The string value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.String)">
            <summary>
            Creates a token with kind StringLiteralToken from the text and corresponding string value.
            </summary>
            <param name="text">The raw text of the literal, including quotes and escape sequences.</param>
            <param name="value">The string value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind StringLiteralToken from the text and corresponding string value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal, including quotes and escape sequences.</param>
            <param name="value">The string value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.Char)">
            <summary>
            Creates a token with kind CharacterLiteralToken from a character value.
            </summary>
            <param name="value">The character value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(System.String,System.Char)">
            <summary>
            Creates a token with kind CharacterLiteralToken from the text and corresponding character value.
            </summary>
            <param name="text">The raw text of the literal, including quotes and escape sequences.</param>
            <param name="value">The character value to be represented by the returned token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Literal(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.Char,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind CharacterLiteralToken from the text and corresponding character value.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal, including quotes and escape sequences.</param>
            <param name="value">The character value to be represented by the returned token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BadToken(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind BadToken.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the bad token.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlTextLiteral(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind XmlTextLiteralToken.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The xml text value.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlTextNewLine(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind XmlTextLiteralNewLineToken.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The xml text new line value.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlEntity(Roslyn.Compilers.CSharp.SyntaxTriviaList,System.String,System.String,Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Creates a token with kind XmlEntityLiteralToken.
            </summary>
            <param name="leading">A list of trivia immediately preceding the token.</param>
            <param name="text">The raw text of the literal.</param>
            <param name="value">The xml entity value.</param>
            <param name="trailing">A list of trivia immediately following the token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DocumentationCommentExterior(System.String)">
            <summary>
            Creates a trivia with kind DocumentationCommentExteriorTrivia.
            </summary>
            <param name="text">The raw text of the literal.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.List``1">
            <summary>
            Creates an empty list of syntax nodes.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.List``1(``0)">
            <summary>
            Creates a singleton list of syntax nodes.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="node">The single element node.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.List``1(``0[])">
            <summary>
            Creates a list of syntax nodes.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="nodes">An array of element nodes.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.List``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Creates a list of syntax nodes.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="nodes">A sequence of element nodes.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TokenList">
            <summary>
            Creates an empty list of tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TokenList(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Creates a singleton list of tokens.
            </summary>
            <param name="token">The single token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TokenList(Roslyn.Compilers.CSharp.SyntaxToken[])">
            <summary>
            Creates a list of tokens.
            </summary>
            <param name="tokens">An array of tokens.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TokenList(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxToken})">
            <summary>
            Creates a list of tokens.
            </summary>
            <param name="tokens"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Trivia(Roslyn.Compilers.CSharp.StructuredTriviaSyntax)">
            <summary>
            Creates a trivia from a StructuredTriviaSyntax node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TriviaList">
            <summary>
            Creates an empty list of trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TriviaList(Roslyn.Compilers.CSharp.SyntaxTrivia)">
            <summary>
            Creates a singleton list of trivia.
            </summary>
            <param name="trivia">A single trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TriviaList(Roslyn.Compilers.CSharp.SyntaxTrivia[])">
            <summary>
            Creates a list of trivia.
            </summary>
            <param name="trivias">An array of trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TriviaList(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxTrivia})">
            <summary>
            Create a list of trivia.
            </summary>
            <param name="trivias">A sequence of trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SeparatedList``1">
            <summary>
            Create an empty separated list.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SeparatedList``1(``0)">
            <summary>
            Create a singleton separated list.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="node">A single node.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SeparatedList``1(Roslyn.Compilers.CSharp.SyntaxNodeOrToken[])">
            <summary>
            Create a singleton separated list from a sequence of nodes or tokens, alternating between nodes and
            separator tokens.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="nodes">An array of nodes or tokens, alternating between nodes and separator tokens.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SeparatedList``1(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxNodeOrToken})">
            <summary>
            Create a singleton separated list from a sequence of nodes or tokens, alternating between nodes and
            separator tokens.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="nodes">A sequence of nodes or tokens, alternating between nodes and separator tokens.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SeparatedList``1(System.Collections.Generic.IEnumerable{``0},System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.SyntaxToken})">
            <summary>
            Creates a separated list of nodes from a sequence of nodes and a sequence of separator tokens.
            </summary>
            <typeparam name="TNode">The specific type of the element nodes.</typeparam>
            <param name="nodes">A sequence of syntax nodes.</param>
            <param name="separators">A sequence of token to be interleaved between the nodes. The number of tokens must
            be one less than the number of nodes.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IdentifierName(System.String)">
            <summary>
            Creates an IdentifierNameSyntax node.
            </summary>
            <param name="name">The identifier name.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseLeadingTrivia(System.String,System.Int32)">
            <summary>
            Parse a list of trivia rules for leading trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseTrailingTrivia(System.String,System.Int32)">
            <summary>
            Parse a list of trivia using the parsing rules for trailing trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseToken(System.String,System.Int32)">
            <summary>
            Parse a C# language token.
            </summary>
            <param name="text">The text of the token including leading and trailing trivia.</param>
            <param name="offset">Optional offset into text.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseTokens(System.String,System.Int32,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse a sequence of C# language tokens.
            </summary>
            <param name="text">The text of all the tokens.</param>
            <param name="initialTokenPosition">An integer to use as the starting position of the first token.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">Parse options.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseName(System.String,System.Int32)">
            <summary>
            Parse a NameSyntax node using the grammar rule for names.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseTypeName(System.String,System.Int32)">
            <summary>
            Parse a TypeNameSyntax node using the grammar rule for type names.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseExpression(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse an ExpressionSyntax node using the lowest precedence grammar rule for expressions.
            </summary>
            <param name="text">The text of the expression.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseStatement(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse a StatementSyntaxNode using grammar rule for statements.
            </summary>
            <param name="text">The text of the statement.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseCompilationUnit(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse a CompilationUnitSyntax using the grammar rule for an entire compilation unit (file). To produce a
            SyntaxTree instance, using SyntaxTree.ParseCompilationUnit instead.
            </summary>
            <param name="text">The text of the compilation unit.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseParameterList(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse a ParameterListSyntax node.
            </summary>
            <param name="text">The text of the parenthesized parameter list.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseBracketedParameterList(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse a BracketedParameterListSyntax node.
            </summary>
            <param name="text">The text of the bracketed parameter list.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseArgumentList(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse an ArgumentListSyntax node.
            </summary>
            <param name="text">The text of the parenthesized argument list.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseBracketedArgumentList(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse a BracketedArgumentListSyntax node.
            </summary>
            <param name="text">The text of the bracketed argument list.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParseAttributeArgumentList(System.String,System.Int32,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Parse an AttributeArgumentListSyntax node.
            </summary>
            <param name="text">The text of the attribute argument list.</param>
            <param name="offset">Optional offset into text.</param>
            <param name="options">The optional parse options to use. If no options are specified default options are
            used.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MakeIText(System.String,System.Int32)">
            <summary>
            Helper method for wrapping a string in an IText.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AreEquivalent(Roslyn.Compilers.CSharp.SyntaxTree,Roslyn.Compilers.CSharp.SyntaxTree,System.Boolean)">
            <summary>
            Determines if two trees are the same, disregarding trivia differences.
            </summary>
            <param name="oldTree">The original tree.</param>
            <param name="newTree">The new tree.</param>
            <param name="topLevel"> If true then the trees are equivalent if the contained nodes and tokens declaring
            metadata visible symbolic information are equivalent, ignoring any differences of nodes inside method bodies
            or initializer expressions, otherwise all nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AreEquivalent(Roslyn.Compilers.CSharp.SyntaxNode,Roslyn.Compilers.CSharp.SyntaxNode,System.Boolean)">
            <summary>
            Determines if two syntax nodes are the same, disregarding trivia differences.
            </summary>
            <param name="oldNode">The old node.</param>
            <param name="newNode">The new node.</param>
            <param name="topLevel"> If true then the nodes are equivalent if the contained nodes and tokens declaring
            metadata visible symbolic information are equivalent, ignoring any differences of nodes inside method bodies
            or initializer expressions, otherwise all nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GetStandAloneExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Gets the containing expression that is actually a language expression and not just typed
            as an ExpressionSyntax for convenience. For example, NameSyntax nodes on the right side
            of qualified names and member access expressions are not language expressions, yet the
            containing qualified names or member access expressions are indeed expressions.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GetNonGenericExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Converts a generic name expression into one without the generic arguments.
            </summary>
            <param name="expression"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IsCompleteSubmission(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Determines whether the given text is considered a syntactically complete submission.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Block(Roslyn.Compilers.CSharp.StatementSyntax[])">
            <summary>Creates a new BlockSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Block(System.Collections.Generic.IEnumerable{Roslyn.Compilers.CSharp.StatementSyntax})">
            <summary>Creates a new BlockSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IdentifierName(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new IdentifierNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QualifiedName(Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new QualifiedNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QualifiedName(Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new QualifiedNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GenericName(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeArgumentListSyntax)">
            <summary>Creates a new GenericNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GenericName(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new GenericNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GenericName(System.String)">
            <summary>Creates a new GenericNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeArgumentList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new TypeArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeArgumentList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax})">
            <summary>Creates a new TypeArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AliasQualifiedName(Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new AliasQualifiedNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AliasQualifiedName(Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new AliasQualifiedNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AliasQualifiedName(System.String,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new AliasQualifiedNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PredefinedType(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new PredefinedTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayType(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.ArrayRankSpecifierSyntax})">
            <summary>Creates a new ArrayTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayType(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new ArrayTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayRankSpecifier(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ArrayRankSpecifierSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayRankSpecifier(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax})">
            <summary>Creates a new ArrayRankSpecifierSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PointerType(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new PointerTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PointerType(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new PointerTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NullableType(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new NullableTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NullableType(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new NullableTypeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OmittedTypeArgument(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new OmittedTypeArgumentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OmittedTypeArgument">
            <summary>Creates a new OmittedTypeArgumentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParenthesizedExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ParenthesizedExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParenthesizedExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ParenthesizedExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PrefixUnaryExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new PrefixUnaryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PrefixUnaryExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new PrefixUnaryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PostfixUnaryExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new PostfixUnaryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PostfixUnaryExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new PostfixUnaryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MemberAccessExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new MemberAccessExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MemberAccessExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SimpleNameSyntax)">
            <summary>Creates a new MemberAccessExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BinaryExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new BinaryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BinaryExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new BinaryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConditionalExpression(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ConditionalExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConditionalExpression(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ConditionalExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ThisExpression(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ThisExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ThisExpression">
            <summary>Creates a new ThisExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BaseExpression(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new BaseExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BaseExpression">
            <summary>Creates a new BaseExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LiteralExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new LiteralExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LiteralExpression(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>Creates a new LiteralExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MakeRefExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new MakeRefExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MakeRefExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new MakeRefExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.RefTypeExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new RefTypeExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.RefTypeExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new RefTypeExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.RefValueExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new RefValueExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.RefValueExpression(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new RefValueExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CheckedExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new CheckedExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CheckedExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new CheckedExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DefaultExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DefaultExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DefaultExpression(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new DefaultExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeOfExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new TypeOfExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeOfExpression(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new TypeOfExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SizeOfExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new SizeOfExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SizeOfExpression(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new SizeOfExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InvocationExpression(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ArgumentListSyntax)">
            <summary>Creates a new InvocationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InvocationExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new InvocationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElementAccessExpression(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.BracketedArgumentListSyntax)">
            <summary>Creates a new ElementAccessExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElementAccessExpression(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ElementAccessExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArgumentList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ArgumentSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArgumentList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ArgumentSyntax})">
            <summary>Creates a new ArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BracketedArgumentList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ArgumentSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new BracketedArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BracketedArgumentList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ArgumentSyntax})">
            <summary>Creates a new BracketedArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Argument(Roslyn.Compilers.CSharp.NameColonSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ArgumentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Argument(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ArgumentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NameColon(Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new NameColonSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NameColon(Roslyn.Compilers.CSharp.IdentifierNameSyntax)">
            <summary>Creates a new NameColonSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NameColon(System.String)">
            <summary>Creates a new NameColonSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CastExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new CastExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CastExpression(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new CastExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousMethodExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new AnonymousMethodExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousMethodExpression(Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new AnonymousMethodExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousMethodExpression">
            <summary>Creates a new AnonymousMethodExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SimpleLambdaExpression(Roslyn.Compilers.CSharp.ParameterSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>Creates a new SimpleLambdaExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SimpleLambdaExpression(Roslyn.Compilers.CSharp.ParameterSyntax,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>Creates a new SimpleLambdaExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParenthesizedLambdaExpression(Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>Creates a new ParenthesizedLambdaExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParenthesizedLambdaExpression(Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>Creates a new ParenthesizedLambdaExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParenthesizedLambdaExpression(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>Creates a new ParenthesizedLambdaExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InitializerExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new InitializerExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InitializerExpression(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax})">
            <summary>Creates a new InitializerExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ObjectCreationExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ArgumentListSyntax,Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ObjectCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ObjectCreationExpression(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ArgumentListSyntax,Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ObjectCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ObjectCreationExpression(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new ObjectCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousObjectMemberDeclarator(Roslyn.Compilers.CSharp.NameEqualsSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new AnonymousObjectMemberDeclaratorSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousObjectMemberDeclarator(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new AnonymousObjectMemberDeclaratorSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousObjectCreationExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AnonymousObjectCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AnonymousObjectCreationExpression(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax})">
            <summary>Creates a new AnonymousObjectCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayCreationExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ArrayTypeSyntax,Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayCreationExpression(Roslyn.Compilers.CSharp.ArrayTypeSyntax,Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ArrayCreationExpression(Roslyn.Compilers.CSharp.ArrayTypeSyntax)">
            <summary>Creates a new ArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ImplicitArrayCreationExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ImplicitArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ImplicitArrayCreationExpression(Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ImplicitArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ImplicitArrayCreationExpression(Roslyn.Compilers.CSharp.InitializerExpressionSyntax)">
            <summary>Creates a new ImplicitArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.StackAllocArrayCreationExpression(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new StackAllocArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.StackAllocArrayCreationExpression(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new StackAllocArrayCreationExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QueryExpression(Roslyn.Compilers.CSharp.FromClauseSyntax,Roslyn.Compilers.CSharp.QueryBodySyntax)">
            <summary>Creates a new QueryExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QueryBody(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.QueryClauseSyntax},Roslyn.Compilers.CSharp.SelectOrGroupClauseSyntax,Roslyn.Compilers.CSharp.QueryContinuationSyntax)">
            <summary>Creates a new QueryBodySyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QueryBody(Roslyn.Compilers.CSharp.SelectOrGroupClauseSyntax)">
            <summary>Creates a new QueryBodySyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FromClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new FromClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FromClause(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new FromClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FromClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new FromClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FromClause(System.String,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new FromClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LetClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new LetClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LetClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new LetClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LetClause(System.String,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new LetClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.JoinIntoClauseSyntax)">
            <summary>Creates a new JoinClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinClause(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.JoinIntoClauseSyntax)">
            <summary>Creates a new JoinClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new JoinClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinClause(System.String,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new JoinClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinIntoClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new JoinIntoClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinIntoClause(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new JoinIntoClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.JoinIntoClause(System.String)">
            <summary>Creates a new JoinIntoClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.WhereClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new WhereClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.WhereClause(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new WhereClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OrderByClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.OrderingSyntax})">
            <summary>Creates a new OrderByClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OrderByClause(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.OrderingSyntax})">
            <summary>Creates a new OrderByClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Ordering(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new OrderingSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Ordering(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new OrderingSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SelectClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new SelectClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SelectClause(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new SelectClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GroupClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new GroupClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GroupClause(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new GroupClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QueryContinuation(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.QueryBodySyntax)">
            <summary>Creates a new QueryContinuationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QueryContinuation(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.QueryBodySyntax)">
            <summary>Creates a new QueryContinuationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.QueryContinuation(System.String,Roslyn.Compilers.CSharp.QueryBodySyntax)">
            <summary>Creates a new QueryContinuationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OmittedArraySizeExpression(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new OmittedArraySizeExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OmittedArraySizeExpression">
            <summary>Creates a new OmittedArraySizeExpressionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GlobalStatement(Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new GlobalStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Block(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.StatementSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new BlockSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Block(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.StatementSyntax})">
            <summary>Creates a new BlockSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LocalDeclarationStatement(Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new LocalDeclarationStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LocalDeclarationStatement(Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Creates a new LocalDeclarationStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LocalDeclarationStatement(Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Creates a new LocalDeclarationStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.VariableDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.VariableDeclaratorSyntax})">
            <summary>Creates a new VariableDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.VariableDeclaration(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new VariableDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.VariableDeclarator(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BracketedArgumentListSyntax,Roslyn.Compilers.CSharp.EqualsValueClauseSyntax)">
            <summary>Creates a new VariableDeclaratorSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.VariableDeclarator(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new VariableDeclaratorSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.VariableDeclarator(System.String)">
            <summary>Creates a new VariableDeclaratorSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EqualsValueClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new EqualsValueClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EqualsValueClause(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new EqualsValueClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExpressionStatement(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ExpressionStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExpressionStatement(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ExpressionStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EmptyStatement(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new EmptyStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EmptyStatement">
            <summary>Creates a new EmptyStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LabeledStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new LabeledStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LabeledStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new LabeledStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LabeledStatement(System.String,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new LabeledStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GotoStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new GotoStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GotoStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new GotoStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.GotoStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new GotoStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BreakStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new BreakStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BreakStatement">
            <summary>Creates a new BreakStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ContinueStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ContinueStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ContinueStatement">
            <summary>Creates a new ContinueStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ReturnStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ReturnStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ReturnStatement(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ReturnStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ThrowStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ThrowStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ThrowStatement(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new ThrowStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.YieldStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new YieldStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.YieldStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new YieldStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.WhileStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new WhileStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.WhileStatement(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new WhileStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DoStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DoStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DoStatement(Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new DoStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ForStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ForStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ForStatement(Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ForStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ForStatement(Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ForStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ForEachStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ForEachStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ForEachStatement(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ForEachStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ForEachStatement(Roslyn.Compilers.CSharp.TypeSyntax,System.String,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ForEachStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UsingStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new UsingStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UsingStatement(Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new UsingStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UsingStatement(Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new UsingStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FixedStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new FixedStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FixedStatement(Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new FixedStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CheckedStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new CheckedStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CheckedStatement(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new CheckedStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UnsafeStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new UnsafeStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UnsafeStatement(Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new UnsafeStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LockStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new LockStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LockStatement(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new LockStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IfStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.CSharp.ElseClauseSyntax)">
            <summary>Creates a new IfStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IfStatement(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax,Roslyn.Compilers.CSharp.ElseClauseSyntax)">
            <summary>Creates a new IfStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IfStatement(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new IfStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElseClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ElseClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElseClause(Roslyn.Compilers.CSharp.StatementSyntax)">
            <summary>Creates a new ElseClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.SwitchSectionSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new SwitchStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchStatement(Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.SwitchSectionSyntax})">
            <summary>Creates a new SwitchStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchStatement(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new SwitchStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchSection(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.SwitchLabelSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.StatementSyntax})">
            <summary>Creates a new SwitchSectionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchSection">
            <summary>Creates a new SwitchSectionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchLabel(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new SwitchLabelSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SwitchLabel(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new SwitchLabelSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TryStatement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.CatchClauseSyntax},Roslyn.Compilers.CSharp.FinallyClauseSyntax)">
            <summary>Creates a new TryStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TryStatement(Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.CatchClauseSyntax},Roslyn.Compilers.CSharp.FinallyClauseSyntax)">
            <summary>Creates a new TryStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TryStatement(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.CatchClauseSyntax})">
            <summary>Creates a new TryStatementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CatchClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.CatchDeclarationSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new CatchClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CatchClause(Roslyn.Compilers.CSharp.CatchDeclarationSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new CatchClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CatchClause">
            <summary>Creates a new CatchClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CatchDeclaration(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new CatchDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CatchDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new CatchDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CatchDeclaration(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new CatchDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FinallyClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new FinallyClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FinallyClause(Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new FinallyClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CompilationUnit(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.UsingDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new CompilationUnitSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CompilationUnit(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.UsingDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax})">
            <summary>Creates a new CompilationUnitSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.CompilationUnit">
            <summary>Creates a new CompilationUnitSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExternAliasDirective(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ExternAliasDirectiveSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExternAliasDirective(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ExternAliasDirectiveSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExternAliasDirective(System.String)">
            <summary>Creates a new ExternAliasDirectiveSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UsingDirective(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.NameEqualsSyntax,Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new UsingDirectiveSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UsingDirective(Roslyn.Compilers.CSharp.NameEqualsSyntax,Roslyn.Compilers.CSharp.NameSyntax)">
            <summary>Creates a new UsingDirectiveSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UsingDirective(Roslyn.Compilers.CSharp.NameSyntax)">
            <summary>Creates a new UsingDirectiveSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NamespaceDeclaration(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.UsingDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new NamespaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NamespaceDeclaration(Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.UsingDirectiveSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax})">
            <summary>Creates a new NamespaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NamespaceDeclaration(Roslyn.Compilers.CSharp.NameSyntax)">
            <summary>Creates a new NamespaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AttributeSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AttributeListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeList(Roslyn.Compilers.CSharp.AttributeTargetSpecifierSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AttributeSyntax})">
            <summary>Creates a new AttributeListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AttributeSyntax})">
            <summary>Creates a new AttributeListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeTargetSpecifier(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AttributeTargetSpecifierSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeTargetSpecifier(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AttributeTargetSpecifierSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Attribute(Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.AttributeArgumentListSyntax)">
            <summary>Creates a new AttributeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Attribute(Roslyn.Compilers.CSharp.NameSyntax)">
            <summary>Creates a new AttributeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeArgumentList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AttributeArgumentSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AttributeArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeArgumentList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.AttributeArgumentSyntax})">
            <summary>Creates a new AttributeArgumentListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeArgument(Roslyn.Compilers.CSharp.NameEqualsSyntax,Roslyn.Compilers.CSharp.NameColonSyntax,Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new AttributeArgumentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AttributeArgument(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>Creates a new AttributeArgumentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NameEquals(Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new NameEqualsSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NameEquals(Roslyn.Compilers.CSharp.IdentifierNameSyntax)">
            <summary>Creates a new NameEqualsSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.NameEquals(System.String)">
            <summary>Creates a new NameEqualsSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameterList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeParameterSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new TypeParameterListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameterList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeParameterSyntax})">
            <summary>Creates a new TypeParameterListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameter(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new TypeParameterSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameter(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new TypeParameterSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameter(System.String)">
            <summary>Creates a new TypeParameterSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ClassDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ClassDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ClassDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax})">
            <summary>Creates a new ClassDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ClassDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ClassDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ClassDeclaration(System.String)">
            <summary>Creates a new ClassDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.StructDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new StructDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.StructDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax})">
            <summary>Creates a new StructDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.StructDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new StructDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.StructDeclaration(System.String)">
            <summary>Creates a new StructDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InterfaceDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new InterfaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InterfaceDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.MemberDeclarationSyntax})">
            <summary>Creates a new InterfaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InterfaceDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new InterfaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.InterfaceDeclaration(System.String)">
            <summary>Creates a new InterfaceDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new EnumDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BaseListSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax})">
            <summary>Creates a new EnumDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new EnumDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumDeclaration(System.String)">
            <summary>Creates a new EnumDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DelegateDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DelegateDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DelegateDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax})">
            <summary>Creates a new DelegateDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DelegateDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DelegateDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DelegateDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,System.String)">
            <summary>Creates a new DelegateDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumMemberDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.EqualsValueClauseSyntax)">
            <summary>Creates a new EnumMemberDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumMemberDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new EnumMemberDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EnumMemberDeclaration(System.String)">
            <summary>Creates a new EnumMemberDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BaseList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax})">
            <summary>Creates a new BaseListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BaseList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeSyntax})">
            <summary>Creates a new BaseListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameterConstraintClause(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintSyntax})">
            <summary>Creates a new TypeParameterConstraintClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameterConstraintClause(Roslyn.Compilers.CSharp.IdentifierNameSyntax,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintSyntax})">
            <summary>Creates a new TypeParameterConstraintClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameterConstraintClause(Roslyn.Compilers.CSharp.IdentifierNameSyntax)">
            <summary>Creates a new TypeParameterConstraintClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeParameterConstraintClause(System.String)">
            <summary>Creates a new TypeParameterConstraintClauseSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorConstraint(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ConstructorConstraintSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorConstraint">
            <summary>Creates a new ConstructorConstraintSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ClassOrStructConstraint(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ClassOrStructConstraintSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ClassOrStructConstraint(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>Creates a new ClassOrStructConstraintSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.TypeConstraint(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new TypeConstraintSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FieldDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new FieldDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FieldDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Creates a new FieldDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.FieldDeclaration(Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Creates a new FieldDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventFieldDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.VariableDeclarationSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new EventFieldDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventFieldDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Creates a new EventFieldDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventFieldDeclaration(Roslyn.Compilers.CSharp.VariableDeclarationSyntax)">
            <summary>Creates a new EventFieldDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExplicitInterfaceSpecifier(Roslyn.Compilers.CSharp.NameSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ExplicitInterfaceSpecifierSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ExplicitInterfaceSpecifier(Roslyn.Compilers.CSharp.NameSyntax)">
            <summary>Creates a new ExplicitInterfaceSpecifierSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MethodDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new MethodDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MethodDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeParameterListSyntax,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax},Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new MethodDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MethodDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new MethodDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.MethodDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,System.String)">
            <summary>Creates a new MethodDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OperatorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new OperatorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OperatorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new OperatorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.OperatorDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new OperatorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConversionOperatorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ConversionOperatorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConversionOperatorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new ConversionOperatorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConversionOperatorDeclaration(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new ConversionOperatorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.ConstructorInitializerSyntax,Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ConstructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.ConstructorInitializerSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new ConstructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ConstructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorDeclaration(System.String)">
            <summary>Creates a new ConstructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorInitializer(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ArgumentListSyntax)">
            <summary>Creates a new ConstructorInitializerSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ConstructorInitializer(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.ArgumentListSyntax)">
            <summary>Creates a new ConstructorInitializerSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DestructorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DestructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DestructorDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ParameterListSyntax,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new DestructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DestructorDeclaration(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DestructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DestructorDeclaration(System.String)">
            <summary>Creates a new DestructorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PropertyDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Creates a new PropertyDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PropertyDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new PropertyDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PropertyDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,System.String)">
            <summary>Creates a new PropertyDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Creates a new EventDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Creates a new EventDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new EventDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EventDeclaration(Roslyn.Compilers.CSharp.TypeSyntax,System.String)">
            <summary>Creates a new EventDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IndexerDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BracketedParameterListSyntax,Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Creates a new IndexerDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IndexerDeclaration(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.ExplicitInterfaceSpecifierSyntax,Roslyn.Compilers.CSharp.BracketedParameterListSyntax,Roslyn.Compilers.CSharp.AccessorListSyntax)">
            <summary>Creates a new IndexerDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IndexerDeclaration(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new IndexerDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AccessorList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AccessorDeclarationSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AccessorListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AccessorList(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AccessorDeclarationSyntax})">
            <summary>Creates a new AccessorListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AccessorDeclaration(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.BlockSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new AccessorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AccessorDeclaration(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new AccessorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.AccessorDeclaration(Roslyn.Compilers.CSharp.SyntaxKind,Roslyn.Compilers.CSharp.BlockSyntax)">
            <summary>Creates a new AccessorDeclarationSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParameterList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ParameterSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ParameterListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ParameterList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ParameterSyntax})">
            <summary>Creates a new ParameterListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BracketedParameterList(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ParameterSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new BracketedParameterListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BracketedParameterList(Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ParameterSyntax})">
            <summary>Creates a new BracketedParameterListSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Parameter(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.EqualsValueClauseSyntax)">
            <summary>Creates a new ParameterSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.Parameter(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new ParameterSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IncompleteMember(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.AttributeListSyntax},Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new IncompleteMemberSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IncompleteMember(Roslyn.Compilers.CSharp.TypeSyntax)">
            <summary>Creates a new IncompleteMemberSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SkippedTokensTrivia(Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>Creates a new SkippedTokensTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.SkippedTokensTrivia">
            <summary>Creates a new SkippedTokensTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DocumentationCommentTrivia(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlNodeSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new DocumentationCommentTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DocumentationCommentTrivia(Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlNodeSyntax})">
            <summary>Creates a new DocumentationCommentTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElement(Roslyn.Compilers.CSharp.XmlElementStartTagSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlNodeSyntax},Roslyn.Compilers.CSharp.XmlElementEndTagSyntax)">
            <summary>Creates a new XmlElementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElement(Roslyn.Compilers.CSharp.XmlElementStartTagSyntax,Roslyn.Compilers.CSharp.XmlElementEndTagSyntax)">
            <summary>Creates a new XmlElementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElementStartTag(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlAttributeSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlElementStartTagSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElementStartTag(Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlAttributeSyntax})">
            <summary>Creates a new XmlElementStartTagSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElementStartTag(Roslyn.Compilers.CSharp.XmlNameSyntax)">
            <summary>Creates a new XmlElementStartTagSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElementEndTag(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlElementEndTagSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlElementEndTag(Roslyn.Compilers.CSharp.XmlNameSyntax)">
            <summary>Creates a new XmlElementEndTagSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlEmptyElement(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlAttributeSyntax},Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlEmptyElementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlEmptyElement(Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxList{Roslyn.Compilers.CSharp.XmlAttributeSyntax})">
            <summary>Creates a new XmlEmptyElementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlEmptyElement(Roslyn.Compilers.CSharp.XmlNameSyntax)">
            <summary>Creates a new XmlEmptyElementSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlName(Roslyn.Compilers.CSharp.XmlPrefixSyntax,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlName(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlName(System.String)">
            <summary>Creates a new XmlNameSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlPrefix(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlPrefixSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlPrefix(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlPrefixSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlPrefix(System.String)">
            <summary>Creates a new XmlPrefixSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlAttribute(Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlAttributeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlAttribute(Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlAttributeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlAttribute(Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlAttributeSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlText(Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>Creates a new XmlTextSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlText">
            <summary>Creates a new XmlTextSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlCDataSection(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlCDataSectionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlCDataSection(Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>Creates a new XmlCDataSectionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlProcessingInstruction(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlProcessingInstructionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlProcessingInstruction(Roslyn.Compilers.CSharp.XmlNameSyntax,Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>Creates a new XmlProcessingInstructionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlProcessingInstruction(Roslyn.Compilers.CSharp.XmlNameSyntax)">
            <summary>Creates a new XmlProcessingInstructionSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlComment(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxTokenList,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>Creates a new XmlCommentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.XmlComment(Roslyn.Compilers.CSharp.SyntaxTokenList)">
            <summary>Creates a new XmlCommentSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IfDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean,System.Boolean,System.Boolean)">
            <summary>Creates a new IfDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.IfDirectiveTrivia(Roslyn.Compilers.CSharp.ExpressionSyntax,System.Boolean,System.Boolean,System.Boolean)">
            <summary>Creates a new IfDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElifDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.ExpressionSyntax,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean,System.Boolean,System.Boolean)">
            <summary>Creates a new ElifDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElifDirectiveTrivia(Roslyn.Compilers.CSharp.ExpressionSyntax,System.Boolean,System.Boolean,System.Boolean)">
            <summary>Creates a new ElifDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElseDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean,System.Boolean)">
            <summary>Creates a new ElseDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ElseDirectiveTrivia(System.Boolean,System.Boolean)">
            <summary>Creates a new ElseDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EndIfDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new EndIfDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EndIfDirectiveTrivia(System.Boolean)">
            <summary>Creates a new EndIfDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.RegionDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new RegionDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.RegionDirectiveTrivia(System.Boolean)">
            <summary>Creates a new RegionDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EndRegionDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new EndRegionDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.EndRegionDirectiveTrivia(System.Boolean)">
            <summary>Creates a new EndRegionDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ErrorDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new ErrorDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ErrorDirectiveTrivia(System.Boolean)">
            <summary>Creates a new ErrorDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.WarningDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new WarningDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.WarningDirectiveTrivia(System.Boolean)">
            <summary>Creates a new WarningDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BadDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new BadDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.BadDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new BadDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DefineDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new DefineDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DefineDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new DefineDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.DefineDirectiveTrivia(System.String,System.Boolean)">
            <summary>Creates a new DefineDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UndefDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new UndefDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UndefDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new UndefDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.UndefDirectiveTrivia(System.String,System.Boolean)">
            <summary>Creates a new UndefDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LineDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new LineDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LineDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new LineDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.LineDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new LineDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PragmaWarningDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new PragmaWarningDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PragmaWarningDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SeparatedSyntaxList{Roslyn.Compilers.CSharp.ExpressionSyntax},System.Boolean)">
            <summary>Creates a new PragmaWarningDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PragmaWarningDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new PragmaWarningDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PragmaChecksumDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new PragmaChecksumDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.PragmaChecksumDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new PragmaChecksumDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ReferenceDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new ReferenceDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.Syntax.ReferenceDirectiveTrivia(Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean)">
            <summary>Creates a new ReferenceDirectiveTriviaSyntax instance.</summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxFacts.IsGlobalMemberDeclaration(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Member declarations that can appear in global code (other than type declarations).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxFacts.IsAliasQualifier(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Returns true if the node is the alias of an AliasQualifiedNameSyntax
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxFacts.IsInvoked(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Returns true if the node is the object of an invocation expression
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxFacts.IsInTypeOnlyContext(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Returns true if the node is in a tree location that is expected to be a type
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxFacts.IsInNamespaceOrTypeContext(Roslyn.Compilers.CSharp.ExpressionSyntax)">
            <summary>
            Returns true if a node is in a tree location that is expected to be either a namespace or type
            </summary>
            <param name="node"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxFacts.IsNamedArgumentName(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Is the node the name of a named argument of an invocation, object creation expression, 
            constructor initializer, or element access, but not an attribute.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxNodeOrToken">
            <summary>
            This structure is a union of either a SyntaxNode or a SyntaxToken.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.ToString">
            <summary>
            Returns the string representation of this node or token, not including its leading and trailing
            trivia.
            </summary>
            <returns>The string representation of this node or token, not including its leading and trailing
            trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.ToFullString">
            <summary>
            Returns the full string representation of this node or token including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this node or token including its leading and trailing
            trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.GetFirstChildIndexSpanningPosition(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            binary search of nodes to find the slot.  Consider unifying this with that
            implementation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.HasAnnotations(System.Type)">
            <summary>
            Determines whether this node or token has annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this node or token as the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.GetAnnotations(System.Type)">
            <summary>
            Gets all annotations of the specified type attached to this node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.GetLocation">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.CSharp.Location"/> for this node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics in either the sub tree that has this node as its root or
            associated with this token and its related trivia. 
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.Language">
            <summary>
            The language name that this node or token is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.HasStructuredTrivia">
            <summary>
            Determine whether any of this node or token's descendant trivia is structured.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.SyntaxTree">
            <summary>
            SyntaxTree which contains current SyntaxNodeOrToken.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrToken.ContainsAnnotations">
            <summary>
            Determines whether this node or token (or any sub node, token or trivia) has annotations.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList">
            <summary>
            A list of <see cref="T:Roslyn.Compilers.CSharp.SyntaxNodeOrToken"/> structures.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList._node">
            <summary>
            The underlying field
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList._position">
            <summary>
            The character position 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList._index">
            <summary>
            The index from the parent's children list of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.#ctor(Roslyn.Compilers.CSharp.SyntaxNode,System.Int32)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList"/> structure.
            </summary>
            <param name="node">The underlying syntax node.</param>
            <param name="index">The index.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.ToString">
            <summary>
            Returns the string representation of the nodes and tokens in this list, not including the first node or token's leading trivia 
            and the last node or token's trailing trivia.
            </summary>
            <returns>
            The string representation of the nodes and tokens in this list, not including the first node or token's leading trivia 
            and the last node or token's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.ToFullString">
            <summary>
            Returns the full string representation of the nodes and tokens in this list including the first node or token's leading trivia 
            and the last node or token's trailing trivia.
            </summary>
            <returns>
            The full string representation of the nodes and tokens in this list including the first node or token's leading trivia 
            and the last node or token's trailing trivia.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.First">
            <summary>
            Gets the first SyntaxNodeOrToken structure from this list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.FirstOrDefault">
            <summary>
            Gets the first SyntaxNodeOrToken structure from this list if present, else default(SyntaxNodeOrToken).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Last">
            <summary>
            Gets the last SyntaxNodeOrToken structure from this list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.LastOrDefault">
            <summary>
            Gets the last SyntaxNodeOrToken structure from this list if present, else default(SyntaxNodeOrToken).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.IndexOf(Roslyn.Compilers.CSharp.SyntaxNodeOrToken)">
            <summary>
            Returns the index from the list for the given nodeOrToken.
            </summary>
            <param name="nodeOrToken">The node or token to search for in the list.</param>
            <returns>The index of the found nodeOrToken, or -1 if it wasn't found</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Any">
            <summary>
            Indicates whether there is any element in the list.
            </summary>
            <returns><c>true</c> if there are any elements in the list, else <c>false</c>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Any(Roslyn.Compilers.CSharp.SyntaxKind)">
            <summary>
            Indicates whether there is any element in the list of the given kind.
            </summary>
            <returns><c>true</c> if there are any elements in the list of the given kind, else <c>false</c>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.CopyTo(System.Int32,Roslyn.Compilers.CSharp.SyntaxNodeOrToken[],System.Int32,System.Int32)">
            <summary>
            Copies a given count of elements into the given array at specified offsets.
            </summary>
            <param name="offset">The offset to start copying from.</param>
            <param name="array">The array to copy the elements into.</param>
            <param name="arrayOffset">The array offset to start writing to.</param>
            <param name="count">The count of elements to copy.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.CopyTo(System.Int32,Roslyn.Compilers.ArrayElement{Roslyn.Compilers.CSharp.InternalSyntax.SyntaxNode}[],System.Int32,System.Int32)">
            <summary>
            Copies a given count of elements into the given array at specified offsets.
            </summary>
            <param name="offset">The offset to start copying from.</param>
            <param name="array">The array to copy the elements into.</param>
            <param name="arrayOffset">The array offset to start writing to.</param>
            <param name="count">The count of elements to copy.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.GetEnumerator">
            <summary>
            Gets the enumerator.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.System#Collections#Generic#IEnumerable{Roslyn#Compilers#CSharp#SyntaxNodeOrToken}#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through the collection.
            </summary>
            <returns>
            A <see cref="T:System.Collections.Generic.IEnumerator`1"/> that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.System#Collections#IEnumerable#GetEnumerator">
            <summary>
            Returns an enumerator that iterates through a collection.
            </summary>
            <returns>
            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the collection.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.op_Equality(Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList,Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList)">
            <summary>
            Implements the operator ==.
            </summary>
            <param name="left">The left SyntaxNodeOrTokenList</param>
            <param name="right">The right SyntaxNodeOrTokenList</param>
            <returns>
            <c>true</c> if both lists equal, else <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.op_Inequality(Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList,Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList)">
            <summary>
            Implements the operator !=.
            </summary>
            <param name="left">The left SyntaxNodeOrTokenList</param>
            <param name="right">The right SyntaxNodeOrTokenList</param>
            <returns>
            <c>true</c> if both lists not equal, else <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Equals(Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList)">
            <summary>
            Indicates whether the current object is equal to another object of the same type.
            </summary>
            <param name="other">An object to compare with this object.</param>
            <returns>
            <c>true</c> if the current object is equal to the <paramref name="other"/> parameter; otherwise,
            <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Equals(System.Object)">
            <summary>
            Determines whether the specified <see cref="T:System.Object"/> is equal to this instance.
            </summary>
            <param name="obj">The <see cref="T:System.Object"/> to compare with this instance.</param>
            <returns>
              <c>true</c> if the specified <see cref="T:System.Object"/> is equal to this instance; otherwise, <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.GetHashCode">
            <summary>
            Returns a hash code for this instance.
            </summary>
            <returns>
            A hash code for this instance, suitable for use in hashing algorithms and data structures like a hash table. 
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.AsSeparatedList``1">
            <summary>
            Returns this list as a <see cref="T:Roslyn.Compilers.CSharp.SeparatedSyntaxList`1"/>.
            </summary>
            <typeparam name="TOther">The type of the list elements in the separated list.</typeparam>
            <returns></returns>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Node">
            <summary>
            Gets the underlying syntax node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Count">
            <summary>
            Gets the count of nodes in this list
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Item(System.Int32)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.CSharp.SyntaxNodeOrToken"/> at the specified index. 
            </summary>
            
            <exception cref="T:System.IndexOutOfRangeException"><paramref name="index"/> is out of range.</exception>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Enumerator">
            <summary>
            Enumerator for lists of SyntaxNodeOrToken structs.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Enumerator.MoveNext">
            <summary>
            Advances the enumerator to the next element of the collection.
            </summary>
            <returns>
            true if the enumerator was successfully advanced to the next element; false if the enumerator has passed the end of the collection.
            </returns>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Enumerator.System#Collections#IEnumerator#Reset">
            <summary>
            Sets the enumerator to its initial position, which is before the first element in the collection.
            </summary>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Enumerator.System#IDisposable#Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Enumerator.Current">
            <summary>
            Gets the struct that this enumerator instance is currently pointing to.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxNodeOrTokenList.Enumerator.System#Collections#IEnumerator#Current">
            <summary>
            Gets the struct that this enumerator instance is currently pointing to.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxToken">
            <summary>
            Represents a token in the syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.HasAnnotations(System.Type)">
            <summary>
            Determines whether this token has annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this token has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetAnnotations(System.Type)">
            <summary>
            Gets all annotations of the specified type attached to this token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.ToString">
            <summary>
            Returns the string representation of this token, not including its leading and trailing trivia.
            </summary>
            <returns>The string representation of this token, not including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.ToFullString">
            <summary>
            Returns the full string representation of this token including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this token including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this token to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetAllTrivia">
            <summary>
            Gets a list of both leading and trailing trivia for the token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.WithLeadingTrivia(Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Clones the token and adds the <paramref name="trivia"/> as leading trivia.
            </summary>
            <param name="trivia">The <see cref="T:Roslyn.Compilers.CSharp.SyntaxTriviaList"/> to add as leading trivia.</param>
            <returns>A new token with leading trivia.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.WithTrailingTrivia(Roslyn.Compilers.CSharp.SyntaxTriviaList)">
            <summary>
            Clones the token and adds the <paramref name="trivia"/> as trailing trivia.
            </summary>
            <param name="trivia">The <see cref="T:Roslyn.Compilers.CSharp.SyntaxTriviaList"/> to add as trailing trivia.</param>
            <returns>A new token with trailing trivia.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.op_Equality(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Returns true if <paramref name="a"/> equals <paramref name="b"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.op_Inequality(Roslyn.Compilers.CSharp.SyntaxToken,Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Returns true if <paramref name="a"/> is not equal to <paramref name="b"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.Equals(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Returns true if this <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/> equals <paramref name="other"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.Equals(System.Object)">
            <summary>
            Returns true if this <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/> equals <paramref name="obj"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.EquivalentTo(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            True is <paramref name="other"/> is equivalent to this <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>.  Two tokens are equivalent
            if they are the same kind, have the same text and have the same full width.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetHashCode">
            <summary>
            Serves as a hash function for the <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.op_Implicit(Roslyn.Compilers.CSharp.SyntaxToken)~Roslyn.Compilers.Common.CommonSyntaxToken">
            <summary>
            Converts a <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/> to a <see cref="T:Roslyn.Compilers.Common.CommonSyntaxToken"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.op_Explicit(Roslyn.Compilers.Common.CommonSyntaxToken)~Roslyn.Compilers.CSharp.SyntaxToken">
            <summary>
            Converts a <see cref="T:Roslyn.Compilers.Common.CommonSyntaxToken"/> to a <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.op_Implicit(Roslyn.Compilers.CSharp.SyntaxToken)~Roslyn.Compilers.Common.CommonSyntaxNodeOrToken">
            <summary>
            Converts a <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/> to a <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.op_Explicit(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)~Roslyn.Compilers.CSharp.SyntaxToken">
            <summary>
            Converts a <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> to a <see cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/>
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.WithAdditionalAnnotations(Roslyn.Compilers.SyntaxAnnotation[])">
            <summary>
            Adds this annotation to a given syntax token, creating a new syntax token of the same type with the
            annotation on it.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.CopyAnnotationsTo(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Copies all SyntaxAnnotations, if any, from this SyntaxToken instance and attaches them to a new instance based on <paramref name="token" />.
            </summary>
            <remarks>
            If no annotations are copied, just returns <paramref name="token" />.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetLocation">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.CSharp.Location"/> for this token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics associated with this token and any related trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetNextToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Returns the token after this token in the syntax tree.
            </summary>
            <param name="includeZeroWidth">True if zero width tokens should be included, false by
            default.</param>
            <param name="includeSkipped">If true then search inside trailing trivia and skipped token trivia may be
            returned.</param>
            <param name="includeDirectives">If true then search inside trailing trivia and directive trivia may be
            returned</param>
            <param name="includeDocumentationComments">if true then search inside trailing trivia and document comment
            trivia may be returned.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetNextToken(System.Func{Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean},System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,System.Boolean})">
            <summary>
            Returns the token after this token in the syntax tree.
            </summary>
            <param name="predicate">Delegate applied to each token.  The token is returned if the predicate returns
            true.</param>
            <param name="stepInto">Delegate applied to trivia.  If this delegate is present then trailing trivia is
            included in the search.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetPreviousToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Returns the token before this token in the syntax tree.
            </summary>
            <param name="includeZeroWidth">True if zero width tokens should be included, false by
            default.</param>
            <param name="includeSkipped">If true then search inside leading trivia and skipped token trivia may be
            returned.</param>
            <param name="includeDirectives">If true then search inside leading trivia and directive trivia may be
            returned</param>
            <param name="includeDocumentationComments">if true then search inside leading trivia and document comment
            trivia may be returned.</param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxToken.GetPreviousToken(System.Func{Roslyn.Compilers.CSharp.SyntaxToken,System.Boolean},System.Func{Roslyn.Compilers.CSharp.SyntaxTrivia,System.Boolean})">
            <summary>
            Returns the token before this token in the syntax tree.
            </summary>
            <param name="predicate">Delegate applied to each token.  The token is returned if the predicate returns
            true.</param>
            <param name="stepInto">Delegate applied to trivia.  If this delegate is present then trailing trivia is
            included in the search.</param>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Kind">
            <summary>
            The token's <see cref="T:Roslyn.Compilers.CSharp.SyntaxKind"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Language">
            <summary>
            The language name that this token is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.ContextualKind">
            <summary>
            The kind of token, given its position in the syntax. This differs from <see cref="P:Roslyn.Compilers.CSharp.SyntaxToken.Kind"/> when a contextual keyword is used in a place in the syntax that gives it
            its keyword meaning.
            </summary>
            <remarks>
            The ContextualKind is relevant only on contextual keyword tokens. ContextualKind differs
            from Kind when a token is used in context where the token should be interpreted as a
            keyword.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.IsMissing">
            <summary>
            Determines whether the node represents a language construct that was actually parsed
            from the source code. Missing nodes are generated by the parser in error scenarios to
            represent constructs that should have been present in the source code in order to
            compile successfully but were actually missing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Text">
            <summary>
            The text of the token as it appeared in the source.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Value">
            <summary>
            The value designated by the token, if it is a literal (e.g. true, false, 12, "foo").  For
            example, the sequence of letters of an identifier, excluding the escape character if it
            was escaped in the source, or the characters of a string excluding the quotes and with
            escape sequences translated.  For constants, ValueText is the canonical form of the
            designated value (e.g. leading zeroes are dropped).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.ValueText">
            <summary>
            The string text of the value of the token.  For example, the sequence of letters of an
            identifier, excluding the escape character if it was escaped in the source, or the
            characters of a string excluding the quotes and with escape sequences translated.  For
            constants, ValueText is the canonical form of the designated value (e.g. leading zeroes
            are dropped).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Parent">
            <summary>
            The immediately enclosing <see cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.SyntaxTree">
            <summary>
            SyntaxTree which contains current SyntaxToken.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.FullSpan">
            <summary>
            The absolute span of characters of the token, including surrounding trivia that is
            attached to the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Span">
            <summary>
            The span of characters of the token, excluding trivia surrounding the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.FullWidth">
            <summary>
            The full width of the token, including surrounding trivia that is attached to the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.Width">
            <summary>
            The width of the token, excluding trivia surrounding the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.LeadingWidth">
            <summary>
            The width of trivia attached to and preceding the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.TrailingWidth">
            <summary>
            The width of trivia attached to and following the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.ContainsDiagnostics">
            <summary>
            True if any diagnostics are associated with the token in the context of its parse tree.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.ContainsAnnotations">
            <summary>
            Determines whether this token or any of its trivia has annotations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.ContainsDirectives">
            <summary>
            True if any directives are associated with the token in the context of its parse tree.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.HasStructuredTrivia">
            <summary>
            True if any trivia of this token is structured.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.HasLeadingTrivia">
            <summary>
            True if the token has preceding trivia that is attached to the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.LeadingTrivia">
            <summary>
            The list of trivia that precedes and is attached to the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.HasTrailingTrivia">
            <summary>
            True if the token has trailing trivia that is attached to the token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxToken.TrailingTrivia">
            <summary>
            The list of trivia that follows and is attached to the token.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTree">
            <summary>
            The parsed representation of a C# source document.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.CloneNodeAsRoot``1(``0)">
            <summary>
            Produces a clone of a SyntaxNode which will have current syntax tree as its parent.
            
            Caller must guarantee that if the same instance of SyntaxNode makes multiple calls 
            to this function, only one result is observable.
            </summary>
            <typeparam name="T">Type of the syntax node.</typeparam>
            <param name="node">The original syntax node.</param>
            <returns>A clone of the original syntax node that has current SyntaxTree as its parent.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetRoot(System.Threading.CancellationToken)">
            <summary>
            Gets the root node of the syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.TryGetRoot(Roslyn.Compilers.CSharp.CompilationUnitSyntax@)">
            <summary>
            Gets the root node of the syntax tree if it is available.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetRootAsync(System.Threading.CancellationToken)">
            <summary>
            Gets the root node of the syntax tree asynchronously.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetReference(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Gets a SyntaxReference for a specified syntax node. SyntaxReferences can be used to
            regain access to a syntax node without keeping the entire tree and source text in
            memory.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.IsEquivalentTo(Roslyn.Compilers.CSharp.SyntaxTree,System.Boolean)">
            <summary>
            Determines if two trees are the same, disregarding trivia differences.
            </summary>
            <param name="tree">The tree to compare against.</param>
            <param name="topLevel"> If true then the trees are equivalent if the contained nodes and tokens declaring
            metadata visible symbolic information are equivalent, ignoring any differences of nodes inside method bodies
            or initializer expressions, otherwise all nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.Create(Roslyn.Compilers.CSharp.CompilationUnitSyntax,System.String,Roslyn.Compilers.CSharp.ParseOptions)">
            <summary>
            Create a new syntax tree from a syntax node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.ParseText(System.String,System.String,Roslyn.Compilers.CSharp.ParseOptions,System.Threading.CancellationToken)">
            <summary>
            Produces a syntax tree by parsing the source text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.ParseText(Roslyn.Compilers.IText,System.String,Roslyn.Compilers.CSharp.ParseOptions,System.Threading.CancellationToken)">
            <summary>
            Produces a syntax tree by parsing the source text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.ParseFile(System.String,Roslyn.Compilers.CSharp.ParseOptions,System.Threading.CancellationToken)">
            <summary>
            Produces a syntax tree by parsing the source file.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.WithChangedText(Roslyn.Compilers.IText)">
            <summary>
            Create a new syntax based off this tree using a new source text. 
            
            If the new source text is a minor change from the current source text an incremental parse will occur
            reusing most of the current syntax tree internal data.  Otherwise, a full parse will using the new
            source text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetChangedSpans(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Produces a pessimistic list of spans that denote the regions of text in this tree that
            are changed from the text of the old tree.
            </summary>
            <param name="oldTree">The old tree.</param>
            <remarks>The list is pessimistic because it may claim more or larger regions than actually changed.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetChanges(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Gets a list of text changes that when applied to the old tree produce this tree.
            </summary>
            <param name="oldTree">The old tree.</param>
            <remarks>The list of changes may be different than the original changes that produced this tree.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetChangeRanges(Roslyn.Compilers.CSharp.SyntaxTree)">
            <summary>
            Gets a list of text change ranges that when applied to the old tree produce this tree.
            </summary>
            <param name="oldTree">The old tree.</param>
            <remarks>The list of changes may be different than the original changes that produced this tree.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetLineSpan(Roslyn.Compilers.TextSpan,System.Boolean,System.Threading.CancellationToken)">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/> for a <see cref="T:Roslyn.Compilers.TextSpan"/>. FileLinePositionSpans are used
            primarily for diagnostics and source locations.
            </summary>
            <param name="span">The source <see cref="T:Roslyn.Compilers.TextSpan"/> to convert.</param>
            <param name="usePreprocessorDirectives">An indicator that determines whether preprocessor #line directives
            are used to alter the resulting line span.</param>
            <param name="cancellationToken">The cancellation token.</param> 
            <returns>A resulting <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetLineSpanAndIsHidden(Roslyn.Compilers.TextSpan,System.Boolean@)">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/> for a <see cref="T:Roslyn.Compilers.TextSpan"/>. FileLinePositionSpans are used
            primarily for diagnostics and source locations.
            </summary>
            <param name="span">The source <see cref="T:Roslyn.Compilers.TextSpan"/> to convert.</param>
            <param name="isHiddenPosition">Returns a boolean indicating whether this span is considered hidden or not.</param>
            <returns>A resulting <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetLocation(Roslyn.Compilers.TextSpan)">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.CSharp.Location"/> for the specified text span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetDiagnostics(Roslyn.Compilers.CSharp.SyntaxNode)">
            <summary>
            Gets a list of all the diagnostics in the sub tree that has the specified node as its root.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetDiagnostics(Roslyn.Compilers.CSharp.SyntaxToken)">
            <summary>
            Gets a list of all the diagnostics associated with the token and any related trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetDiagnostics(Roslyn.Compilers.CSharp.SyntaxTrivia)">
            <summary>
            Gets a list of all the diagnostics associated with the trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetDiagnostics(Roslyn.Compilers.CSharp.SyntaxNodeOrToken)">
            <summary>
            Gets a list of all the diagnostics in either the sub tree that has the specified node as its root or
            associated with the token and its related trivia. 
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTree.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets a list of all the diagnostics in the syntax tree.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTree.Options">
            <summary>
            The options used by the parser to produce the syntax tree.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SyntaxTrivia">
            <summary>
            Represents "trivia" in the syntax model. Trivia represent parts of the source code that are
            largely insignificant to the semantic understanding of the code. Trivia includes whitespace,
            comments, directives, text skipped as a result of #if directives, and tokens skipped by the
            parser for error recovery. Trivia are always directly parents by a token. Each token may
            have multiple leading trivia nodes and multiple trailing trivia nodes. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.HasAnnotations(System.Type)">
            <summary>
            Determines whether this trivia has annotations of the specified type.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this trivia has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.GetAnnotations(System.Type)">
            <summary>
            Gets all the annotations of the specified type attached to this trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.ToString">
            <summary> 
            Returns the string representation of this trivia. If this trivia is structured trivia then the returned string
            will not include any leading or trailing trivia present on the StructuredTriviaSyntax node of this trivia.
            </summary>
            <returns>The string representation of this trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.ToFullString">
            <summary> 
            Returns the full string representation of this trivia. If this trivia is structured trivia then the returned string will
            include any leading or trailing trivia present on the StructuredTriviaSyntax node of this trivia.
            </summary>
            <returns>The full string representation of this trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this token to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.GetStructure">
            <summary>
            Gets the syntax node represented the structure of this trivia, if any. The HasStructure property can be used to 
            determine if this trivia has structure.
            </summary>
            <returns>
            A SyntaxNode derived from StructuredTriviaSyntax, with the structured view of this trivia node. 
            If this trivia node does not have structure, returns null.
            </returns>
            <remarks>
            Some types of trivia have structure that can be accessed as additional syntax nodes.
            These forms of trivia include: 
              directives, where the the structure describes the structure of the directive.
              documentation comments, where the structure describes the XML structure of the comment.
              skipped tokens, where the structure describes the tokens that were skipped by the parser.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.WithAdditionalAnnotations(Roslyn.Compilers.SyntaxAnnotation[])">
            <summary>
            Adds this annotation to a given syntax token, creating a new syntax token of the same type with the
            annotation on it.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.CopyAnnotationsTo(Roslyn.Compilers.CSharp.SyntaxTrivia)">
            <summary>
            Copies all SyntaxAnnotations, if any, from this SyntaxTrivia instance and attaches them to a new instance based on <paramref name="trivia" />.
            </summary>
            <remarks>
            If no annotations are copied, just returns <paramref name="trivia" />.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.EquivalentTo(Roslyn.Compilers.CSharp.SyntaxTrivia)">
            <summary>
            Determines whether this node is structurally equivalent to another.
            </summary>
            <param name="other"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.op_Implicit(Roslyn.Compilers.CSharp.SyntaxTrivia)~Roslyn.Compilers.Common.CommonSyntaxTrivia">
            <summary>
            Converts this SyntaxTrivia to a CommonSyntaxTrivia representing the same piece of trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.op_Explicit(Roslyn.Compilers.Common.CommonSyntaxTrivia)~Roslyn.Compilers.CSharp.SyntaxTrivia">
            <summary>
            Converts a CommonSyntaxTrivia into a SyntaxTrivia representing the same piece of trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.GetLocation">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.CSharp.Location"/> for this trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CSharp.SyntaxTrivia.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics associated with this trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.Token">
            <summary>
            The parent token that this trivia is attached to, either as leading or trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.SyntaxTree">
            <summary>
            SyntaxTree which contains current SyntaxTrivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.IsDirective">
            <summary>
            Returns true if this trivia is a directive (#if, #region, etc.)
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.Kind">
            <summary>
            Returns the kind of this trivia. The kind distinguishes between different sorts of trivia, such as spaces,
            newlines, comments, each sort of directive, disabled code, skipped tokens.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.Language">
            <summary>
            The language name that this trivia is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.FullSpan">
            <summary>
            The absolute span of this node in characters, including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.Span">
            <summary>
            The absolute span of this node in characters, not including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.FullWidth">
            <summary>
            The complete width of the node in characters, including leading and trailing trivia.
            </summary>
            <remarks>The FullWidth property returns the same value as FullSpan.Length, but is somewhat more
            efficient.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.Width">
            <summary>
            The width of the node in characters, not including leading and trailing trivia.
            </summary>
            <remarks>
            The Width property returns the same value as Span.Length, but is somewhat more efficient.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.ContainsDiagnostics">
            <summary>
            Determines whether this node or any of its descendant nodes, tokens or trivia have any diagnostics on them.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.ContainsAnnotations">
            <summary>
            Determines whether this node or any of its descendant nodes, tokens, or trivia have any annotations on them.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SyntaxTrivia.HasStructure">
            <summary>
            Returns true if this trivia node has structure that is exposed through the GetStructure() method.
            </summary>
            <remarks>
            Some types of trivia have structure that can be accessed as additional syntax nodes.
            These forms of trivia include: 
              directives, where the the structure describes the structure of the directive.
              documentation comments, where the structure describes the XML structure of the comment.
              skipped tokens, where the structure describes the tokens that were skipped by the parser.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeDeclarationSyntax">
            <summary>Base class for type declaration syntax (class, struct, interface).</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax">
            <summary>Base class for type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.BaseList">
            <summary>Gets the base type list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.OpenBraceToken">
            <summary>Gets the open brace token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.CloseBraceToken">
            <summary>Gets the close brace token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseTypeDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeDeclarationSyntax.Keyword">
            <summary>Gets the type keyword token ("class", "struct", "interface").</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeDeclarationSyntax.ConstraintClauses">
            <summary>Gets the type constraint list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeDeclarationSyntax.Members">
            <summary>Gets the member declarations.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.QualifiedNameSyntax">
            <summary>Class which represents the syntax node for qualified name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.QualifiedNameSyntax.Left">
            <summary>NameSyntax node representing the name on the left side of the dot token of the qualified name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.QualifiedNameSyntax.DotToken">
            <summary>SyntaxToken representing the dot.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.QualifiedNameSyntax.Right">
            <summary>SimpleNameSyntax node representing the name on the right side of the dot token of the qualified name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.GenericNameSyntax">
            <summary>Class which represents the syntax node for generic name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.GenericNameSyntax.Identifier">
            <summary>SyntaxToken representing the name of the identifier of the generic name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.GenericNameSyntax.TypeArgumentList">
            <summary>TypeArgumentListSyntax node representing the list of type arguments of the generic name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeArgumentListSyntax">
            <summary>Class which represents the syntax node for type argument list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeArgumentListSyntax.LessThanToken">
            <summary>SyntaxToken representing less than.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of TypeSyntax node representing the type arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeArgumentListSyntax.GreaterThanToken">
            <summary>SyntaxToken representing greater than.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AliasQualifiedNameSyntax">
            <summary>Class which represents the syntax node for alias qualified name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AliasQualifiedNameSyntax.Alias">
            <summary>IdentifierNameSyntax node representing the name of the alias</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AliasQualifiedNameSyntax.ColonColonToken">
            <summary>SyntaxToken representing colon colon.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AliasQualifiedNameSyntax.Name">
            <summary>SimpleNameSyntax node representing the name that is being alias qualified.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.PredefinedTypeSyntax">
            <summary>Class which represents the syntax node for predefined types.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PredefinedTypeSyntax.Keyword">
            <summary>SyntaxToken which represents the keyword corresponding to the predefined type.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ArrayTypeSyntax">
            <summary>Class which represents the syntax node for the array type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArrayTypeSyntax.ElementType">
            <summary>TypeSyntax node representing the type of the element of the array.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArrayTypeSyntax.RankSpecifiers">
            <summary>SyntaxList of ArrayRankSpecifierSyntax nodes representing the list of rank specifiers for the array.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.PointerTypeSyntax">
            <summary>Class which represents the syntax node for pointer type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PointerTypeSyntax.ElementType">
            <summary>TypeSyntax node that represents the element type of the pointer.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PointerTypeSyntax.AsteriskToken">
            <summary>SyntaxToken representing the asterisk.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.NullableTypeSyntax">
            <summary>Class which represents the syntax node for a nullable type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.NullableTypeSyntax.ElementType">
            <summary>TypeSyntax node representing the type of the element.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.NullableTypeSyntax.QuestionToken">
            <summary>SyntaxToken representing the question mark.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.OmittedTypeArgumentSyntax">
            <summary>Class which represents a placeholder in the type argument list of an unbound generic type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.OmittedTypeArgumentSyntax.OmittedTypeArgumentToken">
            <summary>SyntaxToken representing the omitted type argument.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedExpressionSyntax">
            <summary>Class which represents the syntax node for parenthesized expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing the open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression enclosed within the parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing the close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.PrefixUnaryExpressionSyntax">
            <summary>Class which represents the syntax node for prefix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PrefixUnaryExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the kind of the operator of the prefix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PrefixUnaryExpressionSyntax.Operand">
            <summary>ExpressionSyntax representing the operand of the prefix unary expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.PostfixUnaryExpressionSyntax">
            <summary>Class which represents the syntax node for postfix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PostfixUnaryExpressionSyntax.Operand">
            <summary>ExpressionSyntax representing the operand of the postfix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PostfixUnaryExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the kind of the operator of the postfix unary expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.MemberAccessExpressionSyntax">
            <summary>Class which represents the syntax node for member access expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MemberAccessExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the object that the member belongs to.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MemberAccessExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the kind of the operator in the member access expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MemberAccessExpressionSyntax.Name">
            <summary>SimpleNameSyntax node representing the member being accessed.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BinaryExpressionSyntax">
            <summary>Class which represents an expression that has a binary operator.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BinaryExpressionSyntax.Left">
            <summary>ExpressionSyntax node representing the expression on the left of the binary operator.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BinaryExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the operator of the binary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BinaryExpressionSyntax.Right">
            <summary>ExpressionSyntax node representing the expression on the right of the binary operator.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ConditionalExpressionSyntax">
            <summary>Class which represents the syntax node for conditional expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConditionalExpressionSyntax.Condition">
            <summary>ExpressionSyntax node representing the condition of the conditional expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConditionalExpressionSyntax.QuestionToken">
            <summary>SyntaxToken representing the question mark.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConditionalExpressionSyntax.WhenTrue">
            <summary>ExpressionSyntax node representing the expression to be executed when the condition is true.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConditionalExpressionSyntax.WhenFalse">
            <summary>ExpressionSyntax node representing the expression to be executed when the condition is false.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.InstanceExpressionSyntax">
            <summary>Provides the base class from which the classes that represent instance expression syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ThisExpressionSyntax">
            <summary>Class which represents the syntax node for a this expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ThisExpressionSyntax.Token">
            <summary>SyntaxToken representing the this keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BaseExpressionSyntax">
            <summary>Class which represents the syntax node for a base expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseExpressionSyntax.Token">
            <summary>SyntaxToken representing the base keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.LiteralExpressionSyntax">
            <summary>Class which represents the syntax node for a literal expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.LiteralExpressionSyntax.Token">
            <summary>SyntaxToken representing the keyword corresponding to the kind of the literal expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.MakeRefExpressionSyntax">
            <summary>Class which represents the syntax node for MakeRef expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MakeRefExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the MakeRefKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MakeRefExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MakeRefExpressionSyntax.Expression">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MakeRefExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.RefTypeExpressionSyntax">
            <summary>Class which represents the syntax node for RefType expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefTypeExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the RefTypeKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefTypeExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefTypeExpressionSyntax.Expression">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefTypeExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax">
            <summary>Class which represents the syntax node for RefValue expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the RefValueKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax.Expression">
            <summary>Typed reference expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax.Comma">
            <summary>Comma separating the arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax.Type">
            <summary>The type of the value.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.RefValueExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.CheckedExpressionSyntax">
            <summary>Class which represents the syntax node for Checked or Unchecked expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CheckedExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the checked or unchecked keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CheckedExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CheckedExpressionSyntax.Expression">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CheckedExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.DefaultExpressionSyntax">
            <summary>Class which represents the syntax node for Default expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DefaultExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the DefaultKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DefaultExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DefaultExpressionSyntax.Type">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DefaultExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeOfExpressionSyntax">
            <summary>Class which represents the syntax node for TypeOf expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeOfExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the TypeOfKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeOfExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeOfExpressionSyntax.Type">
            <summary>The expression to return type of.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeOfExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.SizeOfExpressionSyntax">
            <summary>Class which represents the syntax node for SizeOf expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SizeOfExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the SizeOfKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SizeOfExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SizeOfExpressionSyntax.Type">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SizeOfExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.InvocationExpressionSyntax">
            <summary>Class which represents the syntax node for invocation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.InvocationExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression part of the invocation.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.InvocationExpressionSyntax.ArgumentList">
            <summary>ArgumentListSyntax node representing the list of arguments of the invocation expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ElementAccessExpressionSyntax">
            <summary>Class which represents the syntax node for element access expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ElementAccessExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression which is accessing the element.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ElementAccessExpressionSyntax.ArgumentList">
            <summary>BracketedArgumentListSyntax node representing the list of arguments of the element access expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BaseArgumentListSyntax">
            <summary>Provides the base class from which the classes that represent argument list syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of ArgumentSyntax nodes representing the list of arguments.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentListSyntax">
            <summary>Class which represents the syntax node for the list of arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentListSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of ArgumentSyntax representing the list of arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentListSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BracketedArgumentListSyntax">
            <summary>Class which represents the syntax node for bracketed argument list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BracketedArgumentListSyntax.OpenBracketToken">
            <summary>SyntaxToken representing open bracket.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BracketedArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of ArgumentSyntax representing the list of arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BracketedArgumentListSyntax.CloseBracketToken">
            <summary>SyntaxToken representing close bracket.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentSyntax">
            <summary>Class which represents the syntax node for argument.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentSyntax.NameColon">
            <summary>NameColonSyntax node representing the optional name arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentSyntax.RefOrOutKeyword">
            <summary>SyntaxToken representing the optional ref or out keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArgumentSyntax.Expression">
            <summary>ExpressionSyntax node representing the argument.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.NameColonSyntax">
            <summary>Class which represents the syntax node for name colon syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.NameColonSyntax.Name">
            <summary>IdentifierNameSyntax representing the identifer name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.NameColonSyntax.ColonToken">
            <summary>SyntaxToken representing colon.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.CastExpressionSyntax">
            <summary>Class which represents the syntax node for cast expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CastExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing the open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CastExpressionSyntax.Type">
            <summary>TypeSyntax node representing the type the expression is being casted to.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CastExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing the close parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CastExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression that is being casted.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousMethodExpressionSyntax">
            <summary>Class which represents the syntax node for anonymous method expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousMethodExpressionSyntax.DelegateKeyword">
            <summary>SyntaxToken representing the delegate keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousMethodExpressionSyntax.ParameterList">
            <summary>List of parameters of the anonymous method expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousMethodExpressionSyntax.Block">
            <summary>BlockSyntax node representing the body of the anonymous method.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.SimpleLambdaExpressionSyntax">
            <summary>Class which represents the syntax node for a simple lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SimpleLambdaExpressionSyntax.Parameter">
            <summary>ParameterSyntax node representing the parameter of the lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SimpleLambdaExpressionSyntax.ArrowToken">
            <summary>SyntaxToken representing equals greater than.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SimpleLambdaExpressionSyntax.Body">
            <summary>SyntaxNode representing the body of the lambda expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedLambdaExpressionSyntax">
            <summary>Class which represents the syntax node for parenthesized lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedLambdaExpressionSyntax.ParameterList">
            <summary>ParameterListSyntax node representing the list of parameters for the lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedLambdaExpressionSyntax.ArrowToken">
            <summary>SyntaxToken representing equals greater than.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParenthesizedLambdaExpressionSyntax.Body">
            <summary>SyntaxNode representing the body of the lambda expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.InitializerExpressionSyntax">
            <summary>Class which represents the syntax node for initializer expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.InitializerExpressionSyntax.OpenBraceToken">
            <summary>SyntaxToken representing the open brace.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.InitializerExpressionSyntax.Expressions">
            <summary>SeparatedSyntaxList of ExpressionSyntax representing the list of expressions in the initializer expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.InitializerExpressionSyntax.CloseBraceToken">
            <summary>SyntaxToken representing the close brace.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ObjectCreationExpressionSyntax">
            <summary>Class which represents the syntax node for object creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ObjectCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ObjectCreationExpressionSyntax.Type">
            <summary>TypeSyntax representing the type of the object being created.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ObjectCreationExpressionSyntax.ArgumentList">
            <summary>ArgumentListSyntax representing the list of arguments passed as part of the object creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ObjectCreationExpressionSyntax.Initializer">
            <summary>InitializerExpressionSyntax representing the initializer expression for the object being created.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectMemberDeclaratorSyntax.NameEquals">
            <summary>NameEqualsSyntax representing the optional name of the property being initialized.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectMemberDeclaratorSyntax.Expression">
            <summary>ExpressionSyntax representing the value the property is initialized with.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectCreationExpressionSyntax">
            <summary>Class which represents the syntax node for anonymous object creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectCreationExpressionSyntax.OpenBraceToken">
            <summary>SyntaxToken representing the open brace.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectCreationExpressionSyntax.Initializers">
            <summary>SeparatedSyntaxList of AnonymousObjectPropertyInitializerSyntax representing the list of object property initializers.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AnonymousObjectCreationExpressionSyntax.CloseBraceToken">
            <summary>SyntaxToken representing the close brace.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ArrayCreationExpressionSyntax">
            <summary>Class which represents the syntax node for array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArrayCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArrayCreationExpressionSyntax.Type">
            <summary>ArrayTypeSyntax node representing the type of the array.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ArrayCreationExpressionSyntax.Initializer">
            <summary>InitializerExpressionSyntax node representing the initializer of the array creation expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ImplicitArrayCreationExpressionSyntax">
            <summary>Class which represents the syntax node for implicit array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ImplicitArrayCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ImplicitArrayCreationExpressionSyntax.OpenBracketToken">
            <summary>SyntaxToken representing the open bracket.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ImplicitArrayCreationExpressionSyntax.Commas">
            <summary>SyntaxList of SyntaxToken representing the commas in the implicit array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ImplicitArrayCreationExpressionSyntax.CloseBracketToken">
            <summary>SyntaxToken representing the close bracket.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ImplicitArrayCreationExpressionSyntax.Initializer">
            <summary>InitializerExpressionSyntax representing the initializer expression of the implicit array creation expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.StackAllocArrayCreationExpressionSyntax">
            <summary>Class which represents the syntax node for stackalloc array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.StackAllocArrayCreationExpressionSyntax.StackAllocKeyword">
            <summary>SyntaxToken representing the stackalloc keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.StackAllocArrayCreationExpressionSyntax.Type">
            <summary>TypeSyntax node representing the type of the stackalloc array.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.FromClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.LetClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.JoinClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.JoinIntoClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.QueryContinuationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.OmittedArraySizeExpressionSyntax">
            <summary>Class which represents a placeholder in an array size list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.OmittedArraySizeExpressionSyntax.OmittedArraySizeExpressionToken">
            <summary>SyntaxToken representing the omitted array size expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.MemberDeclarationSyntax">
            <summary>Member declaration syntax.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.StatementSyntax">
            <summary>Represents the base class for all statements syntax classes.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.LocalDeclarationStatementSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.VariableDeclaratorSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.LabeledStatementSyntax">
            <summary>Represents a labeled statement syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.LabeledStatementSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.LabeledStatementSyntax.ColonToken">
            <summary>Gets a SyntaxToken that represents the colon succeeding the statement's label.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.GotoStatementSyntax">
            <summary>
            Represents a goto statement syntax
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.GotoStatementSyntax.GotoKeyword">
            <summary>
            Gets a SyntaxToken that represents the goto keyword.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.GotoStatementSyntax.Expression">
            <summary>
            Gets a constant expression for a goto case statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.GotoStatementSyntax.SemicolonToken">
            <summary>
            Gets a SyntaxToken that represents the semi-colon at the end of the statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ForEachStatementSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax">
            <summary>
            Represents an if statement syntax.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax.IfKeyword">
            <summary>
            Gets a SyntaxToken that represents the if keyword.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax.OpenParenToken">
            <summary>
            Gets a SyntaxToken that represents the open parenthesis before the if statement's condition expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax.Condition">
            <summary>
            Gets an ExpressionSyntax that represents the condition of the if statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax.CloseParenToken">
            <summary>
            Gets a SyntaxToken that represents the close parenthesis after the if statement's condition expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax.Statement">
            <summary>
            Gets a StatementSyntax the represents the statement to be executed when the condition is true.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IfStatementSyntax.Else">
            <summary>
            Gets an ElseClauseSyntax that represents the statement to be executed when the condition is false if such statement exists.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ElseClauseSyntax">
            <summary>Represents an else statement syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ElseClauseSyntax.ElseKeyword">
            <summary>
            Gets a syntax token
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax">
            <summary>Represents a switch statement syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.SwitchKeyword">
            <summary>
            Gets a SyntaxToken that represents the switch keyword.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.OpenParenToken">
            <summary>
            Gets a SyntaxToken that represents the open parenthesis preceding the switch expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.Expression">
            <summary>
            Gets an ExpressionSyntax representing the expression of the switch statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.CloseParenToken">
            <summary>
            Gets a SyntaxToken that represents the close parenthesis succeeding the switch expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.OpenBraceToken">
            <summary>
            Gets a SyntaxToken that represents the open braces preceding the switch sections.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.Sections">
            <summary>
            Gets a SyntaxList of SwitchSectionSyntax's that represents the switch sections of the switch statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchStatementSyntax.CloseBraceToken">
            <summary>
            Gets a SyntaxToken that represents the open braces succeeding the switch sections.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.SwitchSectionSyntax">
            <summary>Represents a switch section syntax of a switch statement.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchSectionSyntax.Labels">
            <summary>
            Gets a SyntaxList of SwitchLabelSyntax's the represents the possible labels that control can transfer to within the section.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchSectionSyntax.Statements">
            <summary>
            Gets a SyntaxList of StatementSyntax's the represents the statements to be executed when control transfer to a label the belongs to the section.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.SwitchLabelSyntax">
            <summary>Represents a switch label within a switch statement.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchLabelSyntax.CaseOrDefaultKeyword">
            <summary>
            Gets a SyntaxToken that represents a case or default keywords that belongs to a switch label.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchLabelSyntax.Value">
            <summary>
            Gets an ExpressionSyntax that represents the constant expression that gets matched for the case label. For default label the property returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.SwitchLabelSyntax.ColonToken">
            <summary>
            Gets a SyntaxToken that represents the colon that terminates the switch label.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.CompilationUnitSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ExternAliasDirectiveSyntax">
            <summary>
            Represents an ExternAlias directive syntax, e.g. "extern alias MyAlias;" with specifying "/r:MyAlias=SomeAssembly.dll " on the compiler command line.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ExternAliasDirectiveSyntax.ExternKeyword">
            <summary>SyntaxToken representing the extern keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ExternAliasDirectiveSyntax.AliasKeyword">
            <summary>SyntaxToken representing the alias keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ExternAliasDirectiveSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ExternAliasDirectiveSyntax.SemicolonToken">
            <summary>SyntaxToken representing the semicolon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.NamespaceDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AttributeListSyntax">
            <summary>Class representing one or more attributes applied to a language construct.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeListSyntax.OpenBracketToken">
            <summary>Gets the open bracket token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeListSyntax.Attributes">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeListSyntax.CloseBracketToken">
            <summary>Gets the close bracket token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AttributeTargetSpecifierSyntax">
            <summary>Class representing what language construct an attribute targets.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeTargetSpecifierSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeTargetSpecifierSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AttributeSyntax">
            <summary>Attribute syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeSyntax.Name">
            <summary>Gets the name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AttributeArgumentListSyntax">
            <summary>Attribute argument list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeArgumentListSyntax.OpenParenToken">
            <summary>Gets the open paren token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeArgumentListSyntax.Arguments">
            <summary>Gets the arguments syntax list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeArgumentListSyntax.CloseParenToken">
            <summary>Gets the close paren token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.AttributeArgumentSyntax">
            <summary>Attribute argument syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AttributeArgumentSyntax.Expression">
            <summary>Gets the expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.NameEqualsSyntax">
            <summary>Class representing an identifier name followed by an equals token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.NameEqualsSyntax.Name">
            <summary>Gets the identifier name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterListSyntax">
            <summary>Type parameter list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterListSyntax.LessThanToken">
            <summary>Gets the &lt; token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterListSyntax.Parameters">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterListSyntax.GreaterThanToken">
            <summary>Gets the &gt; token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterSyntax">
            <summary>Type parameter syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax">
            <summary>Base class for type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.BaseList">
            <summary>Gets the base type list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.OpenBraceToken">
            <summary>Gets the open brace token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.CloseBraceToken">
            <summary>Gets the close brace token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseTypeDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeDeclarationSyntax">
            <summary>Base class for type declaration syntax (class, struct, interface).</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeDeclarationSyntax.Keyword">
            <summary>Gets the type keyword token ("class", "struct", "interface").</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeDeclarationSyntax.ConstraintClauses">
            <summary>Gets the type constraint list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeDeclarationSyntax.Members">
            <summary>Gets the member declarations.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ClassDeclarationSyntax">
            <summary>Class type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ClassDeclarationSyntax.Keyword">
            <summary>Gets the class keyword token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.StructDeclarationSyntax">
            <summary>Struct type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.StructDeclarationSyntax.Keyword">
            <summary>Gets the struct keyword token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.InterfaceDeclarationSyntax">
            <summary>Interface type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.InterfaceDeclarationSyntax.Keyword">
            <summary>Gets the interface keyword token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.EnumDeclarationSyntax">
            <summary>Enum type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EnumDeclarationSyntax.EnumKeyword">
            <summary>Gets the enum keyword token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EnumDeclarationSyntax.Members">
            <summary>Gets the members declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EnumDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax">
            <summary>Delegate declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.DelegateKeyword">
            <summary>Gets the "delegate" keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.ReturnType">
            <summary>Gets the return type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.ParameterList">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.ConstraintClauses">
            <summary>Gets the constraint clause list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DelegateDeclarationSyntax.SemicolonToken">
            <summary>Gets the semicolon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EnumMemberDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EnumMemberDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BaseListSyntax">
            <summary>Base list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseListSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseListSyntax.Types">
            <summary>Gets the base type references.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterConstraintClauseSyntax">
            <summary>Type parameter constraint clause.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterConstraintClauseSyntax.Name">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterConstraintClauseSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterConstraintClauseSyntax.Constraints">
            <summary>Gets the constraints list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeParameterConstraintSyntax">
            <summary>Base type for type parameter constraint syntax.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorConstraintSyntax">
            <summary>Constructor constraint syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorConstraintSyntax.NewKeyword">
            <summary>Gets the "new" keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorConstraintSyntax.OpenParenToken">
            <summary>Gets the open paren keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorConstraintSyntax.CloseParenToken">
            <summary>Gets the close paren keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ClassOrStructConstraintSyntax">
            <summary>Base type for class or struct constraint syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ClassOrStructConstraintSyntax.ClassOrStructKeyword">
            <summary>Gets the constraint keyword ("class" or "struct").</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.TypeConstraintSyntax">
            <summary>Type constraint syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.TypeConstraintSyntax.Type">
            <summary>Gets the type syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseFieldDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseFieldDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.FieldDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.FieldDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EventFieldDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EventFieldDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BaseMethodDeclarationSyntax">
            <summary>Base type for method declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseMethodDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseMethodDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseMethodDeclarationSyntax.ParameterList">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseMethodDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.MethodDeclarationSyntax">
            <summary>Method declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MethodDeclarationSyntax.ReturnType">
            <summary>Gets the return type syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MethodDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MethodDeclarationSyntax.ConstraintClauses">
            <summary>Gets the constraint clause list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.MethodDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.OperatorDeclarationSyntax">
            <summary>Operator declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.OperatorDeclarationSyntax.ReturnType">
            <summary>Gets the return type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.OperatorDeclarationSyntax.OperatorKeyword">
            <summary>Gets the "operator" keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.OperatorDeclarationSyntax.OperatorToken">
            <summary>Gets the operator token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ConversionOperatorDeclarationSyntax">
            <summary>Conversion operator declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConversionOperatorDeclarationSyntax.ImplicitOrExplicitKeyword">
            <summary>Gets the "implicit" or "explicit" token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConversionOperatorDeclarationSyntax.OperatorKeyword">
            <summary>Gets the "operator" token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConversionOperatorDeclarationSyntax.Type">
            <summary>Gets the type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConversionOperatorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorDeclarationSyntax">
            <summary>Constructor declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorInitializerSyntax">
            <summary>Constructor initializer syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorInitializerSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ConstructorInitializerSyntax.ThisOrBaseKeyword">
            <summary>Gets the "this" or "base" keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.DestructorDeclarationSyntax">
            <summary>Destructor declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DestructorDeclarationSyntax.TildeToken">
            <summary>Gets the tilde token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DestructorDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.DestructorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BasePropertyDeclarationSyntax">
            <summary>Base type for property declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BasePropertyDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BasePropertyDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BasePropertyDeclarationSyntax.Type">
            <summary>Gets the type syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BasePropertyDeclarationSyntax.ExplicitInterfaceSpecifier">
            <summary>Gets the optional explicit interface specifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.PropertyDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.EventDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IndexerDeclarationSyntax.ParameterList">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AccessorDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AccessorDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AccessorDeclarationSyntax.Keyword">
            <summary>Gets the keyword token, or identifier if an erroneous accessor declaration.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AccessorDeclarationSyntax.Body">
            <summary>Gets the optional body block which may be empty, but it is null if there are no braces.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.AccessorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BaseParameterListSyntax">
            <summary>Base type for parameter list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BaseParameterListSyntax.Parameters">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ParameterListSyntax">
            <summary>Parameter list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParameterListSyntax.OpenParenToken">
            <summary>Gets the open paren token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParameterListSyntax.CloseParenToken">
            <summary>Gets the close paren token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.BracketedParameterListSyntax">
            <summary>Parameter list syntax with surrounding brackets.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BracketedParameterListSyntax.OpenBracketToken">
            <summary>Gets the open bracket token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.BracketedParameterListSyntax.CloseBracketToken">
            <summary>Gets the close bracket token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InternalSyntax.ParameterSyntax">
            <summary>Parameter syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParameterSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParameterSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.ParameterSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IncompleteMemberSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InternalSyntax.IncompleteMemberSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IdentifierNameSyntax">
            <summary>Class which represents the syntax node for identifier name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IdentifierNameSyntax.Identifier">
            <summary>SyntaxToken representing the keyword for the kind of the identifier name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeArgumentListSyntax">
            <summary>Class which represents the syntax node for type argument list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeArgumentListSyntax.LessThanToken">
            <summary>SyntaxToken representing less than.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of TypeSyntax node representing the type arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeArgumentListSyntax.GreaterThanToken">
            <summary>SyntaxToken representing greater than.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PredefinedTypeSyntax">
            <summary>Class which represents the syntax node for predefined types.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PredefinedTypeSyntax.Keyword">
            <summary>SyntaxToken which represents the keyword corresponding to the predefined type.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ArrayTypeSyntax">
            <summary>Class which represents the syntax node for the array type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayTypeSyntax.ElementType">
            <summary>TypeSyntax node representing the type of the element of the array.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayTypeSyntax.RankSpecifiers">
            <summary>SyntaxList of ArrayRankSpecifierSyntax nodes representing the list of rank specifiers for the array.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PointerTypeSyntax">
            <summary>Class which represents the syntax node for pointer type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PointerTypeSyntax.ElementType">
            <summary>TypeSyntax node that represents the element type of the pointer.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PointerTypeSyntax.AsteriskToken">
            <summary>SyntaxToken representing the asterisk.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NullableTypeSyntax">
            <summary>Class which represents the syntax node for a nullable type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NullableTypeSyntax.ElementType">
            <summary>TypeSyntax node representing the type of the element.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NullableTypeSyntax.QuestionToken">
            <summary>SyntaxToken representing the question mark.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OmittedTypeArgumentSyntax">
            <summary>Class which represents a placeholder in the type argument list of an unbound generic type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OmittedTypeArgumentSyntax.OmittedTypeArgumentToken">
            <summary>SyntaxToken representing the omitted type argument.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParenthesizedExpressionSyntax">
            <summary>Class which represents the syntax node for parenthesized expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParenthesizedExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing the open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParenthesizedExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression enclosed within the parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParenthesizedExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing the close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PrefixUnaryExpressionSyntax">
            <summary>Class which represents the syntax node for prefix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PrefixUnaryExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the kind of the operator of the prefix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PrefixUnaryExpressionSyntax.Operand">
            <summary>ExpressionSyntax representing the operand of the prefix unary expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.PostfixUnaryExpressionSyntax">
            <summary>Class which represents the syntax node for postfix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PostfixUnaryExpressionSyntax.Operand">
            <summary>ExpressionSyntax representing the operand of the postfix unary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PostfixUnaryExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the kind of the operator of the postfix unary expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax">
            <summary>Class which represents the syntax node for member access expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the object that the member belongs to.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the kind of the operator in the member access expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MemberAccessExpressionSyntax.Name">
            <summary>SimpleNameSyntax node representing the member being accessed.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BinaryExpressionSyntax">
            <summary>Class which represents an expression that has a binary operator.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BinaryExpressionSyntax.Left">
            <summary>ExpressionSyntax node representing the expression on the left of the binary operator.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BinaryExpressionSyntax.OperatorToken">
            <summary>SyntaxToken representing the operator of the binary expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BinaryExpressionSyntax.Right">
            <summary>ExpressionSyntax node representing the expression on the right of the binary operator.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConditionalExpressionSyntax">
            <summary>Class which represents the syntax node for conditional expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConditionalExpressionSyntax.Condition">
            <summary>ExpressionSyntax node representing the condition of the conditional expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConditionalExpressionSyntax.QuestionToken">
            <summary>SyntaxToken representing the question mark.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConditionalExpressionSyntax.WhenTrue">
            <summary>ExpressionSyntax node representing the expression to be executed when the condition is true.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConditionalExpressionSyntax.WhenFalse">
            <summary>ExpressionSyntax node representing the expression to be executed when the condition is false.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InstanceExpressionSyntax">
            <summary>Provides the base class from which the classes that represent instance expression syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ThisExpressionSyntax">
            <summary>Class which represents the syntax node for a this expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ThisExpressionSyntax.Token">
            <summary>SyntaxToken representing the this keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BaseExpressionSyntax">
            <summary>Class which represents the syntax node for a base expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseExpressionSyntax.Token">
            <summary>SyntaxToken representing the base keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LiteralExpressionSyntax">
            <summary>Class which represents the syntax node for a literal expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LiteralExpressionSyntax.Token">
            <summary>SyntaxToken representing the keyword corresponding to the kind of the literal expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.MakeRefExpressionSyntax">
            <summary>Class which represents the syntax node for MakeRef expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MakeRefExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the MakeRefKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MakeRefExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MakeRefExpressionSyntax.Expression">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.MakeRefExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.RefTypeExpressionSyntax">
            <summary>Class which represents the syntax node for RefType expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefTypeExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the RefTypeKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefTypeExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefTypeExpressionSyntax.Expression">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefTypeExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.RefValueExpressionSyntax">
            <summary>Class which represents the syntax node for RefValue expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefValueExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the RefValueKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefValueExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefValueExpressionSyntax.Expression">
            <summary>Typed reference expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefValueExpressionSyntax.Comma">
            <summary>Comma separating the arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefValueExpressionSyntax.Type">
            <summary>The type of the value.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.RefValueExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CheckedExpressionSyntax">
            <summary>Class which represents the syntax node for Checked or Unchecked expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CheckedExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the checked or unchecked keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CheckedExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CheckedExpressionSyntax.Expression">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CheckedExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DefaultExpressionSyntax">
            <summary>Class which represents the syntax node for Default expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DefaultExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the DefaultKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DefaultExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DefaultExpressionSyntax.Type">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DefaultExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeOfExpressionSyntax">
            <summary>Class which represents the syntax node for TypeOf expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeOfExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the TypeOfKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeOfExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeOfExpressionSyntax.Type">
            <summary>The expression to return type of.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeOfExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SizeOfExpressionSyntax">
            <summary>Class which represents the syntax node for SizeOf expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SizeOfExpressionSyntax.Keyword">
            <summary>SyntaxToken representing the SizeOfKeyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SizeOfExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SizeOfExpressionSyntax.Type">
            <summary>Argument of the primary function.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SizeOfExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InvocationExpressionSyntax">
            <summary>Class which represents the syntax node for invocation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InvocationExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression part of the invocation.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InvocationExpressionSyntax.ArgumentList">
            <summary>ArgumentListSyntax node representing the list of arguments of the invocation expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ElementAccessExpressionSyntax">
            <summary>Class which represents the syntax node for element access expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ElementAccessExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression which is accessing the element.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ElementAccessExpressionSyntax.ArgumentList">
            <summary>BracketedArgumentListSyntax node representing the list of arguments of the element access expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BaseArgumentListSyntax">
            <summary>Provides the base class from which the classes that represent argument list syntax nodes are derived. This is an abstract class.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of ArgumentSyntax nodes representing the list of arguments.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ArgumentListSyntax">
            <summary>Class which represents the syntax node for the list of arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArgumentListSyntax.OpenParenToken">
            <summary>SyntaxToken representing open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of ArgumentSyntax representing the list of arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArgumentListSyntax.CloseParenToken">
            <summary>SyntaxToken representing close parenthesis.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BracketedArgumentListSyntax">
            <summary>Class which represents the syntax node for bracketed argument list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BracketedArgumentListSyntax.OpenBracketToken">
            <summary>SyntaxToken representing open bracket.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BracketedArgumentListSyntax.Arguments">
            <summary>SeparatedSyntaxList of ArgumentSyntax representing the list of arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BracketedArgumentListSyntax.CloseBracketToken">
            <summary>SyntaxToken representing close bracket.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ArgumentSyntax">
            <summary>Class which represents the syntax node for argument.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArgumentSyntax.NameColon">
            <summary>NameColonSyntax node representing the optional name arguments.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArgumentSyntax.RefOrOutKeyword">
            <summary>SyntaxToken representing the optional ref or out keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArgumentSyntax.Expression">
            <summary>ExpressionSyntax node representing the argument.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NameColonSyntax">
            <summary>Class which represents the syntax node for name colon syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NameColonSyntax.Name">
            <summary>IdentifierNameSyntax representing the identifer name.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NameColonSyntax.ColonToken">
            <summary>SyntaxToken representing colon.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.CastExpressionSyntax">
            <summary>Class which represents the syntax node for cast expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CastExpressionSyntax.OpenParenToken">
            <summary>SyntaxToken representing the open parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CastExpressionSyntax.Type">
            <summary>TypeSyntax node representing the type the expression is being casted to.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CastExpressionSyntax.CloseParenToken">
            <summary>SyntaxToken representing the close parenthesis.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.CastExpressionSyntax.Expression">
            <summary>ExpressionSyntax node representing the expression that is being casted.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousMethodExpressionSyntax">
            <summary>Class which represents the syntax node for anonymous method expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousMethodExpressionSyntax.DelegateKeyword">
            <summary>SyntaxToken representing the delegate keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousMethodExpressionSyntax.ParameterList">
            <summary>List of parameters of the anonymous method expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousMethodExpressionSyntax.Block">
            <summary>BlockSyntax node representing the body of the anonymous method.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SimpleLambdaExpressionSyntax">
            <summary>Class which represents the syntax node for a simple lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SimpleLambdaExpressionSyntax.Parameter">
            <summary>ParameterSyntax node representing the parameter of the lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SimpleLambdaExpressionSyntax.ArrowToken">
            <summary>SyntaxToken representing equals greater than.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SimpleLambdaExpressionSyntax.Body">
            <summary>SyntaxNode representing the body of the lambda expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParenthesizedLambdaExpressionSyntax">
            <summary>Class which represents the syntax node for parenthesized lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParenthesizedLambdaExpressionSyntax.ParameterList">
            <summary>ParameterListSyntax node representing the list of parameters for the lambda expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParenthesizedLambdaExpressionSyntax.ArrowToken">
            <summary>SyntaxToken representing equals greater than.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParenthesizedLambdaExpressionSyntax.Body">
            <summary>SyntaxNode representing the body of the lambda expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InitializerExpressionSyntax">
            <summary>Class which represents the syntax node for initializer expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InitializerExpressionSyntax.OpenBraceToken">
            <summary>SyntaxToken representing the open brace.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InitializerExpressionSyntax.Expressions">
            <summary>SeparatedSyntaxList of ExpressionSyntax representing the list of expressions in the initializer expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InitializerExpressionSyntax.CloseBraceToken">
            <summary>SyntaxToken representing the close brace.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax">
            <summary>Class which represents the syntax node for object creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax.Type">
            <summary>TypeSyntax representing the type of the object being created.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax.ArgumentList">
            <summary>ArgumentListSyntax representing the list of arguments passed as part of the object creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ObjectCreationExpressionSyntax.Initializer">
            <summary>InitializerExpressionSyntax representing the initializer expression for the object being created.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax.NameEquals">
            <summary>NameEqualsSyntax representing the optional name of the property being initialized.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousObjectMemberDeclaratorSyntax.Expression">
            <summary>ExpressionSyntax representing the value the property is initialized with.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax">
            <summary>Class which represents the syntax node for anonymous object creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax.OpenBraceToken">
            <summary>SyntaxToken representing the open brace.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax.Initializers">
            <summary>SeparatedSyntaxList of AnonymousObjectPropertyInitializerSyntax representing the list of object property initializers.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AnonymousObjectCreationExpressionSyntax.CloseBraceToken">
            <summary>SyntaxToken representing the close brace.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ArrayCreationExpressionSyntax">
            <summary>Class which represents the syntax node for array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayCreationExpressionSyntax.Type">
            <summary>ArrayTypeSyntax node representing the type of the array.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ArrayCreationExpressionSyntax.Initializer">
            <summary>InitializerExpressionSyntax node representing the initializer of the array creation expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax">
            <summary>Class which represents the syntax node for implicit array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax.NewKeyword">
            <summary>SyntaxToken representing the new keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax.OpenBracketToken">
            <summary>SyntaxToken representing the open bracket.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax.Commas">
            <summary>SyntaxList of SyntaxToken representing the commas in the implicit array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax.CloseBracketToken">
            <summary>SyntaxToken representing the close bracket.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ImplicitArrayCreationExpressionSyntax.Initializer">
            <summary>InitializerExpressionSyntax representing the initializer expression of the implicit array creation expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.StackAllocArrayCreationExpressionSyntax">
            <summary>Class which represents the syntax node for stackalloc array creation expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.StackAllocArrayCreationExpressionSyntax.StackAllocKeyword">
            <summary>SyntaxToken representing the stackalloc keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.StackAllocArrayCreationExpressionSyntax.Type">
            <summary>TypeSyntax node representing the type of the stackalloc array.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FromClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LetClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.JoinClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.JoinIntoClauseSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.QueryContinuationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OmittedArraySizeExpressionSyntax">
            <summary>Class which represents a placeholder in an array size list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OmittedArraySizeExpressionSyntax.OmittedArraySizeExpressionToken">
            <summary>SyntaxToken representing the omitted array size expression.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.VariableDeclaratorSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.LabeledStatementSyntax">
            <summary>Represents a labeled statement syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabeledStatementSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.LabeledStatementSyntax.ColonToken">
            <summary>Gets a SyntaxToken that represents the colon succeeding the statement's label.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.GotoStatementSyntax">
            <summary>
            Represents a goto statement syntax
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.GotoStatementSyntax.GotoKeyword">
            <summary>
            Gets a SyntaxToken that represents the goto keyword.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.GotoStatementSyntax.Expression">
            <summary>
            Gets a constant expression for a goto case statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.GotoStatementSyntax.SemicolonToken">
            <summary>
            Gets a SyntaxToken that represents the semi-colon at the end of the statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ForEachStatementSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.IfStatementSyntax">
            <summary>
            Represents an if statement syntax.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IfStatementSyntax.IfKeyword">
            <summary>
            Gets a SyntaxToken that represents the if keyword.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IfStatementSyntax.OpenParenToken">
            <summary>
            Gets a SyntaxToken that represents the open parenthesis before the if statement's condition expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IfStatementSyntax.Condition">
            <summary>
            Gets an ExpressionSyntax that represents the condition of the if statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IfStatementSyntax.CloseParenToken">
            <summary>
            Gets a SyntaxToken that represents the close parenthesis after the if statement's condition expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IfStatementSyntax.Statement">
            <summary>
            Gets a StatementSyntax the represents the statement to be executed when the condition is true.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IfStatementSyntax.Else">
            <summary>
            Gets an ElseClauseSyntax that represents the statement to be executed when the condition is false if such statement exists.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ElseClauseSyntax">
            <summary>Represents an else statement syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ElseClauseSyntax.ElseKeyword">
            <summary>
            Gets a syntax token
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SwitchStatementSyntax">
            <summary>Represents a switch statement syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.SwitchKeyword">
            <summary>
            Gets a SyntaxToken that represents the switch keyword.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.OpenParenToken">
            <summary>
            Gets a SyntaxToken that represents the open parenthesis preceding the switch expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.Expression">
            <summary>
            Gets an ExpressionSyntax representing the expression of the switch statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.CloseParenToken">
            <summary>
            Gets a SyntaxToken that represents the close parenthesis succeeding the switch expression.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.OpenBraceToken">
            <summary>
            Gets a SyntaxToken that represents the open braces preceding the switch sections.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.Sections">
            <summary>
            Gets a SyntaxList of SwitchSectionSyntax's that represents the switch sections of the switch statement.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchStatementSyntax.CloseBraceToken">
            <summary>
            Gets a SyntaxToken that represents the open braces succeeding the switch sections.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SwitchSectionSyntax">
            <summary>Represents a switch section syntax of a switch statement.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchSectionSyntax.Labels">
            <summary>
            Gets a SyntaxList of SwitchLabelSyntax's the represents the possible labels that control can transfer to within the section.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchSectionSyntax.Statements">
            <summary>
            Gets a SyntaxList of StatementSyntax's the represents the statements to be executed when control transfer to a label the belongs to the section.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.SwitchLabelSyntax">
            <summary>Represents a switch label within a switch statement.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchLabelSyntax.CaseOrDefaultKeyword">
            <summary>
            Gets a SyntaxToken that represents a case or default keywords that belongs to a switch label.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchLabelSyntax.Value">
            <summary>
            Gets an ExpressionSyntax that represents the constant expression that gets matched for the case label. For default label the property returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.SwitchLabelSyntax.ColonToken">
            <summary>
            Gets a SyntaxToken that represents the colon that terminates the switch label.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax">
            <summary>
            Represents an ExternAlias directive syntax, e.g. "extern alias MyAlias;" with specifying "/r:MyAlias=SomeAssembly.dll " on the compiler command line.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax.ExternKeyword">
            <summary>SyntaxToken representing the extern keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax.AliasKeyword">
            <summary>SyntaxToken representing the alias keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ExternAliasDirectiveSyntax.SemicolonToken">
            <summary>SyntaxToken representing the semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeListSyntax">
            <summary>Class representing one or more attributes applied to a language construct.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeListSyntax.OpenBracketToken">
            <summary>Gets the open bracket token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeListSyntax.Attributes">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeListSyntax.CloseBracketToken">
            <summary>Gets the close bracket token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeArgumentListSyntax">
            <summary>Attribute argument list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeArgumentListSyntax.OpenParenToken">
            <summary>Gets the open paren token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeArgumentListSyntax.Arguments">
            <summary>Gets the arguments syntax list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeArgumentListSyntax.CloseParenToken">
            <summary>Gets the close paren token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.AttributeArgumentSyntax">
            <summary>Attribute argument syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AttributeArgumentSyntax.Expression">
            <summary>Gets the expression.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.NameEqualsSyntax">
            <summary>Class representing an identifier name followed by an equals token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.NameEqualsSyntax.Name">
            <summary>Gets the identifier name.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterListSyntax">
            <summary>Type parameter list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterListSyntax.LessThanToken">
            <summary>Gets the &lt; token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterListSyntax.Parameters">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterListSyntax.GreaterThanToken">
            <summary>Gets the &gt; token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterSyntax">
            <summary>Type parameter syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ClassDeclarationSyntax">
            <summary>Class type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ClassDeclarationSyntax.Keyword">
            <summary>Gets the class keyword token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.StructDeclarationSyntax">
            <summary>Struct type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.StructDeclarationSyntax.Keyword">
            <summary>Gets the struct keyword token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.InterfaceDeclarationSyntax">
            <summary>Interface type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.InterfaceDeclarationSyntax.Keyword">
            <summary>Gets the interface keyword token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.EnumDeclarationSyntax">
            <summary>Enum type declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EnumDeclarationSyntax.EnumKeyword">
            <summary>Gets the enum keyword token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EnumDeclarationSyntax.Members">
            <summary>Gets the members declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EnumDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EnumMemberDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BaseListSyntax">
            <summary>Base list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseListSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseListSyntax.Types">
            <summary>Gets the base type references.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax">
            <summary>Type parameter constraint clause.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax.Name">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeParameterConstraintClauseSyntax.Constraints">
            <summary>Gets the constraints list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeParameterConstraintSyntax">
            <summary>Base type for type parameter constraint syntax.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstructorConstraintSyntax">
            <summary>Constructor constraint syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorConstraintSyntax.NewKeyword">
            <summary>Gets the "new" keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorConstraintSyntax.OpenParenToken">
            <summary>Gets the open paren keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorConstraintSyntax.CloseParenToken">
            <summary>Gets the close paren keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ClassOrStructConstraintSyntax">
            <summary>Base type for class or struct constraint syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ClassOrStructConstraintSyntax.ClassOrStructKeyword">
            <summary>Gets the constraint keyword ("class" or "struct").</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.TypeConstraintSyntax">
            <summary>Type constraint syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.TypeConstraintSyntax.Type">
            <summary>Gets the type syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseFieldDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseFieldDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.FieldDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventFieldDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventFieldDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.OperatorDeclarationSyntax">
            <summary>Operator declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OperatorDeclarationSyntax.ReturnType">
            <summary>Gets the return type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OperatorDeclarationSyntax.OperatorKeyword">
            <summary>Gets the "operator" keyword.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.OperatorDeclarationSyntax.OperatorToken">
            <summary>Gets the operator token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax">
            <summary>Conversion operator declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax.ImplicitOrExplicitKeyword">
            <summary>Gets the "implicit" or "explicit" token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax.OperatorKeyword">
            <summary>Gets the "operator" token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax.Type">
            <summary>Gets the type.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConversionOperatorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstructorDeclarationSyntax">
            <summary>Constructor declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ConstructorInitializerSyntax">
            <summary>Constructor initializer syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorInitializerSyntax.ColonToken">
            <summary>Gets the colon token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ConstructorInitializerSyntax.ThisOrBaseKeyword">
            <summary>Gets the "this" or "base" keyword.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.DestructorDeclarationSyntax">
            <summary>Destructor declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DestructorDeclarationSyntax.TildeToken">
            <summary>Gets the tilde token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DestructorDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.DestructorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax">
            <summary>Base type for property declaration syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax.Type">
            <summary>Gets the type syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BasePropertyDeclarationSyntax.ExplicitInterfaceSpecifier">
            <summary>Gets the optional explicit interface specifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.PropertyDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.EventDeclarationSyntax.Identifier">
            <summary>Gets the identifier.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IndexerDeclarationSyntax.ParameterList">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AccessorDeclarationSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AccessorDeclarationSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AccessorDeclarationSyntax.Keyword">
            <summary>Gets the keyword token, or identifier if an erroneous accessor declaration.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AccessorDeclarationSyntax.Body">
            <summary>Gets the optional body block which may be empty, but it is null if there are no braces.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.AccessorDeclarationSyntax.SemicolonToken">
            <summary>Gets the optional semicolon token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BaseParameterListSyntax">
            <summary>Base type for parameter list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BaseParameterListSyntax.Parameters">
            <summary>Gets the parameter list.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.ParameterListSyntax">
            <summary>Parameter list syntax.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterListSyntax.OpenParenToken">
            <summary>Gets the open paren token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.ParameterListSyntax.CloseParenToken">
            <summary>Gets the close paren token.</summary>
        </member>
        <member name="T:Roslyn.Compilers.CSharp.BracketedParameterListSyntax">
            <summary>Parameter list syntax with surrounding brackets.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BracketedParameterListSyntax.OpenBracketToken">
            <summary>Gets the open bracket token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.BracketedParameterListSyntax.CloseBracketToken">
            <summary>Gets the close bracket token.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IncompleteMemberSyntax.AttributeLists">
            <summary>Gets the attribute declaration list.</summary>
        </member>
        <member name="P:Roslyn.Compilers.CSharp.IncompleteMemberSyntax.Modifiers">
            <summary>Gets the modifier list.</summary>
        </member>
    </members>
</doc>
tools\icsharp\Roslyn.Compilers.dll
 
tools\icsharp\Roslyn.Compilers.xml
<?xml version="1.0"?>
<doc>
    <assembly>
        <name>Roslyn.Compilers</name>
    </assembly>
    <members>
        <member name="T:Roslyn.Compilers.CommonAssemblyManager`3">
            <summary>
            The base class for language specific assembly managers.
            </summary>
            <typeparam name="TCompilation">Language specific representation for a compilation</typeparam>
            <typeparam name="TAssemblySymbol">Language specific representation for an assembly symbol.</typeparam>
            <typeparam name="TModuleSymbol">Language specific representation for a module symbol</typeparam>
        </member>
        <member name="F:Roslyn.Compilers.CommonAssemblyManager`3.UnknownAssemblyName">
            <summary>
            The name to be used as an assembly name in case a netmodule is 
            being built and '/moduleassemblyname' was not provided 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CheckPropertiesConsistency(Roslyn.Compilers.MetadataReference,Roslyn.Compilers.MetadataReference,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Checks if the properties of <paramref name="duplicateReference"/> are compatible with properties of <paramref name="primaryReference"/>.
            Reports inconsistencies to the given diagnostic bag.
            </summary>
            <returns>True if the properties are compatible and hence merged, false if the duplicate reference should not merge it's properties with primary reference.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.WeakIdentityPropertiesEquivalent(Roslyn.Compilers.AssemblyIdentity,Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Called to compare two weakly named identities with the same name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.ResolveMetadataReferences(`0,System.Collections.Generic.List{Roslyn.Compilers.MetadataReference},System.Collections.Generic.IDictionary{System.String,Roslyn.Compilers.MetadataReference}@,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.MetadataReference}@,System.Collections.Generic.List{Roslyn.Compilers.CommonAssemblyManager{`0,`1,`2}.AssemblyData},System.Collections.Generic.List{Roslyn.Compilers.MetadataReader.Module},Roslyn.Compilers.DiagnosticBag)">
             <summary>
             Resolves given metadata references to assemblies and modules.
             </summary>
             <param name="compilation">The compilation whose references are being resolved.</param>
             <param name="references">List where to store resolved references. References from #r directives will follow references passed to the compilation constructor.</param>
             <param name="boundReferenceDirectiveMap">Maps #r values to successuflly resolved metadata references. Does not contain values that failed to resolve.</param>
             <param name="boundReferenceDirectives">Unique metadata references resolved from #r directives.</param>
             <param name="assemblies">List where to store information about resolved assemblies to.</param>
             <param name="modules">List where to store information about resolved modules to.</param>
             <param name="diagnostics">Diagnostic bag where to report resolution errors.</param>
             <returns>
             Maps index to <paramref name="references"/> to an index of a resolved assembly or module in <paramref name="assemblies"/> or <paramref name="modules"/>, respectively.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.ResolveReferenceDirective(System.String,Roslyn.Compilers.Common.CommonLocation,`0)">
            <summary>
            For each given directive return a bound PE reference, or null if the binding fails.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.ResolveReferencedAssembly(Roslyn.Compilers.AssemblyIdentity,Roslyn.Compilers.CommonAssemblyManager{`0,`1,`2}.AssemblyData[],System.Int32@)">
            <summary>
            Used to match AssemblyRef with AssemblyDef.
            </summary>
            <param name="definitions">Array of definition identities to match against.</param>
            <param name="reference">Reference identity to resolve.</param>
            <param name="versionDifference">
            Undefined if returned value is -1.
            Otherwise:
               0 if the reference is equivalent to the returned definition.
              -1 if version of the matched definition is lower than version of the reference, but the reference otherwise matches the definition.
              +1 if version of the matched definition is higher than version of the reference, but the reference otherwise matches the definition.
            </param>
            <returns>
            Returns an index the reference is bound to:
              Index >= 0 when reference is bound to an assembly with index (I)
              Index = -1 when reference cannot be resolved
            </returns>
        </member>
        <member name="T:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceBinding">
            <summary>
            Used for result of the Bind method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceBinding.AssemblySymbol">
            <summary>
            Suitable AssemblySymbol instance for the corresponding assembly, 
            null reference if none is available/found.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceBinding.ReferenceBinding">
            <summary>
            Result of resolving assembly references of the corresponding assembly 
            against provided set of assemblies. Essentially, this is an array returned by
            AssemblyData.BindAssemblyReferences method. 
            
            Each element (ReferenceBinding[i]) is an index of the AssemblyData object in 
            the input array of the Bind method, which describes the assembly the
            corresponding reference (AssemblyReferences[i]) is bound to:
             Index >= 0 when reference is bound to an assembly with index (Index)
             Index = -1 When reference cannot be resolved
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceCandidate">
            <summary>
            Private helper class to capture information about AssemblySymbol instance we 
            should check for suitability. Used by the Bind method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceCandidate.AssemblyIndex">
            <summary>
            An index of the AssemblyData object in the input array. AssemblySymbol instance should 
            be checked for suitability against assembly described by that object, taking into account 
            assemblies described by other AssemblyData objects in the input array.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceCandidate.AssemblySymbol">
            <summary>
            AssemblySymbol instance to check for suitability.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyReferenceCandidate.#ctor(System.Int32,`1)">
            <summary>
            Convenience constructor to initialize fields of this structure.
            </summary>
            <param name="index">Value for AssemblyIndex field.</param>
            <param name="sym">Value for AssemblySymbol field.</param>
        </member>
        <member name="T:Roslyn.Compilers.CommonAssemblyManager`3.MetadataReferenceEqualityComparer">
            <summary>
            Decides whether 2 references are interchangeable when used in the same compilation.
            PE references are interchangeable if they have the same non-null full path, compilation references if they refer to the same compilation.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyData">
            <summary>
            Information about an assembly, used as an input for the Binder class.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyData.IsMatchingAssembly(`1)">
            <summary>
            Check if provided AssemblySymbol is created for assembly described by this instance. 
            This method is expected to return true for every AssemblySymbol returned by 
            AvailableSymbols property.
            </summary>
            <param name="assembly">
            The AssemblySymbol to check.
            </param>
            <returns>Boolean.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyData.BindAssemblyReferences(Roslyn.Compilers.CommonAssemblyManager{`0,`1,`2}.AssemblyData[],Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Resolve assembly references against assemblies described by provided AssemblyData objects. 
            In other words, match assembly identities returned by AssemblyReferences property against 
            assemblies described by provided AssemblyData objects.
            </summary>
            <param name="assemblies">
            An array of AssemblyData objects to match against.
            </param>
            <param name="diagnostics">TODO (tomat): remove</param>
            <returns>
            An array of indexes, each element (result[i]) is an index of the assembly the
            corresponding reference (AssemblyReferences[i]) is bound to:
             Index >= 0 when reference is bound to an assembly with index (Index)
             Index = -1 When reference cannot be resolved
             
            The array must have the same size as the one returned by AssemblyReferences.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyData.Identity">
            <summary>
            Identity of the assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyData.AssemblyReferences">
            <summary>
            Identity of assemblies referenced by this assembly.
            References should always be returned in the same order.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonAssemblyManager`3.AssemblyData.AvailableSymbols">
            <summary>
            The sequence of AssemblySymbols the Binder can choose from.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder">
            <summary>
            The purpose of this class is, for the given set of AssemblyData objects, do the following:
               1) Resolve references from each assembly against other assemblies in the set.
               2) Choose suitable AssemblySymbol instance for each AssemblyData object.
               
            The only entry point for consumers is the Bind method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder.Bind(`1,Roslyn.Compilers.CommonAssemblyManager{`0,`1,`2}.AssemblyData[],Roslyn.Compilers.DiagnosticBag)">
             <summary>
             For the given set of AssemblyData objects, do the following:
                1) Resolve references from each assembly against other assemblies in the set.
                2) Choose suitable AssemblySymbol instance for each AssemblyData object.
             </summary>
             <param name="assemblyBeingBuilt">
             An AssemblySymbol instance for the assembly we are building. 
             
             If non-null reference is provided, the first element (index==0) of the assemblies array
             should describe this assembly and its AvailableSymbols property should return sequence,
             which contains exactly one item and that item is this instance. One can think about the
             rest of the items in assemblies array as assembly references given to the compiler to
             build executable for the assemblyBeingBuilt. 
             </param>
             <param name="assemblies">
             The set of AssemblyData objects describing assemblies, for which this method should
             resolve references and find suitable AssemblySymbols. This array is not modified by the
             method.
             </param>
             <param name="diagnostics">TODO (tomat): remove</param>
             <returns>
             An array of Binding structures describing the result. It has the same amount of items as
             the input assemblies array, Binding structure for each input AssemblyData object resides
             at the same position.
             
             Each Binding structure contains the following data:
             
             -    Suitable AssemblySymbol instance for the corresponding assembly, 
                 null reference if none is available/found.
            
             -    Result of resolving assembly references of the corresponding assembly 
                 against provided set of assemblies. Essentially, this is an array returned by
                 AssemblyData.BindAssemblyReferences method. 
                 Each element (ReferenceBinding[i]) is an index of the AssemblyData object in 
                 the input assemblies array, which describes the assembly the
                 corresponding reference (AssemblyReferences[i]) is bound to:
                      Index >= 0 when reference is bound to an assembly with index (Index)
                      Index = -1 When reference cannot be resolved
             </returns>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder.InternalsMayBeVisibleToAssemblyBeingCompiled(System.String,Roslyn.Compilers.MetadataReader.Assembly)">
            <summary>
            Determines if it is possible that <paramref name="assembly"/> gives internals
            access to assembly <paramref name="compilationName"/>. It does not make a conclusive
            determination of visibility because the compilation's strong name key is not supplied.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder.GetActualBoundReferencesUsedBy(`1)">
            <summary>
            Return AssemblySymbols referenced by the input AssemblySymbol. The AssemblySymbols must correspond 
            to the AssemblyNames returned by AssemblyData.AssemblyReferences property. If reference is not 
            resolved, null reference should be returned in the corresponding item. 
            </summary>
            <param name="assemblySymbol"></param>
            The target AssemblySymbol instance.
            <returns>
            An array of AssemblySymbols referenced by the input AssemblySymbol.
            Implementers may return cached array, Binder does not mutate it.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder.GetNoPiaResolutionAssemblies(`1)">
            <summary>
            Return collection of assemblies involved in canonical type resolution of
            NoPia local types defined within target assembly. In other words, all 
            references used by previous compilation referencing the target assembly.
            </summary>
            <param name="candidateAssembly"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder.IsLinked(`1)">
            <summary>
            Assembly is /l-ed by compilation that is using it as a reference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAssemblyManager`3.CommonAssemblyBinder.GetCorLibrary(`1)">
            <summary>
            Get Assembly used as COR library for the candidate.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonCompilation">
            <summary>
            The compilation object is an immutable representation of a single invocation of the
            compiler. Although immutable, a compilation is also on-demand, and will realize and cache
            data as necessary. A compilation can produce a new compilation from existing compilation
            with the application of small deltas. In many cases, it is more efficient than creating a
            new compilation from scratch, as the new compilation can reuse information from the old
            compilation.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonCompilation.RetargetingAssemblySymbols">
            <summary>
            The list of RetargetingAssemblySymbol objects created for this Compilation. 
            RetargetingAssemblySymbols are created when some other compilation references this one, 
            but the other references provided are incompatible with it. For example, compilation C1 
            references v1 of Lib.dll and compilation C2 references C1 and v2 of Lib.dll. In this
            case, in context of C2, all types from v1 of Lib.dll leaking through C1 (through method 
            signatures, etc.) must be retargeted to the types from v2 of Lib.dll. This is what 
            RetargetingAssemblySymbol is responsible for. In the example above, modules in C2 do not 
            reference C1.AssemblySymbol, but reference a special RetargetingAssemblySymbol created
            for C1 by AssemblyManager.
             
            WeakReference is used to allow RetargetingAssemblySymbols to be collected when they become unused.
            
            The cache must be locked for the duration of read/write operations, 
            see AssemblyManager.CacheLockObject property.
            
            Internal for testing.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CacheRetargetingAssemblySymbol(Roslyn.Compilers.Common.IAssemblySymbol)">
            <summary>
            Adds given retargeting assembly for this compilation into the cache.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonCompilation.lazyBoundReferenceDirectiveMap">
            <summary>
            Maps reference string used in #r directive to a resolved metadata reference.
            If multiple #r's use the same value as a reference the resolved metadata reference is the same as well.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonCompilation.lazyBoundReferenceDirectives">
            <summary>
            Array of unique bound #r references in the order they appear in the source code.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonCompilation.LexicalOrderSymbolComparer">
            <summary>
            This is a special symbol comparer, which is supposed to be used for sorting original 
            definition symbols (explicitly or explicitly declared in source within the same 
            container) in lexical order of their declarations. It will not work on anything that 
            uses non-source locations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CheckSubmissionOptions(Roslyn.Compilers.Common.CommonCompilationOptions)">
            <summary>
            Checks options passed to submission compilation constructor.
            Throws an exception if the options are not applicable to submissions.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.Clone">
            <summary>
            Creates a new compilation equivalent to this one with different symbol instances.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetSemanticModel(Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            Gets a new <see cref="T:Roslyn.Compilers.Common.ISemanticModel"/> for the specified syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CreateErrorTypeSymbol(Roslyn.Compilers.Common.INamespaceOrTypeSymbol,System.String,System.Int32)">
            <summary>
            Returns a new INamedTypeSymbol representing a error type with the given name and arity
            in the given optional container.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.UpdateOptions(Roslyn.Compilers.Common.CommonCompilationOptions)">
            <summary>
            Creates a new compilation with the specified compilation options.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetSubmissionSlotIndex">
            <summary>
            Gets or allocates a runtime submission slot index for this compilation (<see cref="T:Roslyn.Scripting.Session"/>).
            </summary>
            <returns>Non-negative integer if this is a submission and it or a previous submission contains code, negative integer otherwise.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetSubmissionResultType(System.Boolean@)">
            <summary>
            Returns the type of the submission return value.
            </summary>
            <exception cref="T:System.InvalidOperationException">The compilation doesn't represent a submission (<see cref="P:Roslyn.Compilers.Common.CommonCompilation.IsSubmission"/> return false).</exception>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.UpdatePreviousSubmission(Roslyn.Compilers.Common.CommonCompilation)">
            <summary>
            Returns a new compilation with the given compilation set as the previous submission.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.AddSyntaxTrees(Roslyn.Compilers.Common.CommonSyntaxTree[])">
            <summary>
            Creates a new compilation with additional syntax trees.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.AddSyntaxTrees(System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxTree})">
            <summary>
            Creates a new compilation with additional syntax trees.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.RemoveSyntaxTrees(Roslyn.Compilers.Common.CommonSyntaxTree[])">
            <summary>
            Creates a new compilation without the specified syntax trees. Preserves metadata info for use with trees
            added later.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.RemoveSyntaxTrees(System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxTree})">
            <summary>
            Creates a new compilation without the specified syntax trees. Preserves metadata info for use with trees
            added later.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.RemoveAllSyntaxTrees">
            <summary>
            Creates a new compilation without any syntax trees. Preserves metadata info for use with
            trees added later.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.ReplaceSyntaxTree(Roslyn.Compilers.Common.CommonSyntaxTree,Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            Creates a new compilation with an old syntax tree replaced with a new syntax tree.
            Reuses metadata from old compilation object.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.ContainsSyntaxTree(Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            Returns true if this compilation contains the specified tree. False otherwise.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.EnsureSourceAssemblyCreated">
            <summary>
            Calls assembly manager to binds metadata references of this compilation if they haven't been bound yet.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.ToMetadataReference">
            <summary>
            Creates a metadata reference for this compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.WithReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation with the specified references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CommonWithReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation with the specified references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.AddReferences(Roslyn.Compilers.MetadataReference[])">
            <summary>
            Creates a new compilation with additional metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.AddReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation with additional metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.RemoveReferences(Roslyn.Compilers.MetadataReference[])">
            <summary>
            Creates a new compilation without the specified metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.RemoveReferences(System.Collections.Generic.IEnumerable{Roslyn.Compilers.MetadataReference})">
            <summary>
            Creates a new compilation without the specified metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.RemoveAllReferences">
            <summary>
            Creates a new compilation without any metadata references.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.ReplaceReference(Roslyn.Compilers.MetadataReference,Roslyn.Compilers.MetadataReference)">
            <summary>
            Creates a new compilation with an old metadata reference replaced with a new metadata
            reference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetReferencedModuleSymbol(Roslyn.Compilers.MetadataReference)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.Common.IModuleSymbol"/> that represents an added metadata module.
            </summary>
            <returns>
            <see cref="T:Roslyn.Compilers.Common.IModuleSymbol"/> corresponding to the given reference or null if there is none.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetReferencedAssemblySymbol(Roslyn.Compilers.MetadataReference)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.Common.IAssemblySymbol"/> for a metadata reference used to create this
            compilation.
            </summary>
            <returns>Assembly symbol corresponding to the given reference or null if there is
            none.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetCompilationNamespace(Roslyn.Compilers.Common.INamespaceSymbol)">
            <summary>
            Gets the corresponding compilation namespace for the specified module or assembly namespace.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetEntryPoint(System.Threading.CancellationToken)">
            <summary>
            Returns the Main method that will serves as the entry point of the assembly, if it is
            executable (and not a script).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetSpecialType(Roslyn.Compilers.SpecialType)">
            <summary>
            Get the symbol for the predefined type from the Cor Library referenced by this
            compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CreateArrayTypeSymbol(Roslyn.Compilers.Common.ITypeSymbol,System.Int32)">
            <summary>
            Returns a new ArrayTypeSymbol representing an array type tied to the base types of the
            COR Library in this Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CreatePointerTypeSymbol(Roslyn.Compilers.Common.ITypeSymbol)">
            <summary>
            Returns a new PointerTypeSymbol representing a pointer type tied to a type in this
            Compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetTypeByMetadataName(System.String)">
            <summary>
            Gets the type within the compilation's assembly and all referenced assemblies using its
            canonical CLR metadata name.
            </summary>
            <returns>Null if the type can't be found.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.ClassifyConversion(Roslyn.Compilers.Common.ITypeSymbol,Roslyn.Compilers.Common.ITypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a "source" type was
            converted to a given "destination" type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetParseDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets the diagnostics produced during the parsing stage.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetDeclarationDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets the diagnostics produced during symbol declaration.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets all the diagnostics for the compilation, including syntax, declaration, and
            binding. Does not include any diagnostics that might be produced during emit, see
            <see cref="T:CommonEmitResult"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CreateDefaultWin32Resources(System.Boolean,System.Boolean,System.IO.Stream,System.IO.Stream)">
            <summary>
            Create a stream filled with default win32 resources.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.ConstructModuleSerializationProperties(Roslyn.Compilers.MetadataReader.Assembly)">
            <summary>
            Constructs the module serialization properties out of the compilation options of this compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.HasCodeToEmit">
            <summary>
            Return true if the compilation contains any code or types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.Emit(System.IO.Stream,System.String,System.String,System.IO.Stream,System.IO.Stream,System.Threading.CancellationToken,System.IO.Stream,System.Collections.Generic.IEnumerable{Roslyn.Compilers.ResourceDescription})">
            <summary>
            Emit the IL for the compiled source code into the specified stream.
            </summary>
            <param name="executableStream">Stream to which the compilation will be written.</param>
            <param name="outputName">Name of the compilation: file name and extension.  Null to use the existing output name.
            CAUTION: If this is set to a (non-null) value other than the existing compilation output name, then internals-visible-to
            and assembly references may not work as expected.  In particular, things that were visible at bind time, based on the 
            name of the compilation, may not be visible at runtime and vice-versa.
            </param>
            <param name="pdbFilePath">The name of the PDB file - embedded in the output.  Null to infer from the stream or the compilation.
            Ignored unless pdbStream is non-null.
            </param>
            <param name="pdbStream">Stream to which the compilation's debug info will be written.  Null to forego PDB generation.</param>
            <param name="xmlDocStream">Stream to which the compilation's XML documentation will be written.  Null to forego XML generation.</param>
            <param name="cancellationToken">To cancel the emit process.</param>
            <param name="win32ResourcesInRESFormat">Stream from which the compilation's Win32 resources will be read (in RES format).  
            Null to indicate that there are none. The RES format begins with a null resource entry.</param>
            <param name="manifestResources">List of the compilation's managed resources.  Null to indicate that there are none.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.EmitMetadataOnly(System.IO.Stream,System.String,System.Threading.CancellationToken)">
            <summary>
            Emits the IL for the symbol declarations into the specified stream. Useful for emitting
            information for cross-language modeling of code. This emits what it can even if there
            are errors.
            </summary>
            <param name="metadataStream">Stream to which the compilation's metadata will be written.</param>
            <param name="outputName">Name of the compilation: file name and extension.  Null to use the existing output name.
            CAUTION: If this is set to a (non-null) value other than the existing compilation output name, then internals-visible-to
            and assembly references may not work as expected.  In particular, things that were visible at bind time, based on the 
            name of the compilation, may not be visible at runtime and vice-versa.
            </param>
            <param name="cancellationToken">To cancel the emit process.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CompareSyntaxTreeOrdering(Roslyn.Compilers.Common.CommonSyntaxTree,Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            The compiler needs to define an ordering among different partial class in different syntax trees
            in some cases, because emit order for fields in structures, for example, is semantically important.
            This function defines an ordering among syntax trees in this compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.CompareSourceLocations(Roslyn.Compilers.Common.CommonLocation,Roslyn.Compilers.Common.CommonLocation)">
            <summary>
            Compare two source locations, using their containing trees, and then by Span.First within a tree. 
            Can be used to get a total ordering on declarations, for example.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.FirstSourceLocation``1(``0,``0)">
            <summary>
            Return the lexically first of two locations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilation.FirstSourceLocation``1(Roslyn.Compilers.ReadOnlyArray{``0})">
            <summary>
            Return the lexically first of multiple locations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.MetadataFileProvider">
            <summary>
            Translates a resolved assembly reference path to a path to the file that can be opened by the compiler.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.FileResolver">
            <summary>
            Gets the resolver for resolving file references for the compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.IsCaseSensitive">
            <summary>
            Returns true if this is a case sensitive compilation, false otherwise.  Case sensitivity
            affects compilation features such as name lookup as well as choosing what names to emit
            when there are multiple different choices (for example between a virtual method and an
            override).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.Name">
            <summary>
            The assembly name of this compilation. No extension.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.OutputName">
            <summary>
            The name passed to the constructor of the Compilation. Assumed to contain file name and
            extension.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.Options">
            <summary>
            Gets the options the compilation was created with.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.IsSubmission">
            <summary>
            True if the compilation represents an interactive submission.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.SubmissionReturnType">
            <summary>
            The type object that represents the type of submission result the host requested.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.HostObjectType">
            <summary>
            The type of the host object or null if not specified for this compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.PreviousSubmission">
            <summary>
            The previous submission compilation, or null if this compilation doesn't represent a
            submission or the submission is the first submission in a submission chain.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.SyntaxTrees">
            <summary>
            Gets the syntax trees (parsed from source code) that this compilation was created with.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.AlwaysImportInternalMembers">
            <summary>
            Internal members of referenced assemblies are not imported unless the referenced assembly has InternalsVisibleTo
            this assembly. Set this to true to override that behavior. Can be useful for testing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.ExternalReferences">
            <summary>
            Metadata references passed to the compilation constructor.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.DirectiveReferences">
            <summary>
            Unique metadata references specified via #r directive in the source code of this compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.ReferenceDirectives">
            <summary>
            All reference directives used in this compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.ReferenceDirectiveMap">
            <summary>
            Maps values of #r references to resolved metadata references.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.References">
            <summary>
            All metadata references -- references passed to the compilation constructor as well as references specified via #r directives.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.ReferencedAssemblyNames">
            <summary>
            Assembly identities of all assemblies directly referenced by this compilation.
            </summary>
            <remarks>
            Includes identities of references passed in the compilation constructor 
            as well as those specified via directives in source code. 
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.Assembly">
            <summary>
            The <see cref="T:Roslyn.Compilers.Common.IAssemblySymbol"/> that represents the assembly being created.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.SourceModule">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.Common.IModuleSymbol"/> for the module being created by compiling all of
            the source code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.GlobalNamespace">
            <summary>
            The root namespace that contains all namespaces and types defined in source code or in 
            referenced metadata, merged into a single namespace hierarchy.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.ObjectType">
            <summary>
            The INamedTypeSymbol for the .NET System.Object type, which could have a TypeKind of
            Error if there was no COR Library in this Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.DynamicType">
            <summary>
            The TypeSymbol for the type 'dynamic' in this Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilation.ScriptClass">
            <summary>
            A symbol representing the implicit Script class. This is null if the class is not
            defined in the compilation.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonCompilation.LexicalOrderSymbolComparerImpl">
            <summary>
            This is an implementation of a special symbol comparer, which is supposed to be used 
            for sorting original definition symbols (explicitly or explicitly declared in source 
            within the same container) in lexical order of their declarations. It will not work on 
            anything that uses non-source locations.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.IAssemblyLoader">
            <summary>
            Loads assemblies for Reflection based APIs.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IAssemblyLoader.Load(Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Loads an assembly given its full name.
            </summary>
            <param name="identity">The identity of the assembly to load.</param>
            <returns>The loaded assembly.</returns>
        </member>
        <member name="T:Roslyn.Compilers.ClrMetaHost">
            <summary>
            Managed abstraction of the functionality provided by ICLRMetaHost.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ClrMetaHost.CurrentRuntime">
            <summary>
            Gets the <see cref="T:Microsoft.Runtime.Hosting.ClrRuntimeInfo"/> corresponding to the current runtime.
            That is, the runtime executing currently.
            </summary>
        </member>
        <member name="T:Microsoft.Runtime.Hosting.ClrRuntimeInfo">
            <summary>
            Managed abstraction of the functionality provided by ICLRRuntimeInfo.
            </summary>
        </member>
        <member name="M:Microsoft.Runtime.Hosting.ClrRuntimeInfo.#ctor(Microsoft.Runtime.Hosting.Interop.IClrRuntimeInfo)">
            <summary>
            Constructor that wraps an ICLRRuntimeInfo (used internally)
            </summary>
        </member>
        <member name="M:Microsoft.Runtime.Hosting.ClrRuntimeInfo.GetInterface``1(System.Guid)">
            <summary>
            Gets an interface provided by this runtime, such as ICLRRuntimeHost.
            </summary>
            <typeparam name="TInterface">The interface type to be returned.  This must be an RCW interface</typeparam>
            <param name="clsid">The CLSID to be created</param>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethods">
            <summary>
            Constructs and caches already created pseudo-methods.
            Every compiled module is supposed to have one of this, created lazily 
            (multidimensional arrays are not common).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ArrayMethods.GetArrayConstructor(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Acquires an array constructor for a given array type
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ArrayMethods.GetArrayGet(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Acquires an element getter method for a given array type
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ArrayMethods.GetArraySet(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Acquires an element setter method for a given array type
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ArrayMethods.GetArrayAddress(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Acquires an element referencer method for a given array type
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.ArrayMethods.dict">
            <summary>
            Maps {array type, method kind} tuples to implementing pseudo-methods.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ArrayMethods.GetArrayMethod(Microsoft.Cci.IArrayTypeReference,Roslyn.Compilers.CodeGen.ArrayMethods.ArrayMethodKind)">
            <summary>
            lazily fetches or creates a new array method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethods.ArrayConstructor">
            <summary>
            "newobj ArrayConstructor"  is equivalent of "newarr ElementType" 
            when working with multidimentsional arrays
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethod">
            <summary>
            Base of all array methods. They have a lot in common.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMethodReference">
            <summary>
            A reference to a method.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISignature">
            <summary>
            The parameters and return type that makes up a method or property signature.
            This interface models the metadata representation of a signature.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISignature.GetParameters(System.Object)">
            <summary>
            The parameters forming part of this signature.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISignature.GetType(System.Object)">
            <summary>
            The return type of the method or type of the property.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISignature.CallingConvention">
            <summary>
            Calling convention of the signature.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISignature.ParameterCount">
            <summary>
            The number of required parameters of the signature.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISignature.ReturnValueCustomModifiers">
            <summary>
            Returns the list of custom modifiers, if any, associated with the returned value. Evaluate this property only if ReturnValueIsModified is true.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISignature.ReturnValueIsByRef">
            <summary>
            True if the return value is passed by reference (using a managed pointer).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISignature.ReturnValueIsModified">
            <summary>
            True if the return value has one or more custom modifiers associated with it.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ITypeMemberReference">
            <summary>
            A reference to a member of a type, such as a field or a method.
            This interface models the metadata representation of a type member reference.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IReference">
            <summary>
            An object corresponding to reference to a metadata entity such as a type or a field.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IReference.GetAttributes">
            <summary>
            A collection of metadata custom attributes that are associated with this definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IReference.Dispatch(Microsoft.Cci.IMetadataVisitor)">
            <summary>
            Calls the visitor.Visit(T) method where T is the most derived object model node interface type implemented by the concrete type
            of the object implementing IDefinition. The dispatch method does not invoke Dispatch on any child objects. If child traversal
            is desired, the implementations of the Visit methods should do the subsequent dispatching.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IReference.AsDefinition(System.Object)">
            <summary>
            Gets the definition object corresponding to this reference within the given context, 
            or null if the referenced entity isn't defined in the context.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INamedEntity">
            <summary>
            Implemented by any entity that has a name.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.INamedEntity.Name">
            <summary>
            The name of the entity.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeMemberReference.GetContainingType(System.Object)">
            <summary>
            A reference to the containing type of the referenced type member.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMethodReference.GetResolvedMethod(System.Object)">
            <summary>
            The method being referred to.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodReference.AcceptsExtraArguments">
            <summary>
            True if the call sites that references the method with this object supply extra arguments.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodReference.GenericParameterCount">
            <summary>
            The number of generic parameters of the method. Zero if the referenced method is not generic.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodReference.IsGeneric">
            <summary>
            True if the method has generic parameters;
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodReference.ExtraParameters">
            <summary>
            Information about this types of the extra arguments supplied at the call sites that references the method with this object.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethods.ArrayGet">
            <summary>
            "call ArrayGet"  is equivalent of "ldelem ElementType" 
            when working with multidimentsional arrays
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethods.ArrayAddress">
            <summary>
            "call ArrayAddress"  is equivalent of "ldelema ElementType" 
            when working with multidimentsional arrays
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethods.ArraySet">
            <summary>
            "call ArraySet"  is equivalent of "stelem ElementType" 
            when working with multidimentsional arrays
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArrayMethodParameterInfo">
            <summary>
            Represents a parameter in an array pseudo-method.
            
            NOTE: It appears that that only number of indeces is used for verification, 
            types just have to be Int32.
            Even though actual arguments can be native ints.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IParameterTypeInformation">
            <summary>
            Information that describes a method or property parameter, but does not include all the information in a IParameterDefinition.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IParameterListEntry">
            <summary>
            Implemented by an entity that is always a member of a particular parameter list, such as an IParameterDefinition.
            Provides a way to determine the position where the entity appears in the parameter list.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterListEntry.Index">
            <summary>
            The position in the parameter list where this instance can be found.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IParameterTypeInformation.GetType(System.Object)">
            <summary>
            The type of argument value that corresponds to this parameter.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterTypeInformation.CustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the parameter. Evaluate this property only if IsModified is true.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterTypeInformation.IsByReference">
            <summary>
            True if the parameter is passed by reference (using a managed pointer).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterTypeInformation.IsModified">
            <summary>
            This parameter has one or more custom modifiers associated with it.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ArraySetValueParameterInfo">
            <summary>
            Represents the "value" parameter of the Set pseudo-method.
            
            NOTE: unlike index parameters, type of the value parameter must match 
            the actual element type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.TokenMap`1">
            <summary>
            Handles storage of items referenced via tokens in metadata (strings or Symbols).
            When items are stored they are uniquely "associated" with fake token, which is basically 
            a sequential number.
            IL gen will use these fake tokens during codegen and later, when actual token values are known
            the method bodies will be patched.
            To support thse two scenarios we need two maps - Item-->uint, and uint-->Item.  (the second is really just a list).
            </summary>
            <typeparam name="T"></typeparam>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference">
            <summary>
            This class represents the PermissionSetAttribute specified in source which needs fixup during codegen.
            </summary>
            <remarks>
            PermissionSetAttribute needs fixup when it contains an assignment to the 'File' property as a single named attribute argument.
            Fixup performed is ported from SecurityAttributes::FixUpPermissionSetAttribute at ndp\clr\src\vm\securityattributes.cpp.
            It involves following steps:
            1) Verifying that the specified file name resolves to a valid path: This is done during binding.
            2) Reading the contents of the file into a byte array.
            3) Convert each byte in the file content into two bytes containing hexa-decimal characters (see method <see cref="M:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.ConvertToHex(System.Byte[])"/>).
            4) Replacing the 'File = fileName' named argument with 'Hex = hexFileContent' argument, where hexFileContent is the converted output from step 3) above.
            </remarks>
        </member>
        <member name="T:Microsoft.Cci.ICustomAttribute">
            <summary>
            A metadata custom attribute.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ICustomAttribute.GetArguments(System.Object)">
            <summary>
            Zero or more positional arguments for the attribute constructor.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ICustomAttribute.Constructor(System.Object)">
            <summary>
            A reference to the constructor that will be used to instantiate this custom attribute during execution (if the attribute is inspected via Reflection).
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ICustomAttribute.GetNamedArguments(System.Object)">
            <summary>
            Zero or more named arguments that specify values for fields and properties of the attribute.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ICustomAttribute.GetType(System.Object)">
            <summary>
            The type of the attribute. For example System.AttributeUsageAttribute.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ICustomAttribute.ArgumentCount">
            <summary>
            The number of positional arguments.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ICustomAttribute.NamedArgumentCount">
            <summary>
            The number of named arguments.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ICustomAttribute.AllowMultiple">
            <summary>
            Whether attribute allows multiple.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.GetArguments(System.Object)">
            <summary>
            Zero or more positional arguments for the attribute constructor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.Constructor(System.Object)">
            <summary>
            A reference to the constructor that will be used to instantiate this custom attribute during execution (if the attribute is inspected via Reflection).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.GetNamedArguments(System.Object)">
            <summary>
            Zero or more named arguments that specify values for fields and properties of the attribute.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.GetType(System.Object)">
            <summary>
            The type of the attribute. For example System.AttributeUsageAttribute.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.ArgumentCount">
            <summary>
            The number of positional arguments.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.PermissionSetAttributeWithFileReference.NamedArgumentCount">
            <summary>
            The number of named arguments.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataNamedArgument">
            <summary>
            An expression that represents a (name, value) pair and that is typically used in method calls, custom attributes and object initializers.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataExpression">
            <summary>
            An expression that can be represented directly in metadata.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataExpression.Dispatch(Microsoft.Cci.IMetadataVisitor)">
            <summary>
            Calls the visitor.Visit(T) method where T is the most derived object model node interface type implemented by the concrete type
            of the object implementing IStatement. The dispatch method does not invoke Dispatch on any child objects. If child traversal
            is desired, the implementations of the Visit methods should do the subsequent dispatching.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataExpression.Type">
            <summary>
            The type of value the expression represents.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataNamedArgument.ArgumentName">
            <summary>
            The name of the parameter or property or field that corresponds to the argument.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataNamedArgument.ArgumentValue">
            <summary>
            The value of the argument.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataNamedArgument.IsField">
            <summary>
            True if the named argument provides the value of a field.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.PermissionSetFileReadException">
            <summary>
            Exception class to enable generating ERR_PermissionSetAttributeFileReadError while reading the file for PermissionSetAttribute fixup.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.RawSequencePoint">
            <summary>
            Represents a sequence point before translation by #line/ExternalSource directives.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.LocalConstantDefinition">
            <summary>
            We need a CCI representation for local constants because they are emitted as locals in
            PDB scopes to improve the debugging experience (see LocalScopeProvider.GetConstantsInScope).
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ILocalDefinition">
            <summary>
            An object that represents a local variable or constant.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.CompileTimeValue">
            <summary>
            The compile time value of the definition, if it is a local constant.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.CustomModifiers">
            <summary>
            Custom modifiers associated with local variable definition.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.IsConstant">
            <summary>
            True if this local definition is readonly and initialized with a compile time constant value.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.IsModified">
            <summary>
            The local variable has custom modifiers.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.IsPinned">
            <summary>
            True if the value referenced by the local must not be moved by the actions of the garbage collector.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.IsReference">
            <summary>
            True if the local contains a managed pointer (for example a reference to a local variable or a reference to a field of an object).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.MethodDefinition">
            <summary>
            The definition of the method in which this local is defined.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalDefinition.Type">
            <summary>
            The type of the local.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ExternNamespace">
            <summary>
            Represents an assembly reference with an alias (i.e. an extern alias in C#).
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IExternNamespace">
            <summary>
            Represents an assembly reference with an alias (i.e. an extern alias in C#).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IExternNamespace.NamespaceAlias">
            <summary>
            An alias for the global namespace of the assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IExternNamespace.AssemblyName">
            <summary>
            The name of the referenced assembly.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.NamespaceScope">
            <summary>
            This is a list of the using directives (including aliases) in
            a namespace.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INamespaceScope">
            <summary>
            A description of the lexical scope in which a namespace type has been nested. This scope is tied to a particular
            method body, so that partial types can be accommodated.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.INamespaceScope.UsedNamespaces">
            <summary>
            Zero or more used namespaces. These correspond to using clauses in C#.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.SecurityActionMembers">
            <summary>
            This is a duplication of the obsolete members of the enum System.Security.Permissions.SecurityAction.SecurityAction because the original
            enum has obsolete members and it's not possible in VB to suppress warnings for only parts of the source code.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.SequencePointList">
            <summary>
            Maintains a list of sequence points in a space efficient way. Most of the time sequence points
            occur in the same syntax tree, so optimize for that case. Store a sequence point as an offset, and 
            position in a syntax tree, then translate to CCI format only on demand.
            
            Use a ArrayBuilder&lt;RawSequencePoint&gt; to create.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.SequencePointList.Create(Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CodeGen.RawSequencePoint})">
            <summary>
            Create a SequencePointList with the raw sequence points from an ArrayBuilder.
            A linked list of instances for each syntax tree is created (almost always of length one).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.SequencePointList.GetSequencePoints(System.Func{System.String,Microsoft.Cci.DebugSourceDocument})">
            <summary>
            Get all the sequence points, possibly mapping them using #line/ExternalSource directives, and mapping
            file names to debug documents with the given mapping function.
            </summary>
            <param name="mapFileNameToDebugDoc">Function that maps file paths to CCI debug documents</param>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.SequencePointList.OffsetAndSpan">
            <summary>
            Represents the combination of an IL offset and a source text span.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.UsedNamespaceOrType">
            <summary>
            This represents a single using directive (in the scope of a method body).
            It has a name and possibly an alias.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IUsedNamespaceOrType">
            <summary>
            A namespace that is used (imported) inside a namespace scope.
            
            Kind            | Example                   | Alias     | TargetName
            ----------------+---------------------------+-----------+-------------------
            Namespace       | using System;             | null      | "System"
            NamespaceAlias  | using S = System;         | "S"       | "System"
            ExternNamespace | extern alias LibV1;       | "LibV1"   | null
            TypeAlias       | using C = System.Console; | "C"       | "System.Console"
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IUsedNamespaceOrType.Alias">
            <summary>
            An alias for a namespace. For example the "x" of "using x = y.z;" in C#. Empty if no alias is present.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IUsedNamespaceOrType.TargetName">
            <summary>
            The name of a namepace that has been aliased.  For example the "y.z" of "using x = y.z;" or "using y.z" in C#.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IUsedNamespaceOrType.Kind">
            <summary>
            Distinguishes the various kinds of targets.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IUsedNamespaceOrType.ProjectLevel">
            <summary>
            Indicates whether the import was specified on a project level, or on file level (used for VB only)
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IUsedNamespaceOrType.FullName">
            <summary>
            The encoded name for this used type or namespace. The encoding is dependent on the UsedNamespaceOrTypeKind.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.PrivateImplementationDetails">
            <summary>
            TypeDefinition that represents &lt;PrivateImplementationDetails&gt; class.
            The main purpose of this class so far is to contain mapped fields and their types.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.DefaultTypeDef">
            <summary>
            Just a default implementation of a type definition.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ITypeDefinition">
            <summary>
            This interface models the metadata representation of a type.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IDefinition">
            <summary>
            An object corresponding to a metadata entity such as a type or a field.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ITypeReference">
            <summary>
            A reference to a type.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeReference.GetResolvedType(System.Object)">
            <summary>
            The type definition being referred to.
            In case this type was alias, this is also the type of the aliased type
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeReference.TypeCode(System.Object)">
            <summary>
            Unless the value of TypeCode is PrimitiveTypeCode.NotPrimitive, the type corresponds to a "primitive" CLR type (such as System.Int32) and
            the type code identifies which of the primitive types it corresponds to.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeReference.IsEnum">
            <summary>
            True if the type is an enumeration (it extends System.Enum and is sealed). Corresponds to C# enum.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeReference.IsValueType">
            <summary>
            True if the type is a value type. 
            Value types are sealed and extend System.ValueType or System.Enum.
            A type parameter for which MustBeValueType (the struct constraint in C#) is true also returns true for this property.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.GetBaseClass(System.Object)">
            <summary>
            Returns null for interfaces and System.Object.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.GetExplicitImplementationOverrides(System.Object)">
            <summary>
            Zero or more implementation overrides provided by the class.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.GetFields(System.Object)">
            <summary>
            Zero or more fields defined by this type.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.Interfaces(System.Object)">
            <summary>
            Zero or more interfaces implemented by this type.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.GetMethods(System.Object)">
            <summary>
            Zero or more methods defined by this type.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.GetNestedTypes(System.Object)">
            <summary>
            Zero or more nested types defined by this type.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ITypeDefinition.GetProperties(System.Object)">
            <summary>
            Zero or more properties defined by this type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.Alignment">
            <summary>
            The byte alignment that values of the given type ought to have. Must be a power of 2. If zero, the alignment is decided at runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.Events">
            <summary>
            Zero or more events defined by this type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.GenericParameters">
            <summary>
            Zero or more parameters that can be used as type annotations.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.GenericParameterCount">
            <summary>
            The number of generic parameters. Zero if the type is not generic.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.HasDeclarativeSecurity">
            <summary>
            True if this type has a non empty collection of SecurityAttributes or the System.Security.SuppressUnmanagedCodeSecurityAttribute.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsAbstract">
            <summary>
            True if the type may not be instantiated.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsBeforeFieldInit">
            <summary>
            Is type initialized anytime before first access to static field
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsComObject">
            <summary>
            Is this imported from COM type library
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsGeneric">
            <summary>
            True if this type is parameterized (this.GenericParameters is a non empty collection).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsInterface">
            <summary>
            True if the type is an interface.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsRuntimeSpecial">
            <summary>
            True if this type gets special treatment from the runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsSerializable">
            <summary>
            True if this type is serializable.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsSpecialName">
            <summary>
            True if the type has special name.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsWindowsRuntimeImport">
            <summary>
            True if the type is a Windows runtime type.
            </summary>
            <remarks>
            A type can me marked as a Windows runtime type in source by applying the WindowsRuntimeImportAttribute.
            WindowsRuntimeImportAttribute is a pseudo custom attribute defined as an internal class in System.Runtime.InteropServices.WindowsRuntime namespace.
            This is needed to mark Windows runtime types which are redefined in mscorlib.dll and System.Runtime.WindowsRuntime.dll.
            These two assemblies are special as they implement the CLR's support for WinRT.
            </remarks>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.IsSealed">
            <summary>
            True if the type may not be subtyped.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.Layout">
            <summary>
            Layout of the type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.PrivateHelperMembers">
            <summary>
            Zero or more private type members generated by the compiler for implementation purposes. These members
            are only available after a complete visit of all of the other members of the type, including the bodies of methods.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.SecurityAttributes">
            <summary>
            Declarative security actions for this type. Will be empty if this.HasSecurity is false.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.SizeOf">
            <summary>
            Size of an object of this type. In bytes. If zero, the size is unspecified and will be determined at runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinition.StringFormat">
            <summary>
            Default marshalling of the Strings in this class.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INamespaceTypeDefinition">
            <summary>
            A type definition that is a member of a namespace definition.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INamedTypeDefinition">
            <summary>
            A named type definition, such as an INamespaceTypeDefinition or an INestedTypeDefinition.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INamedTypeReference">
            <summary>
            A reference to a named type, such as an INamespaceTypeReference or an INestedTypeReference.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.INamedTypeReference.GenericParameterCount">
            <summary>
            The number of generic parameters. Zero if the type is not generic.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.INamedTypeReference.MangleName">
            <summary>
            If true, the persisted type name is mangled by appending "`n" where n is the number of type parameters, if the number of type parameters is greater than 0.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INamespaceTypeReference">
            <summary>
            A reference to a type definition that is a member of a namespace definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.INamespaceTypeReference.GetUnit(System.Object)">
            <summary>
            A reference to the unit that defines the referenced type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.INamespaceTypeReference.NamespaceName">
            <summary>
            Fully qualified name of the containing namespace.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.INamespaceTypeDefinition.IsPublic">
            <summary>
            True if the type can be accessed from other assemblies.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter">
            <summary>
            Class for emitting the switch jump table for switch statements with integral governing type
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter.key">
            <summary>
            Switch key for the jump table
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter.keyTypeCode">
            <summary>
            Primitive type of the switch key
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter.fallThroughLabel">
            <summary>
            Fall through label for the jump table
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter.sortedCaseLabels">
            <summary>
            Integral case labels sorted and indexed by their ConstantValue
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter.SwitchBucket.TryMerge(Roslyn.Compilers.CodeGen.SwitchIntegralJumpTableEmitter.SwitchBucket)">
            <summary>
            Try to merge the prevBucket into the current bucket.
            If merge results in a dense bucket, merge and return true.
            Else don't merge and return false.
            </summary>
            <param name="prevBucket">Bucket to merge</param>
            <returns></returns>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.key">
            <summary>
            Switch key for the jump table
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.caseLabels">
            <summary>
            Switch case labels
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.fallThroughLabel">
            <summary>
            Fall through label for the jump table
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.emitStringCondBranchDelegate">
            <summary>
            Delegate to emit string compare call
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.delegateArguments">
            <summary>
            Arguments to be passed to emitStringCondBranchDelegate
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.keyHash">
            <summary>
            Local storing the key hash value, used for emitting hash table based string switch.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.ComputeStringHash(System.String)">
            <summary>
            String Switch Hash Function.
            DEKHash function from "The Art of Computer Programming, Volume 3 - Donald E. Knuth"
            </summary>
            <remarks>
            This method should be kept consistent with MethodBodySynthesizer.ConstructStringSwitchHashFunctionBody
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.EmitStringCompareAndBranch">
            <summary>
            Delegate to emit string compare call and conditional branch based on the compare result.
            </summary>
            <param name="key">Key to compare</param>
            <param name="stringConstant">Case constant to compare the key against</param>
            <param name="targetLabel">Target label to branch to if key = stringConstant</param>
            <param name="arguments">Additional arguments for the delegate</param>
        </member>
        <member name="M:Roslyn.Compilers.ArrayBuilder`1.ToReadOnly">
            <summary>
            Realizes the array.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ArrayBuilder`1.ToReadOnlyOrNull">
            <summary>
            Realizes the array.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ArrayBuilder`1.ToDowncastedReadOnly``1">
            <summary>
            Realizes the array, downcasting each element to a derived type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ArrayBuilder`1.ToReadOnlyAndFree">
            <summary>
            Realizes the array and disposes the builder in one operation.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ArrayBuilder`1.ArrayBuilderEnumerator">
            <summary>
            struct enumerator used in foreach.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.OrderPreservingMultiDictionary`2">
            <summary>
            A MultiDictionary that allows only adding, and 
            preserves the order of values added to the dictionary.
            Thread-safe for reading, but not for adding.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.OrderPreservingMultiDictionary`2.Add(`0,`1)">
            <summary>
            Add a value to the dictionary.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.OrderPreservingMultiDictionary`2.AddRange(`0,Roslyn.Compilers.ReadOnlyArray{`1})">
            <summary>
            Add multiple values to the dictionary.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.OrderPreservingMultiDictionary`2.GetCountForKey(`0)">
            <summary>
            Get the number of values assocaited with a key.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.OrderPreservingMultiDictionary`2.ContainsKey(`0)">
            <summary>
            Returns true if one or more items with given key have been added.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.OrderPreservingMultiDictionary`2.Item(`0)">
            <summary>
            Get all values associated with K, in the order they were added.
            Returns empty read-only array if no values were present.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.OrderPreservingMultiDictionary`2.Keys">
            <summary>
            Get a collection of all the keys.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommandLineReference">
            <summary>
            Describes a command line metadata reference specification.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommandLineReference.Resolve(Roslyn.Compilers.FileResolver,Roslyn.Compilers.MetadataFileProvider,System.Collections.Generic.List{Roslyn.Compilers.DiagnosticInfo},Roslyn.Compilers.Common.CommonMessageProvider)">
            <summary>
            Resolves this command line metadata reference to a <see cref="T:Roslyn.Compilers.MetadataReference"/> using given file resolver and metadata provider.
            </summary>
            <exception cref="T:System.BadImageFormatException">If the PE image format is invalid and <paramref name="diagnosticsOpt"/> is null.</exception>
            <exception cref="T:System.IO.FileNotFoundException">If the Metadata file could not be found and <paramref name="diagnosticsOpt"/> is null.</exception>
            <exception cref="T:System.IO.IOException">If error reading the file from disk and <paramref name="diagnosticsOpt"/> is null.</exception>
            <remarks>
            NOTE: Other exceptions, apart from those mentioned above, may be generated by the fileResolver or the metadata provider. These are not handled by this method.
            </remarks>
            <param name="fileResolver">The file resolver to use for assembly name and relative path resolution.</param>
            <param name="metadataProvider">Uses to create metadata references from resolved full paths.</param>
            <param name="diagnosticsOpt">Optional diagnostics list for storing diagnostics.</param>
            <param name="messageProviderOpt">Optional <see cref="T:Roslyn.Compilers.Common.CommonMessageProvider"/> for generating diagnostics.</param>
            <returns>Returns resolved metadata reference or <see cref="T:Roslyn.Compilers.UnresolvedMetadataReference"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.CommandLineReference.ResolveMetadataFile(System.String,Roslyn.Compilers.MetadataReferenceProperties,Roslyn.Compilers.MetadataFileProvider,System.String,System.Collections.Generic.List{Roslyn.Compilers.DiagnosticInfo},Roslyn.Compilers.Common.CommonMessageProvider)">
            <summary>
            Resolves a command line metadata reference with the given <paramref name="resolvedFullPath"/> to a <see cref="T:Roslyn.Compilers.MetadataReference"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommandLineReference.Reference">
            <summary>
            Metadata file path or an assembly display name.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommandLineReference.Properties">
            <summary>
            Metadata reference properties.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommandLineReference.IsAssemblyName">
            <summary>
            True if <see cref="P:Roslyn.Compilers.CommandLineReference.Reference"/> is an assembly name, false if it is a path.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineArguments.ResolveMetadataReferences(Roslyn.Compilers.FileResolver,Roslyn.Compilers.MetadataFileProvider)">
            <summary>
            Resolves metadata references stored in <see cref="P:MetadataReferences"/> using given file resolver and metadata provider.
            </summary>
            <param name="fileResolver">The file resolver to use for assembly name and relative path resolution, or null to use a default.</param>
            <param name="metadataProvider">Uses to create metadata references from resolved full paths, or null to use a default.</param>
            <returns>Yields resolved metadata references or <see cref="T:Roslyn.Compilers.UnresolvedMetadataReference"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineArguments.ResolveMetadataReferences(Roslyn.Compilers.FileResolver,Roslyn.Compilers.MetadataFileProvider,System.Collections.Generic.List{Roslyn.Compilers.DiagnosticInfo},Roslyn.Compilers.Common.CommonMessageProvider)">
            <summary>
            Resolves metadata references stored in <see cref="P:MetadataReferences"/> using given file resolver and metadata provider.
            If a non-null diagnostic bag <paramref name="diagnosticsOpt"/> is provided, it catches exceptions that may be generated while reading the metadata file and
            reports appropriate diagnostics.
            Otherwise, if <paramref name="diagnosticsOpt"/> is null, the exceptions are unhandled.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.BaseDirectory">
            <summary>
            Directory used to resolve relative paths stored in the arguments.
            </summary>
            <remarks>
            Except for paths stored in <see cref="P:Roslyn.Compilers.Common.CommonCommandLineArguments.MetadataReferences"/>, all paths stored in the properties of this class are resolved and absolute.
            This is the directory that relative paths specified on command line were resolved against.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.ReferencePaths">
            <summary>
            Sequence of absolute paths used to search for references.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.KeyFileSearchPaths">
            <summary>
            Sequence of absolute paths used to search for key files.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.Utf8Output">
            <summary>
            Use UTF8 for output
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.OutputFileName">
            <summary>
            Output file name or null if not specified.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.OutputDirectory">
            <summary>
            Absolute path of the output directory.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.Encoding">
            <summary>
            Encoding to be used for source files or 'null' for autodetect/default.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.ScriptArguments">
            <summary>
            Arguments following script argument separator "--" or null if <see cref="P:Roslyn.Compilers.Common.CommonCommandLineArguments.IsInteractive"/> is false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.SourceFiles">
            <summary>
            Source file paths.
            </summary>
            <remarks>
            Includes files specified directly on command line as well as files matching patterns specified 
            on command line using '*' and '?' wildcards or /recurse option.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCommandLineArguments.PrintFullPaths">
            <summary>
            Indicates to specify the full path of the file containing errors or warnings in a diagnostic.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommandLineSourceFile">
            <summary>
            Describes a source file specification stored on command line arguments.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommandLineSourceFile.Path">
            <summary>
            Resolved absolute path of the source file (does not contain wildcards).
            </summary>
            <remarks>
            Although this path is absolute it may not be normalized. That is, it may contain ".." and "." in the middle. 
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommandLineSourceFile.IsScript">
            <summary>
            True if the file should be treated as a script file.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonCommandLineCompiler">
            <summary>
            Base class for csc.exe, csi.exe, vbc.exe and vbi.exe implementations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.ResolveMetadataReferences(Roslyn.Compilers.MetadataFileProvider,System.Collections.Generic.List{Roslyn.Compilers.DiagnosticInfo},Roslyn.Compilers.FileResolver@)">
            <summary>
            Resolves metadata references stored in command line arguments and reports errors for those that can't be resolved.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.ReadFileContent(Roslyn.Compilers.Common.CommandLineSourceFile,System.Collections.Generic.IList{Roslyn.Compilers.DiagnosticInfo},System.Text.Encoding)">
            <summary>
            Reads content of a source file.
            </summary>
            <param name="file">Source file information.</param>
            <param name="diagnostics">Storage for diagnostics.</param>
            <param name="encoding">Encoding to use or 'null' for autodetect/default</param>
            <returns>File content or null on failure.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.Run(System.IO.TextWriter,System.Threading.CancellationToken)">
            <summary>
            csc.exe and vbc.exe entry point.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.GetOutputFilePaths(Roslyn.Compilers.Common.CommonCompilation,System.String,System.Threading.CancellationToken,System.String@,System.String@,System.String@)">
            <summary>
            Given a compilation and a destination directory, determine three names:
              1) The name with which the assembly should be output (default = null, which indicates that the compilation output name should be used).
              2) The path of the assembly/module file (default = destination directory + compilation output name).
              3) The path of the pdb file (default = assembly/module path with ".pdb" extension).
            </summary>
            <remarks>
            C# has a special implementation that implements idiosyncratic behavior of csc.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.RunInteractive(System.IO.TextWriter)">
            <summary>
            csi.exe and vbi.exe entry point.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonCommandLineCompiler.ExistingReferencesResolver">
            <summary>
            Looks for metadata references among the assembly file references given to the compilation when constructed.
            When scripts are included into a project we don't want #r's to reference other assemblies than those 
            specified explicitly in the project references.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.FileResolver">
            <summary>
            This class is used to resolve file references for the compilation.
            It provides APIs to resolve:
            (a) Metadata reference paths.
            (b) Assembly names.
            (c) Documentation files.
            (d) Assembly strong name keyfile.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.FileResolver.Default">
            <summary>
            Default file resolver.
            </summary>
            <remarks>
            This resolver doesn't resolve any relative paths and uses the current process bitness when looking for assemblies in GAC.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.FileResolver.#ctor(Roslyn.Compilers.ReadOnlyArray{System.String},Roslyn.Compilers.ReadOnlyArray{System.String},System.String,System.Func{System.Reflection.ProcessorArchitecture,System.Boolean},System.Globalization.CultureInfo)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.FileResolver"/> class.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.FileResolver.ResolveMetadataReference(System.String,System.String)">
            <summary>
            Resolves a metadata reference that is a path or an assembly name.
            </summary>
            <param name="assemblyDisplayNameOrPath">
            Assembly name or file path. 
            <see cref="M:IsFilePath"/> is used to determine whether to consider this value an assembly name or a file path.
            </param>
            <param name="baseFilePath">
            The base file path to use to resolve relative paths against.
            Null to use the <see cref="P:Roslyn.Compilers.FileResolver.BaseDirectory"/> as a base for relative paths.
            </param>
            <returns>
            Normalized absolute path to the referenced file or null if it can't be resolved.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.FileResolver.ResolveAssemblyName(System.String)">
            <summary>
            Resolves given assembly name.
            </summary>
            <returns>Full path to an assembly file.</returns>
        </member>
        <member name="M:Roslyn.Compilers.FileResolver.ResolveMetadataFile(System.String,System.String)">
            <summary>
            Resolves a given reference path.
            </summary>
            <param name="path">Path to resolve.</param>
            <param name="baseFilePath">
            The base file path to use to resolve relative paths against.
            Null to use the <see cref="P:Roslyn.Compilers.FileResolver.BaseDirectory"/> as a base for relative paths.
            </param>
            <returns>
            The resolved metadata reference path. A normalized absolute path or null.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.FileResolver.ResolveStrongNameKeyFile(System.String,System.String)">
            <summary>
            Resolves assembly strong name key file path.
            </summary>
            <param name="path">
            Key file path specified either through the <see cref="T:System.Reflection.AssemblyKeyNameAttribute"/> or "/keyfile" command line argument.
            </param>
            <param name="baseFilePath">
            The base file path to use to resolve current-directory-relative paths against.
            Null if not available.
            </param>
            <returns>Normalized key file path or null if not found.</returns>
        </member>
        <member name="M:Roslyn.Compilers.FileResolver.IsFilePath(System.String)">
            <summary>
            Determines whether an assembly reference is considered an assembly file path or an assembly name.
            used, for example, on values of /r and #r.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.FileResolver.AssemblySearchPaths">
            <summary>
            Search paths used when resolving metadata references.
            </summary>
            <remarks>
            All search paths are absolute.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.FileResolver.KeyFileSearchPaths">
            <summary>
            Search paths used when resolving assembly strong name keyfile.
            </summary>
            <remarks>
            All search paths are absolute.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.FileResolver.ArchitectureFilter">
            <summary>
            Architecture filter used when resolving assembly references.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.FileResolver.PreferredCulture">
            <summary>
            CultureInfo used when resolving assembly references.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.FileResolver.BaseDirectory">
            <summary>
            Directory used for resolution of relative paths.
            A full directory path or null if not available.
            </summary>
            <remarks>
            This directory is only used if the base directory isn't implied by the context within which the path is being resolved.
            
            It is used, for example, when resolving a strong name key file specified in <see cref="T:System.Reflection.AssemblyKeyFileAttribute"/>,
            or a metadata file path specified in <see cref="T:Roslyn.Compilers.MetadataFileReference"/>.
            
            On the other hand the rules for metadata reference resolution specify that 
            #r ".\foo.dll" in a script file "C:\MyDir\MyFile.csx" is resolved against "C:\MyDir" directory regardless of 
            the value of <see cref="P:BaseDirectory"/>.
            
            Resolution of a relative path that needs the base directory fails if the base directory is null.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.ExistingReferencesResolver.ResolveAssemblyName(System.String)">
            <summary>
            When compiling to a file all unresolved assembly names have to match one of the file references specified on command line.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineCompiler.ExistingReferencesResolver.ResolveMetadataFile(System.String,System.String)">
            <summary>
            When compiling to a file all relative paths have to match one of the file references specified on command line.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.EnumerateFiles(System.String,System.String,System.IO.SearchOption)">
            <summary>
            Enumerates files in the specified directory and subdirectories whose name matches the given pattern.
            </summary>
            <param name="directory">Full path of the directory to enumerate.</param>
            <param name="fileNamePattern">File name pattern. May contain wildcards '*' (matches zero or more characters) and '?' (matches any character).</param>
            <param name="searchOption">Specifies whether to search the specified <paramref name="directory"/> only, or all its subdirectories as well.</param>
            <returns>Sequence of file paths.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.ParseResponseFile(System.String,System.Collections.Generic.IList{Roslyn.Compilers.DiagnosticInfo})">
            <summary>
            Parse a response file into a set of arguments. Errors openening the response file are output into "errors".
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.ParseResponseLines(System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Take a string of lines from a response file, remove comments, 
            and split into a set of command line arguments.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.RemoveAllQuotes(System.String)">
            <summary>
            Remove all double quote characters from the given string.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.Unquote(System.String)">
            <summary>
            Remove one set of leading and trailing double quote characters, if both are present.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.SplitCommandLineIntoArguments(System.String,System.Boolean)">
            <summary>
            Split a command line by the same rules as Main would get the commands.
            </summary>
            <remarks>
            Rules for command line parsing, according to MSDN:
            
            Arguments are delimited by white space, which is either a space or a tab.
             
            A string surrounded by double quotation marks ("string") is interpreted 
            as a single argument, regardless of white space contained within. 
            A quoted string can be embedded in an argument.
             
            A double quotation mark preceded by a backslash (\") is interpreted as a 
            literal double quotation mark character (").
             
            Backslashes are interpreted literally, unless they immediately precede a 
            double quotation mark.
             
            If an even number of backslashes is followed by a double quotation mark, 
            one backslash is placed in the argv array for every pair of backslashes, 
            and the double quotation mark is interpreted as a string delimiter.
             
            If an odd number of backslashes is followed by a double quotation mark, 
            one backslash is placed in the argv array for every pair of backslashes, 
            and the double quotation mark is "escaped" by the remaining backslash, 
            causing a literal double quotation mark (") to be placed in argv.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.Split(System.String,System.Func{System.Char,System.Boolean})">
            <summary>
            Split a string, based on whether "splitHere" returned true on each character.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.CondenseDoubledBackslashes(System.String)">
            <summary>
            Condense double backslashes that precede a quotation mark to single backslashes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.AddBackslashes(System.Text.StringBuilder,System.Int32)">
            <summary>
            Add "count" backslashes to a StringBuilder. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.ParseSeparatedStrings(System.String,System.Char[],System.StringSplitOptions)">
            <summary>
            Split a string by a set of separators, taking quotes into account.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.TryParseUInt64(System.String,System.UInt64@)">
            <summary>
            Tries to parse a UInt64 from string in either decimal, octal or hex format.
            </summary>
            <param name="value">The string value.</param>
            <param name="result">The result if parsing was successful.</param>
            <returns>true if parsing was successful, otherwise false.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCommandLineParser.TryParseUInt16(System.String,System.UInt16@)">
            <summary>
            Tries to parse a UInt16 from string in either decimal, octal or hex format.
            </summary>
            <param name="value">The string value.</param>
            <param name="result">The result if parsing was successful.</param>
            <returns>true if parsing was successful, otherwise false.</returns>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommandLineSplitter">
            <remarks>
            Rules for command line parsing, according to MSDN:
            
            Arguments are delimited by white space, which is either a space or a tab.
             
            A string surrounded by double quotation marks ("string") is interpreted 
            as a single argument, regardless of white space contained within. 
            A quoted string can be embedded in an argument.
             
            A double quotation mark preceded by a backslash (\") is interpreted as a 
            literal double quotation mark character (").
             
            Backslashes are interpreted literally, unless they immediately precede a 
            double quotation mark.
             
            If an even number of backslashes is followed by a double quotation mark, 
            one backslash is placed in the argv array for every pair of backslashes, 
            and the double quotation mark is interpreted as a string delimiter.
             
            If an odd number of backslashes is followed by a double quotation mark, 
            one backslash is placed in the argv array for every pair of backslashes, 
            and the double quotation mark is "escaped" by the remaining backslash, 
            causing a literal double quotation mark (") to be placed in argv.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.Compilation.CommonForEachStatementInfo">
            <summary>
            Structure containing all semantic information about a for each statement.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Compilation.CommonForEachStatementInfo.#ctor(Roslyn.Compilers.Common.IMethodSymbol,Roslyn.Compilers.Common.IMethodSymbol,Roslyn.Compilers.Common.IPropertySymbol,Roslyn.Compilers.Common.IMethodSymbol)">
            <summary>
            Initializes a new instance of the <see cref="T:Roslyn.Compilers.Compilation.CommonForEachStatementInfo"/> structure.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Compilation.CommonForEachStatementInfo.GetEnumeratorMethod">
            <summary>
            Gets the &quot;GetEnumerator&quot; method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Compilation.CommonForEachStatementInfo.MoveNextMethod">
            <summary>
            Gets the &quot;MoveNext&quot; method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Compilation.CommonForEachStatementInfo.CurrentProperty">
            <summary>
            Gets the &quot;Current&quot; property.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Compilation.CommonForEachStatementInfo.DisposeMethod">
            <summary>
            Gets the &quot;Dispose&quot; method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonMemberResolutionKind">
            <summary>
            Indicates why the compiler accepted or rejected the member during overload resolution.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberResolutionKind.Applicable">
            <summary>
            The candidate member was accepted.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberResolutionKind.UseSiteError">
            <summary>
            The candidate member was rejected because it is not supported by the language or cannot
            be used given the current set of assembly references.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberResolutionKind.TypeInferenceFailed">
            <summary>
            The candidate member was rejected because type inference failed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberResolutionKind.Worse">
            <summary>
            The candidate member was rejected because it was considered worse that another member.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonMemberResolutionResult`1">
            <summary>
            Represents the results of overload resolution for a single member.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonMemberResolutionResult`1.Member">
            <summary>
            The member considered during overload resolution.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonMemberResolutionResult`1.Resolution">
            <summary>
            Indicates why the compiler accepted or rejected the member during overload resolution.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonMemberResolutionResult`1.IsValid">
            <summary>
            Returns true if the compiler accepted this member as the sole correct result of overload resolution.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonOverloadResolutionResult`1">
            <summary>
            Summarizes the results of an overload resolution analysis, as described in section 7.5 of
            the language specification. Describes whether overload resolution succeeded, and which
            method was selected if overload resolution succeeded, as well as detailed information about
            each method that was considered. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonOverloadResolutionResult`1.Succeeded">
            <summary>
            True if overload resolution successfully selected a single best method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonOverloadResolutionResult`1.ValidResult">
            <summary>
            If overload resolution successfully selected a single best method, returns information
            about that method. Otherwise returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonOverloadResolutionResult`1.BestResult">
            <summary>
            If there was a method that overload resolution considered better than all others,
            returns information about that method. A method may be returned even if that method was
            not considered a successful overload resolution, as long as it was better that any other
            potential method considered.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonOverloadResolutionResult`1.Results">
            <summary>
            Returns information about each method that was considered during overload resolution,
            and what the results of overload resolution were for that method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonEmitResult">
            <summary>
            The result of the CommonCompilation.Emit method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonEmitResult.Success">
            <summary>
            True if the compilation successfully produced an executable.
            If false then the diagnostics should include at least one error diagnostic
            indicating the cause of the failure.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonEmitResult.Diagnostics">
            <summary>
            A list of all the diagnostics associated with compilations. This include parse errors, declaration errors,
            compilation errors, and emitting errors.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonReflectionEmitResult.EntryPoint">
            <summary>
            Gets method information about the entrypoint of the emitted assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonReflectionEmitResult.IsUncollectible">
            <summary>
            Indicates whether the emitted assembly can be garbage collected.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSymbolInfo.Symbol">
            <summary>
            The symbol that was referred to by the syntax node, if any. Returns null if the given
            expression did not bind successfully to a single symbol. If null is returned, it may
            still be that case that we have one or more "best guesses" as to what symbol was
            intended. These best guesses are available via the CandidateSymbols property.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSymbolInfo.CandidateSymbols">
            <summary>
            If the expression did not successfully resolve to a symbol, but there were one or more
            symbols that may have been considered but discarded, this property returns those
            symbols. The reason that the symbols did not successfully resolve to a symbol are
            available in the CandidateReason property. For example, if the symbol was inaccessible,
            ambiguous, or used in the wrong context.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSymbolInfo.CandidateReason">
            <summary>
             If the expression did not successfully resolve to a symbol, but there were one or more
             symbols that may have been considered but discarded, this property describes why those
             symbol or symbols were not considered suitable.
             </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypeInfo.Type">
            <summary>
            The type of the expression represented by the syntax node. For expressions that do not
            have a type, null is returned. If the type could not be determined due to an error, than
            an object derived from ErrorTypeSymbol is returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypeInfo.ConvertedType">
            <summary>
            The type of the expression after it has undergone an implicit conversion. If the type
            did not undergo an implicit conversion, returns the same as Type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypeInfo.ImplicitConversion">
            <summary>
            If the expression underwent an implicit conversion, return information about that
            conversion. Otherwise, returns an identity conversion.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CompilationStage">
            <summary>
            Represents the possible compilation stages for which it is possible to get diagnostics
            (errors).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.DebugInformationKind">
            <summary>
            Specifies the kind of debug information to be emitted.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.DebugInformationKind.None">
            <summary>
            Emit no debug information.
            </summary>
            <remarks>
            Not specifying "/debug" command line switch or specifying "/debug-" command line switch enforces this setting.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.Common.DebugInformationKind.PDBOnly">
            <summary>
            Emit PDB file only.
            </summary>
            <remarks>
            Specifying "/debug:pdbonly" command line switch enforces this setting.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.Common.DebugInformationKind.Full">
            <summary>
            Emit full debugging information.
            </summary>
            <remarks>
            Specifying "/debug" or "/debug:full" or "/debug+" command line switch enforces this setting.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.SubsystemVersion">
            <summary>
            Represents subsystem version, see /subsystemversion command line 
            option for details and valid values.
            
            The following table lists common subsystem versions of Windows.
            
            Windows version             Subsystem version
              - Windows 2000                5.00
              - Windows XP                  5.01
              - Windows Vista               6.00
              - Windows 7                   6.01
              - Windows 8 Release Preview   6.02
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.Major">
            <summary>
            Major subsystem version
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.Minor">
            <summary>
            Minor subsystem version
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.None">
            <summary>
            Subsystem version not specified
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.Windows2000">
            <summary>
            Subsystem version: Windows 2000
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.WindowsXP">
            <summary>
            Subsystem version: Windows XP 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.WindowsVista">
            <summary>
            Subsystem version: Windows Vista
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.Windows7">
            <summary>
            Subsystem version: Windows 7
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SubsystemVersion.Windows8">
            <summary>
            Subsystem version: Windows 8
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SubsystemVersion.TryParse(System.String,Roslyn.Compilers.SubsystemVersion@)">
            <summary>
            Try parse subsystem version in "x.y" format. Note, no spaces are allowed in string representation.
            </summary>
            <param name="str">String to parse</param>
            <param name="version">the value if successfully parsed or None otherwise</param>
            <returns>true if parsed successfully, false otherwise</returns>
        </member>
        <member name="M:Roslyn.Compilers.SubsystemVersion.Create(System.Int32,System.Int32)">
            <summary>
            Create a new instance of subsystem version with specified major and minor values.
            </summary>
            <param name="major">major subsystem version</param>
            <param name="minor">minor subsystem version</param>
            <returns>subsystem version with provided major and minor</returns>
        </member>
        <member name="M:Roslyn.Compilers.SubsystemVersion.Default(Roslyn.Compilers.OutputKind)">
            <summary>
            Subsystem version default for output kind specified
            </summary>
            <param name="outputKind">Output kind</param>
            <returns>Subsystem version</returns>
        </member>
        <member name="P:Roslyn.Compilers.SubsystemVersion.IsValid">
            <summary>
            True if the syubsystem version has a valid value
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Platform.AnyCPU">
            <summary>
            AnyCPU (default) compiles the assembly to run on any platform.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Platform.x86">
            <summary>
            x86 compiles the assembly to be run by the 32-bit, x86-compatible common language runtime.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Platform.x64">
            <summary>
            x64 compiles the assembly to be run by the 64-bit common language runtime on a computer that supports the AMD64 or EM64T instruction set.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Platform.Itanium">
            <summary>
            Itanium compiles the assembly to be run by the 64-bit common language runtime on a computer with an Itanium processor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Platform.AnyCPU32BitPreferred">
            <summary>
            Compiles your assembly to run on any platform. Your application runs in 32-bit mode on systems that support both 64-bit and 32-bit applications.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Platform.Arm">
            <summary>
            Compiles your assembly to run on a computer that has an Advanced RISC Machine (ARM) processor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.EnumBounds.RequiresAmdInstructionSet(Roslyn.Compilers.Platform)">
            <summary>
            Gets a value indicating whether the options require the AMD instruction set.
            </summary>
            <value>
              <c>true</c> if the options require the AMD instruction set; otherwise, <c>false</c>.
            </value>
        </member>
        <member name="T:Roslyn.Compilers.Common.SpeculativeBindingOption">
            <summary>
            Describes the kind of binding to be performed in one of the SemanticModel
            speculative binding methods.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.SpeculativeBindingOption.BindAsExpression">
            <summary>
            Binds the given expression using the normal expression binding rules
            that would occur during normal binding of expressions.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.SpeculativeBindingOption.BindAsTypeOrNamespace">
            <summary>
            Binds the given expression as a type or namespace only. If this option
            is selected, then the given expression must derive from TypeSyntax.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.SymbolId">
            <summary>
            A SymbolId is a lightweight identifier for a symbol that can be used to resolve the "same"
            symbol across compilations.  Different symbols have different concepts of "same-ness".
            Same-ness is recursively defined as follows.
            
            1) Two IArraySymbol's are the "same" if they have the "same" element type and the same rank.
            2) Two IAssemblySymbol's are the "same" if they have the same <see cref="P:Roslyn.Compilers.Common.ISymbol.Name"/>.
            3) Two IEventSymbol's are the "same" if they have the "same" containing type and the same
               <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>.
            4) Two IMethodSymbol's are the "same" if they have the "same" containing type, the same
               <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>, the same <see cref="P:Roslyn.Compilers.Common.IMethodSymbol.Arity"/>, the "same" <see cref="P:Roslyn.Compilers.Common.IMethodSymbol.TypeArguments"/>, and have same parameter types and <see cref="P:Roslyn.Compilers.Common.IParameterSymbol.RefKind"/>.
            5) Two IModuleSymbol's are the "same" if they have the same <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/> and
               the "same" containing IAssemblySymbol.
            6) Two INamedTypeSymbol's are the "same" if they have "same" containing symbol, the same
               <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>, the same <see cref="P:Roslyn.Compilers.Common.INamedTypeSymbol.Arity"/> and the "same"
               <see cref="P:Roslyn.Compilers.Common.INamedTypeSymbol.TypeArguments"/>.
            7) Two INamespaceSymbol's are the "same" if they have the "same" containing symbol and the
               same <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>.  If the INamespaceSymbol is the global namespace for a
               compilation (and thus does not have a containing symbol) then it will only match another
               global namespace of another compilation.
            8) Two IParameterSymbol's are the "same" if they have the "same" containing symbol and the
               <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>.
            9) Two IPointerTypeSymbol's are the "same" if they have the "same" <see cref="P:Roslyn.Compilers.Common.IPointerTypeSymbol.PointedAtType"/>. 
            10) Two IPropertySymbol's are the "same" if they have the "same" containing type, the same
               <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>,  and have same parameter types and <see cref="P:Roslyn.Compilers.Common.IParameterSymbol.RefKind"/>.
            11) Two ITypeParameterSymbol's are the "same" if they have the "same" containing symbol and
                the <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>.
            12) Two IFieldSymbol's are the "same" if they have the "same" containing symbol and the <see cref="P:Roslyn.Compilers.Common.ISymbol.MetadataName"/>.
                
            A SymbolId cannot be obtained for ILabelSymbol's, ILocalSymbol's or IRangeVariableSymbol's.
            A SymbolID for an IAliasSymbol will <see cref="M:Roslyn.Compilers.Common.SymbolId.Resolve(Roslyn.Compilers.Common.CommonCompilation,System.Boolean)"/> back to the ISymbol for
            the <see cref="P:Roslyn.Compilers.Common.IAliasSymbol.Target"/>.
            
            Due to issues arising from errors and ambiguity, it's possible for a SymbolId to resolve to
            multiple symbols.  For example, in the following type:
            
            class C
            {
               int Foo();
               bool Foo();
            }
            
            The SymbolId for both Foo methods will be the same.  The SymbolId will then resolve to both
            methods.
            
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.SymbolId.Create(Roslyn.Compilers.Common.ISymbol)">
            <summary>
            This entry point should only be called from the actual Symbol classes.  It should not be
            used internally inside this type.  Instead, any time we need to get the SymbolID for a
            related symbol (i.e. the containing namespace of a namespace) we should call
            GetOrCreate.  The benefit of this is twofold.  First of all, it keeps the size of the
            SymbolID small by allowing up to reuse parts we've already created.  For example, if we
            have the SymbolID for "Foo(int,int)", then we will reuse the SymbolIDs for both "int"s.
            Second, this allows us to deal with the recursive nature of MethodSymbols and
            TypeParameterSymbols.  Specifically, a MethodSymbol is defined by its signature.  However,
            it's signature may refer to type parameters of that method.  Unfortunately, the type
            parameters depend on their containing method.
            
            For example, if there is Foo&lt;T&gt;(T t), then we must avoid the situation where we:
            1) try to get the symbol ID for the type parameter T, which in turn
            2) tries to get the symbol ID for the method Foo, which in turn
            3) tries to get the symbol IDs for the parameter types, which in turn
            4) tries to get the symbol ID for the type parameter T, which leads back to 1 and
               infinitely loops.
            
            In order to break this circularity we do not create the SymbolIDs for a method's type
            parameters directly in the visitor.  Instead, we create the SymbolID for the method
            itself.  When the MethodSymbolId is created it will directly instantiate the SymbolIDs
            for the type parameters, and directly assign the type parameter's method ID to itself.
            It will also then directly store the mapping from the type parameter to its SymbolID in
            the visitor cache.  Then when we try to create the symbol IDs for the parameter types,
            any reference to the type parameters can be found in the cache.
            
            It is for this reason that it is essential that all calls to get related symbol IDs goes
            through GetOrCreate and not Create.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.SymbolId.Equals(Roslyn.Compilers.Common.SymbolId,Roslyn.Compilers.Common.SymbolId.ComparisonOptions)">
            <summary>
            When comparing symbols we need to handle recursion between method type parameters and
            methods.  For example, if we have two methods with the signature Foo&lt;T&gt;(T t) and we
            try to test for equality we must avoid the situation where we:
            
            1) First test if the methods are the same, which will in turn
            2) test if the method's parameter types are the same, which will in turn
            3) test if the type parameters are the same, which will in turn
            4) test if the methods are the same, which causes infinite recursion.
            
            To avoid this we distinguish the cases where we're testing if two type parameters
            actually refer to the same thing, versus type parameters being referenced by parameters.
            For example, if we have:
            
            Foo&lt;T&gt;(T t) 
            Bar&lt;T&gt;(T t) 
            
            then clearly the type parameter T in Foo&lt;T&gt; is different from the type parameter T
            in Bar&lt;T&gt;.  When testing these type parameters for equality we *will* test to see
            if they have the same parent.  This will end up returning false, and so we will consider
            them different.
            
            However, when we are testing if two signatures are the same, if we hit a method type
            parameter then we only need to compare by metadataName.  That's because we know we'll
            already have checked if the method and it's parents are the same, so we don't need to
            recurse through them again.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.IMessageSerializable">
            <summary>
            Implements error message specific serialization.
            </summary>
            <remarks>
            Implement on classes that are not serializable in general yet 
            whose instances can be used as error message arguments.
            
            The serialization result must be culture agnostic.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.IMessageSerializable.ToSerializable">
            <summary>
            Returns a serializable culture-agnostic representation of the content.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DocumentationProvider">
            <summary>
            A class used to provide XML documentation to the compiler for members from metadata. A
            custom implementation of this class should be returned from a DocumentationResolver to provide XML
            documentation comments from custom caches or locations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DocumentationProvider.GetDocumentationForSymbol(System.String,System.Globalization.CultureInfo,System.Threading.CancellationToken)">
            <summary>
            Fetches a documentation comment for the given member ID.
            </summary>
            <param name="documentationMemberID">The documentation member ID of the item to fetch.</param>
            <param name="preferredCulture">The preferred culture to receive a comment in. Null if
            there is no preference. This is a preference only, and providers may choose to provide
            results from another culture if the preferred culture was unavailable.</param>
            <param name="cancellationToken">A cancellation token for the search.</param>
            <returns>A DocumentationComment.</returns>
        </member>
        <member name="M:Roslyn.Compilers.DocumentationProvider.Equals(System.Object)">
            <summary>
            DocumentationProviders are compared when determining whether an AssemblySymbol can be reused.
            Hence, if multiple instances can represent the same documentation, it is imperative that
            Equals (and GetHashCode) be overridden to capture this fact.  Otherwise, it is possible to end
            up with multiple AssemblySymbols for the same assembly, which plays havoc with the type hierarchy.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DocumentationProvider.GetHashCode">
            <summary>
            DocumentationProviders are compared when determining whether an AssemblySymbol can be reused.
            Hence, if multiple instances can represent the same documentation, it is imperative that
            GetHashCode (and Equals) be overridden to capture this fact.  Otherwise, it is possible to end
            up with multiple AssemblySymbols for the same assembly, which plays havoc with the type hierarchy.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DocumentationProvider.NullDocumentationProvider">
            <summary>
            A trivial DocumentationProvider which never returns documentation.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ILocalScopeProvider.GetLocalScopes(Microsoft.Cci.IMethodBody)">
            <summary>
            Returns zero or more local (block) scopes into which the CLR IL operations in the given method body is organized.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ILocalScopeProvider.GetNamespaceScopes(Microsoft.Cci.IMethodBody)">
            <summary>
            Returns zero or more namespace scopes into which the namespace type containing the given method body has been nested.
            These scopes determine how simple names are looked up inside the method body. There is a separate scope for each dotted
            component in the namespace type name. For istance namespace type x.y.z will have two namespace scopes, the first is for the x and the second
            is for the y.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ILocalScopeProvider.GetIteratorScopes(Microsoft.Cci.IMethodBody)">
            <summary>
            Returns zero or more local (block) scopes, each defining an IL range in which an iterator local is defined.
            The scopes are returned for the MoveNext method of the object returned by the iterator method.
            The index of the scope corresponds to the index of the local.  Specifically local scope i corresponds
            to the local stored in a field named &lt;localName&gt;5__i of the class used to store the local values in
            between calls to MoveNext, where localName is the original name of the local variable.  For example, if
            the first local to be moved into the class is named "xyzzy", it will be stored in a field named
            "&lt;xyzzy&gt;5__1", and the ILocalScope returned from this method at index 1 (i.e. the second one) will
            have the scope information for where that variable is in scope.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ILocalScopeProvider.GetConstantsInScope(Microsoft.Cci.ILocalScope)">
            <summary>
            Returns zero or more local constant definitions that are local to the given scope.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ILocalScopeProvider.GetVariablesInScope(Microsoft.Cci.ILocalScope)">
            <summary>
            Returns zero or more local variable definitions that are local to the given scope.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ILocalScopeProvider.IteratorClassName(Microsoft.Cci.IMethodBody)">
            <summary>
            If the body was written as an iterator, returns the name of the (nested)
            type that implements the iterator's state machine.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.ModulePropertiesForSerialization">
            <summary>
            This class is used to store the module serialization properties for a compilation.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceLocationProvider.GetPrimarySourceLocationsFor(Microsoft.Cci.SequencePoint)">
            <summary>
            Return zero or more locations in primary source documents that correspond to one or more of the given derived (non primary) document locations.
            </summary>
            <param name="locations">Zero or more locations in documents that have been derived from one or more source documents.</param>
        </member>
        <member name="M:Microsoft.Cci.ISourceLocationProvider.GetSourceNameFor(Microsoft.Cci.ILocalDefinition,System.Boolean@)">
            <summary>
            Returns the source name of the given local definition, if this is available. 
            Otherwise returns the value of the Name property and sets isCompilerGenerated to true.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.EnumUtilities.ConvertEnumUnderlyingTypeToUInt64(System.Object,Roslyn.Compilers.SpecialType)">
            <summary>
            Convert a boxed primitive (generally of the backing type of an enum) into a ulong.
            </summary>
            <remarks>
            </remarks>
        </member>
        <member name="T:Roslyn.Utilities.OneOrMany`1">
            <summary>
            Represents a single item or many items. 
            </summary>
            <remarks>
            Used when a collection usually contains a single item but sometimes might contain multiple.
            </remarks>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.Empty">
            <summary>
            Null or empty.
            </summary>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.Relative">
            <summary>
            "file"
            </summary>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.RelativeToCurrentDirectory">
            <summary>
            ".\file"
            </summary>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.RelativeToCurrentParent">
            <summary>
            "..\file"
            </summary>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.RelativeToCurrentRoot">
            <summary>
            "\dir\file"
            </summary>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.RelativeToDriveDirectory">
            <summary>
            "C:dir\file"
            </summary>
        </member>
        <member name="F:Roslyn.Utilities.PathKind.Absolute">
            <summary>
            "C:\file" or "\\mymachine" (UNC).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ThreeState">
            <summary>
            Represent an optional bool as a single byte.
            </summary>
        </member>
        <member name="P:Roslyn.Utilities.WeakList`1.WeakCount">
            <summary>
            Returns the number of weak references in this list. 
            Note that some of them might not point to live objects anymore.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Internal.MetadataTypeName">
            <summary>
            Helper structure to incapsulate/cache various information about metadata name of a type and 
            name resolution options.
            Also, allows us to stop using strings in the APIs that accept only metadata names, 
            making usage of them less bug prone.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.fullName">
            <summary>
            Full metadata name of a type, includes namespace name for top level types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.namespaceName">
            <summary>
            Namespace name for top level types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.typeName">
            <summary>
            Name of the type without namespace prefix, but possibly with generic arity mangling present.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.unmangledTypeName">
            <summary>
            Name of the type without namespace prefix and without generic arity mangling.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.inferredArity">
            <summary>
            Arity of the type inferred based on the name mangling. It doesn't have to match the actual
            arity of the type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.useCLSCompliantNameArityEncoding">
            <summary>
            While resolving the name, consider only types following 
            CLS-compliant generic type names and arity encoding (ECMA-335, section 10.7.2).
            I.e. arity is inferred from the name and matching type must have the same
            emitted name and arity.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.forcedArity">
            <summary>
            While resolving the name, consider only types with this arity.
            (-1) means allow any arity.
            If forcedArity >= 0 and useCLSCompliantNameArityEncoding, lookup may
            fail because forcedArity doesn't match the one encoded in the name.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Internal.MetadataTypeName.namespaceSegments">
            <summary>
            Individual parts of qualified namespace name.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.FullName">
            <summary>
            Full metadata name of a type, includes namespace name for top level types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.NamespaceName">
            <summary>
            Namespace name for top level types, empty string for nested types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.TypeName">
            <summary>
            Name of the type without namespace prefix, but possibly with generic arity mangling present.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.UnmangledTypeName">
            <summary>
            Name of the type without namespace prefix and without generic arity mangling.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.InferredArity">
            <summary>
            Arity of the type inferred based on the name mangling. It doesn't have to match the actual
            arity of the type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.IsMangled">
            <summary>
            Does name include arity mangling suffix.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.UseCLSCompliantNameArityEncoding">
            <summary>
            While resolving the name, consider only types following 
            CLS-compliant generic type names and arity encoding (ECMA-335, section 10.7.2).
            I.e. arity is inferred from the name and matching type must have the same
            emitted name and arity.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.ForcedArity">
            <summary>
            While resolving the name, consider only types with this arity.
            (-1) means allow any arity.
            If ForcedArity >= 0 and UseCLSCompliantNameArityEncoding, lookup may
            fail because ForcedArity doesn't match the one encoded in the name.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Internal.MetadataTypeName.NamespaceSegments">
            <summary>
            Individual parts of qualified namespace name.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.AssemblyMetadata">
            <summary>
            Represents an immutable assembly metadata.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Metadata">
            <summary>
            Represents immutable assembly or module metadata.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.#ctor(Roslyn.Compilers.ReadOnlyArray{System.Byte})">
            <summary>
            Creates a single-module assembly.
            </summary>
            <param name="peImage">
            Manifest module image.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.#ctor(Roslyn.Compilers.ModuleMetadata)">
            <summary>
            Creates a single-module assembly.
            </summary>
            <param name="module">
            Manifest module.
            
            <see cref="T:Roslyn.Compilers.AssemblyMetadata"/> takes ownership of the <see cref="T:Roslyn.Compilers.ModuleMetadata"/> object passed in 
            and disposes it when it is itself <see cref="M:Roslyn.Compilers.AssemblyMetadata.Dispose"/>d.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.#ctor(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.ModuleMetadata})">
            <summary>
            Creates a multi-module assembly.
            </summary>
            <param name="modules">
            Modules comprising the assembly. The first module is the manifest module of the assembly.
            
            <see cref="T:Roslyn.Compilers.AssemblyMetadata"/> takes ownership of <see cref="T:Roslyn.Compilers.ModuleMetadata"/> objects passed in and 
            disposes them when it is itself <see cref="M:Roslyn.Compilers.AssemblyMetadata.Dispose"/>d.
            </param>
            <exception cref="T:System.ArgumentNullException"><paramref name="modules"/> is null or contains null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="modules"/> is empty or contains a module that doesn't own its image (was created via <see cref="M:MetadataModule.Copy"/>).</exception>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.#ctor(System.String)">
            <summary>
            Finds all modules of an assembly on a specified path and builds an instance of <see cref="T:Roslyn.Compilers.AssemblyMetadata"/> that represents them.
            </summary>
            <exception cref="T:Roslyn.Compilers.MetadataReader.MetadataReaderException"/>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.Copy">
            <summary>
            Creates a shallow copy of contained modules and wraps them into a new instance of <see cref="T:Roslyn.Compilers.AssemblyMetadata"/>.
            </summary>
            <remarks>
            The resulting copy shares the metadata images and metadata information read from them with the original.
            It doesn't own the underlying metadata images and is not responsible for its disposal.
            
            This is used, for example, when a metadata cache needs to return the cached metadata to its users
            while keeping the ownership of the cached metadata object.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.Dispose">
            <summary>
            Disposes all modules contained in the assembly.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyMetadata.IsValidAssembly">
            <summary>
            Checks if the first module has a single row in Assembly table and that all other modules have none.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyMetadata.Modules">
            <summary>
            Modules comprising this assembly. The first module is the manifest module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyMetadata.ManifestModule">
            <summary>
            The manifest module of the assembly.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ReferenceDirective">
            <summary>
            Represents the value of #r reference along with its source location.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.UnresolvedMetadataReference">
            <summary>
            Represents a metadata reference that can't be resolved.
            </summary>
            <remarks>
            For error reporting only, can't be used to reference a metadata file.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.MetadataReference">
            <summary>
            Represents metadata image reference.
            </summary>
            <remarks>
            Represents a logical location of the image, not the content of the image. 
            The content might change in time. A snapshot is taken when the compiler queries the reference for its metadata.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReference.GetAssemblyName">
            <summary>
            Returns a simple name of the assembly, or null if the metadata reference doesn't represent a valid assembly.
            </summary>
            <remarks>
            Unlike <see cref="M:Roslyn.Compilers.MetadataReference.GetAssemblyIdentity"/> this call doesn't ever trigger custom attribute analysis.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReference.GetAssemblyIdentity">
            <summary>
            Returns the assembly identity of this reference, or null if it doesn't have an identity 
            (the reference is a module or <see cref="T:Roslyn.Compilers.UnresolvedMetadataReference"/>).
            </summary>
            <returns>The assembly identity.</returns>
            <remarks>
            If the reference is a <see cref="T:Roslyn.Compilers.Common.CommonCompilationReference"/> this might trigger assembly binding and custom attribute analysis.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReference.CreateAssemblyReference(System.String)">
            <summary>
            Creates an assembly metadata reference given an assembly display name.
            </summary>
            <param name="displayName">The display name of the assembly.</param>
            <returns>Resolved metadata reference.</returns>
            <remarks>
            Uses <see cref="F:Roslyn.Compilers.FileResolver.Default"/> to find <paramref name="displayName"/> in a GAC
            and <see cref="F:Roslyn.Compilers.MetadataFileProvider.Default"/> to create the resulting metadata reference.
            </remarks>
            <exception cref="T:System.ArgumentNullException"><paramref name="displayName"/> is null.</exception>
            <exception cref="T:System.IO.FileNotFoundException">Assembly with the given name <paramref name="displayName"/> can't be found.</exception>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReference.Display">
            <summary>
            Path or name used in error messages to identity the reference.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReference.IsUnresolved">
            <summary>
            Returns true if this reference is an unresolved reference.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.MetadataShadowCopy">
            <summary>
            Represents a shadow copy of an assembly or a standalone module.
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.MetadataShadowCopy.PrimaryModule">
            <summary>
            Assembly manifest module copy or a standalone module copy.
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.MetadataShadowCopy.DocumentationFile">
            <summary>
            Documentation file copy or null if there is none.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.ShadowCopy">
            <summary>
            Represents a shadow copy of a single file.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplay.AbstractSymbolDisplayVisitor.AddNonNullConstantValue(Roslyn.Compilers.Common.ITypeSymbol,System.Object)">
            <summary>
            Append a default argument (i.e. the default argument of an optional parameter).
            Assumed to be non-null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplay.AbstractSymbolDisplayVisitor.IsFlagsEnum(Roslyn.Compilers.Common.ITypeSymbol)">
            <summary>
            Check if the given type is an enum with System.FlagsAttribute.
            </summary>
            <remarks>
            TODO: Can/should this be done using WellKnownAttributes?
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.AttributeUsageInfo.Default">
            <summary>
            Default attribute usage for attribute types:
            (a) Valid targets: AttributeTargets.All
            (b) AllowMultiple: false
            (c) Inherited: true
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonParameterEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on a parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.EarlyWellKnownAttributeData">
            <summary>
            Base class for storing information decoded from early well-known custom attributes.
            </summary>
            <remarks>
            CONSIDER: Should we remove this class and let the sub-classes derived from WellKnownAttributeData?
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.WellKnownAttributeData">
            <summary>
            Base class for storing information decoded from well-known custom attributes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3">
            <summary>
            Contains common arguments to Symbol.DecodeWellKnownAttribute method in both the language compilers.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.lazyDecodeData">
            <summary>
            Object to store the decoded data from bound well-known attributes.
            Created lazily only when some decoded data needs to be stored, null otherwise.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.GetOrCreateData``1">
            <summary>
            Gets or creates the decoded data object.
            </summary>
            <remarks>
            This method must be called only when some decoded data will be stored into it subsequently.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.HasDecodedData">
            <summary>
            Returns true if some decoded data has been stored into <see cref="F:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.lazyDecodeData"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.DecodedData">
            <summary>
            Gets the stored decoded data.
            </summary>
            <remarks>
            Assumes <see cref="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.HasDecodedData"/> is true.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.AttributeSyntax">
            <summary>
            Syntax of the attribute to decode.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.Attribute">
            <summary>
            Bound attribute to decode.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.Index">
            <summary>
            The index of the attribute in the list of attributes to decode.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.AttributesCount">
            <summary>
            Total count of attributes to decode.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.Diagnostics">
            <summary>
            Diagnostic bag.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.DecodeWellKnownAttributeArguments`3.SymbolPart">
            <summary>
            Specific part of the symbol to which the attributes apply, or AttributeLocation.None if the attributes apply to the symbol itself.
            Used e.g. for return type attributes of a method symbol.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4">
            <summary>
            Contains common arguments to Symbol.EarlyDecodeWellKnownAttribute method in both the language compilers.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.lazyDecodeData">
            <summary>
            Object to store the decoded data from early bound well-known attributes.
            Created lazily only when some decoded data needs to be stored, null otherwise.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.GetOrCreateData``1">
            <summary>
            Gets or creates the decoded data object.
            </summary>
            <remarks>
            This method must be called only when some decoded data will be stored into it subsequently.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.HasDecodedData">
            <summary>
            Returns true if some decoded data has been stored into <see cref="F:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.lazyDecodeData"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.DecodedData">
            <summary>
            Gets the stored decoded data.
            </summary>
            <remarks>
            Assumes <see cref="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.HasDecodedData"/> is true.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.Binder">
            <summary>
            Binder to bind early well-known attributes.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.AttributeType">
            <summary>
            Bound type of the attribute to decode.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.AttributeSyntax">
            <summary>
            Syntax of the attribute to decode.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.EarlyDecodeWellKnownAttributeArguments`4.SymbolPart">
            <summary>
            Specific part of the symbol to which the attributes apply, or AttributeLocation.None if the attributes apply to the symbol itself.
            Used e.g. for return type attributes of a method symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonAttributeData.IsTargetEarlyAttribute(Roslyn.Compilers.Common.INamedTypeSymbol,System.Int32,Roslyn.Compilers.AttributeDescription)">
            <summary>
            Checks if an applied attribute with the given attributeType matches the namespace name and type name of the given early attribute's description
            and the attribute description has a signature with parameter count equal to the given attributeArgCount.
            NOTE: We don't allow early decoded attributes to have optional parameters.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonAttributeData.GetConstructorArgument``1(System.Int32,Roslyn.Compilers.SpecialType)">
            <summary>
            Returns the value of a constructor argument as type <typeparamref name="T"/>.
            Throws if no constructor argument exists or the argument cannot be converted to the type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonAttributeData.DecodeNamedArgument``1(System.String,Roslyn.Compilers.SpecialType,``0)">
            <summary>
            Returns named attribute argument with the given <paramref name="name"/> as type <typeparamref name="T"/>.
            If there is more than one named argument with this name, it returns the last one.
            If no named argument is found then the <paramref name="defaultValue"/> is returned.
            </summary>
            <param name="name">The metadata property or field name. This name is case sensitive (both VB and C#).</param>
            <param name="specialType">SpecialType of the named argument.</param>
            <param name="defaultValue">Default value for the named argument.</param>
            <remarks>
            For user defined attributes VB allows duplicate named arguments and uses the last value.
            Dev11 reports an error for pseudo-custom attributes when emitting metadata. We don't.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonAttributeData.DecodeObsoleteAttribute(Roslyn.Compilers.Common.CommonCompilation)">
            <summary>
            Decode the arguments to ObsoleteAttribute. ObsoleteAttribute can have 0,1 or 2 arguments.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonAttributeData.AttributeClass">
            <summary>
            The attribute class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonAttributeData.AttributeConstructor">
            <summary>
            The constructor on the attribute class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonAttributeData.ConstructorArguments">
            <summary>
            Constructor arguments on the attribute.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonAttributeData.NamedArguments">
            <summary>
            Named (property value) arguments on the attribute. 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonEventEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on an event.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonFieldEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on a field.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonMethodEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on a method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonModuleWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a module.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ObsoleteAttributeData">
            <summary>
            Information decoded from ObsoleteAttribute.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ObsoleteAttributeData.IsError">
            <summary>
            True if an error should be thrown for the ObsoleteAttribute. Default is false in which case
            a warning is thrown.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ObsoleteAttributeData.Message">
            <summary>
            The message that will be shown when an error\warning is created for ObsoleteAttribute.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DllImportData">
            <summary>
            Information that describes how a method from the underlying Platform is to be invoked.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IPlatformInvokeInformation">
            <summary>
            Information that describes how a method from the underlying Platform is to be invoked.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPlatformInvokeInformation.ModuleName">
            <summary>
            Module providing the method/field.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPlatformInvokeInformation.EntryPointName">
            <summary>
            Name of the method providing the implementation.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPlatformInvokeInformation.Flags">
            <summary>
            Flags that determine marshalling behavior.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.ModuleName">
            <summary>
            Module name. Null if value specified in the attribute is not valid.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.EntryPointName">
            <summary>
            Name of the native entry point or null if not specified (the effective name is the same as the name of the target method).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.ExactSpelling">
            <summary>
            Controls whether the <see cref="P:CharacterSet"/> field causes the common language runtime 
            to search an unmanaged DLL for entry-point names other than the one specified.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.CharacterSet">
            <summary>
            Indicates how to marshal string parameters and controls name mangling.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.SetLastError">
            <summary>
            Indicates whether the callee calls the SetLastError Win32 API function before returning from the attributed method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.CallingConvention">
            <summary>
            Indicates the calling convention of an entry point.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.BestFitMapping">
            <summary>
            Enables or disables best-fit mapping behavior when converting Unicode characters to ANSI characters.
            Null if not specified (the setting for the containing type or assembly should be used, <see cref="T:System.Runtime.InteropServices.BestFitMappingAttribute"/>).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DllImportData.ThrowOnUnmappableCharacter">
            <summary>
            Enables or disables the throwing of an exception on an unmappable Unicode character that is converted to an ANSI "?" character.
            Null if not specified.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonEventWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on an event.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonPropertyEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on a property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonPropertyWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a property.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonReturnTypeWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a method return value.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonReturnTypeWellKnownAttributeData.MarshallingInformation">
            <summary>
            Returns marshalling data or null of MarshalAs attribute isn't applied on the return value.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SecurityWellKnownAttributeData">
            <summary>
            Information decoded from security attributes, i.e. attributes derived from well-known SecurityAttribute, applied on a method/type/assembly.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SecurityWellKnownAttributeData.GetSecurityAttributes``1(Roslyn.Compilers.ReadOnlyArray{``0})">
            <summary>
            Used for retreiving applied source security attributes, i.e. attributes derived from well-known SecurityAttribute.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonTypeEarlyWellKnownAttributeData">
            <summary>
            Information decoded from early well-known custom attributes applied on a type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TypeLayout">
            <summary>
            Type layout information.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TypeLayout.Kind">
            <summary>
            Layout kind (Layout flags in metadata).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TypeLayout.Alignment">
            <summary>
            Field alignment (PackingSize field in metadata).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TypeLayout.Size">
            <summary>
            Size of the type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.ItemInternal(Roslyn.Compilers.Common.IBaseSyntaxNodeExt,System.Int32)">
            <summary>
            internal indexer that does not verify index.
            Used when caller has already ensured that index is within bounds.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.Reversed.EnumeratorImpl.MoveNext">
            <summary>
            Advances the enumerator to the next element of the collection.
            </summary>
            <returns>
            true if the enumerator was successfully advanced to the next element; false if the enumerator has passed the end of the collection.
            </returns>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.Reversed.EnumeratorImpl.Reset">
            <summary>
            Sets the enumerator to its initial position, which is before the first element in the collection.
            </summary>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.Reversed.EnumeratorImpl.Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonChildSyntaxList.Reversed.EnumeratorImpl.Current">
            <summary>
            Gets the element in the collection at the current position of the enumerator.
            </summary>
            <returns>
            The element in the collection at the current position of the enumerator.
              </returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonChildSyntaxList.Reversed.EnumeratorImpl.System#Collections#IEnumerator#Current">
            <summary>
            Gets the element in the collection at the current position of the enumerator.
            </summary>
            <returns>
            The element in the collection at the current position of the enumerator.
              </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.EnumeratorImpl.MoveNext">
            <summary>
            Advances the enumerator to the next element of the collection.
            </summary>
            <returns>
            true if the enumerator was successfully advanced to the next element; false if the enumerator has passed the end of the collection.
            </returns>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.EnumeratorImpl.Reset">
            <summary>
            Sets the enumerator to its initial position, which is before the first element in the collection.
            </summary>
            <exception cref="T:System.InvalidOperationException">The collection was modified after the enumerator was created. </exception>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonChildSyntaxList.EnumeratorImpl.Dispose">
            <summary>
            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonChildSyntaxList.EnumeratorImpl.Current">
            <summary>
            Gets the element in the collection at the current position of the enumerator.
            </summary>
            <returns>
            The element in the collection at the current position of the enumerator.
              </returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonChildSyntaxList.EnumeratorImpl.System#Collections#IEnumerator#Current">
            <summary>
            Gets the element in the collection at the current position of the enumerator.
            </summary>
            <returns>
            The element in the collection at the current position of the enumerator.
              </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTriviaList.First">
            <summary>
            Returns the first CommonSyntaxTrivia in the list.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTriviaList.FirstOrDefault">
            <summary>
            Returns the first CommonSyntaxTrivia in the list or the default value of CommonSyntaxTrivia if the list has no items.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTriviaList.Last">
            <summary>
            Returns the last CommonSyntaxTrivia in the list. May throw ArgumentOutOfRange exception.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTriviaList.LastOrDefault">
            <summary>
            Returns the last CommonSyntaxTrivia in the list or the default value of CommonSyntaxTrivia if the list has no items.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTriviaList.Any">
            <summary>
            Does this list have any items.
            </summary>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxTriviaList.Reversed">
            <summary>
            reversed enumerable
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.SyntaxWalkerDepth">
            <summary>
            enum to specify how deep walker should decent into
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.SyntaxWalkerDepth.Node">
            <summary>
            descend into only nodes
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.SyntaxWalkerDepth.Token">
            <summary>
            descend into nodes and tokens
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.SyntaxWalkerDepth.Trivia">
            <summary>
            descend into nodes, tokens and trivia
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.SyntaxWalkerDepth.StructuredTrivia">
            <summary>
            descend into everything
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SyntaxRemoveOptions.KeepNoTrivia">
            <summary>
            None of the trivia associated with the node or token is kept.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SyntaxRemoveOptions.KeepExteriorTrivia">
            <summary>
            The leading and trailing trivia associated with the node or token is kept.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SyntaxRemoveOptions.KeepUnbalancedDirectives">
            <summary>
            Any directives that would become unbalanced are kept.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SyntaxRemoveOptions.KeepDirectives">
            <summary>
            All directives are kept
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.VbStringDisplay">
            <summary>
            Implements VB string escaping. Uses iterators and thus it's implemented in shared code.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataImageReference">
            <summary>
            Represents an in-memory Portable-Executable image.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.PortableExecutableReference">
            <summary>
            Reference to metadata stored in the standard ECMA-335 metadata format.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.PortableExecutableReference.GetDocumentationProvider">
            <summary>
            Returns XML doc comments provider for the reference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.PortableExecutableReference.CreateMetadata">
             <summary>
             Get metadata for the PE file.
             </summary>
             <exception cref="T:System.BadImageFormatException">If the PE image format is invalid.</exception>
             <exception cref="T:System.SystemException">Metadata image can't be read.</exception>
             <remarks>
             Called when the compiler needs to read the reference metadatada. The listed exceptions are caught and converted to compilation diagnostics.
             Any other exception is considered an unexpected error in the implementation and is not caught.
            
             <see cref="T:Roslyn.Compilers.ModuleMetadata"/> may cache information decoded from the PE image.
             Reusing <see cref="T:Roslyn.Compilers.Metadata"/> instances accross metadata references will result in better performance.
             
             This method is called at most once per metadata referenceand its result is cached on the reference object.
             </remarks>
        </member>
        <member name="M:Roslyn.Compilers.PortableExecutableReference.GetMetadata">
            <summary>
            Creates or gets cached metadata for the PE file.
            Might throw an exception for invalid metadata files.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.PortableExecutableReference.GetMetadata(Roslyn.Compilers.Common.CommonMessageProvider,Roslyn.Compilers.Common.CommonLocation,Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Creates or gets cached metadata for the PE file.
            If any of the following exceptions: <see cref="T:System.BadImageFormatException"/>, <see cref="T:System.IO.FileNotFoundException"/>, <see cref="T:System.IO.IOException"/>,
            are thrown while reading the metadata file, the exception is caught and an appropriate diagnostic stored in <paramref name="diagnostics"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.PortableExecutableReference.LoadMetadata``1(System.Boolean,Roslyn.Compilers.Common.CommonMessageProvider,Roslyn.Compilers.Common.CommonLocation,System.String,System.Func{``0},System.Func{Roslyn.Compilers.Common.CommonDiagnostic,``0})">
            <summary>
            Handles exceptions caused by metadata loading in uniform way and returns a diagnostics, 
            returns null if the exception was handled.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.PortableExecutableReference.Display">
            <summary>
            Path or name used in error messages to identity the reference.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.PortableExecutableReference.FullPath">
            <summary>
            Full path describing the location of the metadata, or null if the metadata have no location.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataImageReference.#ctor(Roslyn.Compilers.ReadOnlyArray{System.Byte},Roslyn.Compilers.DocumentationProvider,System.String,System.Boolean,System.String,System.String)">
            <summary>
            Creates a reference to a single-module assembly image.
            </summary>
            <param name="assemblyImage">Read-only assembly image.</param>
            <param name="documentation">Provides XML documentation for symbol found in the reference.</param>
            <param name="alias">Reference alias.</param>
            <param name="embedInteropTypes">True if interop types contained in the reference should be embedded to the compilation that uses the reference.</param>
            <param name="fullPath">Optional full path used for reference comparison when used in compilation. The file doesn't need to exist.</param>
            <param name="display">Display string for error reporting.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataImageReference.#ctor(Roslyn.Compilers.ModuleMetadata,Roslyn.Compilers.DocumentationProvider,System.String,System.String)">
            <summary>
            Creates a reference to a standalone module image.
            </summary>
            <param name="metadata">Metadata for the standalone module.</param>
            <param name="fullPath">
            Optional full path used for reference comparison when used in compilation. 
            The file doesn't need to exist.
            If <paramref name="metadata"/> represents a memory mapped file and this parameter is not specified the path to the memory mapped file is used.
            </param>
            <param name="documentation">Provides XML documentation for symbol found in the reference.</param>
            <param name="display">Display string for error reporting.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataImageReference.#ctor(Roslyn.Compilers.AssemblyMetadata,Roslyn.Compilers.DocumentationProvider,System.String,System.Boolean,System.String,System.String)">
            <summary>
            Creates a reference to an assembly or a module image. The assembly can comprise multiple modules.
            </summary>
            <param name="metadata">Assembly or module metadata.</param>
            <param name="documentation">Provides XML documentation for symbol found in the reference.</param>
            <param name="alias">Reference alias.</param>
            <param name="embedInteropTypes">True if interop types contained in the reference should be embedded to the compilation that uses the reference.</param>
            <param name="fullPath">
            Optional full path used for reference comparison when used in compilation. 
            The file doesn't need to exist.
            If the manifest module of the assembly is a memory mapped file and this parameter is not specified the path to the memory mapped file is used.
            </param>
            <param name="display">Display string for error reporting.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataImageReference.WithAlias(System.String)">
            <summary>
            Returns an instance of the reference with specified alias.
            </summary>
            <param name="alias">The new alias for the reference.</param>
            <exception cref="T:System.ArgumentException">Alias is invalid for the metadata kind.</exception> 
        </member>
        <member name="M:Roslyn.Compilers.MetadataImageReference.WithEmbedInteropTypes(System.Boolean)">
            <summary>
            Returns an instance of the reference with specified interop types embedding.
            </summary>
            <param name="value">The new value for <see cref="P:Roslyn.Compilers.MetadataReferenceProperties.EmbedInteropTypes"/>.</param>
            <exception cref="T:System.ArgumentException">Interop types can't be embedded from modules.</exception> 
        </member>
        <member name="T:Roslyn.Compilers.MetadataFileReference">
            <summary>
            Represents a metadata image with a file path.
            </summary>
            <remarks>
            The actual image doesn't need to be stored in a physical file on disk. It can be loaded in memory.
            Unlike <see cref="T:Roslyn.Compilers.MetadataImageReference"/>, <see cref="T:Roslyn.Compilers.MetadataFileReference"/> represents an image with a path.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.ModuleMetadata">
            <summary>
            Represents an immutable assembly metadata.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ModuleMetadata.#ctor(Roslyn.Compilers.ReadOnlyArray{System.Byte})">
            <summary>
            Create metadata module from a byte array.
            </summary>
            <param name="peImage">Read-only PE image.</param>
            <exception cref="T:System.BadImageFormatException">The PE image format is invalid.</exception>
        </member>
        <member name="M:Roslyn.Compilers.ModuleMetadata.#ctor(System.String)">
            <summary>
            Memory maps the given file.
            </summary>
            <param name="fullPath">Absolute path to the file to map.</param>
            <remarks>
            The file remains mapped (and read-locked) until this object is disposed.
            </remarks>
            <exception cref="T:System.ArgumentNullException"><paramref name="fullPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="fullPath"/> is not a valid absolute path.</exception>
            <exception cref="T:System.Security.SecurityException">The caller does not have the required permission.</exception>
            <exception cref="T:System.BadImageFormatException">The PE image format is invalid.</exception>
            <exception cref="T:System.IO.IOException">Error reading the file.</exception>
        </member>
        <member name="M:Roslyn.Compilers.ModuleMetadata.Copy">
            <summary>
            Creates a shallow copy of this object.
            </summary>
            <remarks>
            The resulting copy shares the metadata image and metadata information read from it with the original.
            It doesn't own the underlying metadata image and is not responsible for its disposal.
            
            This is used, for example, when a metadata cache needs to return the cached metadata to its users
            while keeping the ownership of the cached metadata object.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.ModuleMetadata.Dispose">
            <summary>
            Frees memory and handles allocated for the module.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ModuleMetadata.GetContent">
            <summary>
            Returns read-only PE image.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ModuleMetadata.FullPath">
            <summary>
            Full path of the module if the metadata is memory-mapped from a file, null otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ModuleMetadata.Name">
            <summary>
            Name of the module.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataImageKind">
            <summary>
            The kind of metadata a PE file image contains.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataImageKind.Assembly">
            <summary>
            The PE file is an assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataImageKind.Module">
            <summary>
            The PE file is a module.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataReferenceProperties">
            <summary>
            Information about a metadata reference.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReferenceProperties.Module">
            <summary>
            Default properties for a module reference.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReferenceProperties.Assembly">
            <summary>
            Default properties for an assembly reference.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReferenceProperties.#ctor(Roslyn.Compilers.MetadataImageKind,System.String,System.Boolean)">
            <summary>
            Initializes reference properties.
            </summary>
            <param name="kind">The image kind - assembly or module.</param>
            <param name="alias">Assembly alias. Can't be set for a module.</param>
            <param name="embedInteropTypes">True to embed interop types from the referenced assembly to the referencing compilation. Must be false for a module.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReferenceProperties.WithAlias(System.String)">
            <summary>
            Returns <see cref="T:Roslyn.Compilers.MetadataReferenceProperties"/> with <see cref="P:Alias"/> set to specified value.
            </summary>
            <exception cref="T:System.ArgumentException">
            <see cref="P:Kind"/> is <see cref="F:Roslyn.Compilers.MetadataImageKind.Module"/>, as modules can't be aliased.
            </exception>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReferenceProperties.WithEmbedInteropTypes(System.Boolean)">
            <summary>
            Returns <see cref="T:Roslyn.Compilers.MetadataReferenceProperties"/> with <see cref="P:EmbedInteropTypes"/> set to specified value.
            </summary>
            <exception cref="T:System.ArgumentException"><see cref="P:Kind"/> is <see cref="F:Roslyn.Compilers.MetadataImageKind.Module"/>, as interop types can't be embedded from modules.</exception>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReferenceProperties.Kind">
            <summary>
            The image kind (assembly or module) the reference refers to.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReferenceProperties.Alias">
            <summary>
            Non-empty alias for the metadata reference, or null.
            </summary>
            <remarks>
            In C# this alias can be used in "extern alias" syntax to disambiguate type names. 
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReferenceProperties.EmbedInteropTypes">
            <summary>
            True if interop types defined in the refernced metadata should be embedded into the compilation referencing the metadata.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ObjectReader">
            <summary>
            A class that reads both primitive values and non-cyclical object graphs from a stream that was constructed using 
            the ObjectWriter class.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadBoolean">
            <summary>
            Read a Boolean value from the stream. This value must have been written using ObjectWriter.WriteBoolean.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadByte">
            <summary>
            Read a Byte value from the stream. This value must have been written using ObjectWriter.WriteByte.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadChar">
            <summary>
            Read a Char value from the stream. This value must have been written using ObjectWriter.WriteChar.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadDecimal">
            <summary>
            Read a Decimal value from the stream. This value must have been written using ObjectWriter.WriteDecimal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadDouble">
            <summary>
            Read a Double value from the stream. This value must have been written using ObjectWriter.WriteDouble.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadSingle">
            <summary>
            Read a Single value from the stream. This value must have been written using ObjectWriter.WriteSingle.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadInt32">
            <summary>
            Read a Int32 value from the stream. This value must have been written using ObjectWriter.WriteInt32.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadInt64">
            <summary>
            Read a Int64 value from the stream. This value must have been written using ObjectWriter.WriteInt64.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadSByte">
            <summary>
            Read a SByte value from the stream. This value must have been written using ObjectWriter.WriteSByte.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadInt16">
            <summary>
            Read a Int16 value from the stream. This value must have been written using ObjectWriter.WriteInt16.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadUInt32">
            <summary>
            Read a UInt32 value from the stream. This value must have been written using ObjectWriter.WriteInt32.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadUInt64">
            <summary>
            Read a UInt64 value from the stream. This value must have been written using ObjectWriter.WriteUInt64.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadUInt16">
            <summary>
            Read a UInt16 value from the stream. This value must have been written using ObjectWriter.WriteUInt16.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadDateTime">
            <summary>
            Read a DateTime value from the stream. This value must have been written using the ObjectWriter.WriteDateTime.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadCompressedUInt">
            <summary>
            Read a compressed 30-bit integer value from the stream. This value must have been written using ObjectWriter.WriteCompressedInt.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadValue">
            <summary>
            Read a value from the stream. The value must have been written using ObjectWriter.WriteValue.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectReader.ReadString">
            <summary>
            Read a String value from the stream. This value must have been written using ObjectWriter.WriteString.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ObjectWriter">
            <summary>
            A class that writes both primitive values and non-cyclical object graphs to a stream that may be
            later read back using the ObjectReader class.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteBoolean(System.Boolean)">
            <summary>
            Writes a Boolean value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteByte(System.Byte)">
            <summary>
            Writes a Byte value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteChar(System.Char)">
            <summary>
            Writes a Char value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteDecimal(System.Decimal)">
            <summary>
            Writes a Decimal value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteDouble(System.Double)">
            <summary>
            Writes a Double value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteSingle(System.Single)">
            <summary>
            Writes a Single value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteInt32(System.Int32)">
            <summary>
            Writes a Int32 value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteInt64(System.Int64)">
            <summary>
            Writes a Int64 value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteSByte(System.SByte)">
            <summary>
            Writes a SByte value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteInt16(System.Int16)">
            <summary>
            Writes a Int16 value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteUInt32(System.UInt32)">
            <summary>
            Writes a UInt32 value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteUInt64(System.UInt64)">
            <summary>
            Writes a UInt64 value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteUInt16(System.UInt16)">
            <summary>
            Writes a UInt16 value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteDateTime(System.DateTime)">
            <summary>
            Writes a DateTime value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteCompressedUInt(System.UInt32)">
            <summary>
            Writes a compressed 30 bit integer to the stream. (not 32 bit)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteString(System.String)">
            <summary>
            Writes a String value to the stream.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectWriter.WriteValue(System.Object)">
            <summary>
            Writes any value (primitive or object graph) to the stream.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SwitchConstantValueHelper">
            <summary>
            Contains helper methods for switch statement label constants
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SwitchConstantValueHelper.CompareSwitchCaseLabelConstants(Roslyn.Compilers.ConstantValue,Roslyn.Compilers.ConstantValue)">
            <summary>
            Method used to compare ConstantValues for switch statement case labels
            </summary>
            <param name="first"></param>
            <param name="second"></param>
            <returns>A value that indicates the relative order of the objects being compared. The return value has these meanings:
            Less than zero:     first instance precedes second in the sort order.
            Zero:               first instance occurs in the same position in the sort order as second.
            Greater than zero:  first instance follows second in the sort order.
            </returns>
        </member>
        <member name="F:Roslyn.Compilers.OutputKind.ConsoleApplication">
            <summary>
            An .exe with an entry point and a console.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.OutputKind.WindowsApplication">
            <summary>
            An .exe with an entry point but no console.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.OutputKind.DynamicallyLinkedLibrary">
            <summary>
            A .dll file.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.OutputKind.NetModule">
            <summary>
            A .netmodule file.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CandidateReason">
            <summary>
            Indicates the reasons why a candidate (or set of candidate) symbols were not considered
            correct in SemanticInfo. Higher values take precedence over lower values, so if, for
            example, there a symbol with a given name that was inaccessible, and other with the wrong
            arity, only the inaccessible one would be reported in the SemanticInfo.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.None">
            <summary>
            No CandidateSymbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotATypeOrNamespace">
            <summary>
            Only a type or namespace was valid in the given location, but the candidate symbols was
            of the wrong kind.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotAnEvent">
            <summary>
            Only an event was valid in the given location, but the candidate symbols was
            of the wrong kind.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotAWithEventsMember">
            <summary>
            The candidate symbol must be a WithEvents member, but it was not. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotAnAttributeType">
            <summary>
            Only an attribute type was valid in the given location, but the candidate symbol was
            of the wrong kind.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.WrongArity">
            <summary>
            The candidate symbol takes a different number of type parameters that was required.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotCreatable">
            <summary>
            The candidate symbol existed, but was not allowed to be created in a new expression. 
            For example, interfaces, static classes, and unconstrained type parameters.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotReferencable">
            <summary>
            The candidate symbol existed, but was not allowed to be referenced. For example, the
            "get_XXX" method used to implement a property named "XXX" may not be directly
            referenced. Similarly, the type "System.Void" can not be directly referenced.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.Inaccessible">
            <summary>
            The candidate symbol had an accessibility modifier (private, protected, ...) that made
            it inaccessible.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotAValue">
            <summary>
            The candidate symbol was in a place where a value was required, but was not a value
            (e.g., was a a type or namespace).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotAVariable">
            <summary>
            The candidate symbol was in a place where a variable (or sometimes, a property) was
            required, but was not allowed there because it isn't a symbol that can be assigned to. 
            For example, the left hand side of an assignment, or a ref or out parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.NotInvocable">
            <summary>
            The candidate symbol was used in a way that an invocable member (method, or variable of
            delegate type) was required, but the candidate symbol was not invocable.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.StaticInstanceMismatch">
            <summary>
            The candidate symbol must be an instance variable, but was used as static, or the
            reverse. Also occurs if "this" is used in a context (static method or field initializer)
            where "this" is not available. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.OverloadResolutionFailure">
            <summary>
            Overload resolution did not chose a method. The candidate symbols are the methods there
            were considered during overload resolution (which may or may not be applicable methods). 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.Latebound">
            <summary>
            Method could not be selected statically.
            The candidate symbols are the methods there were considered during overload resolution 
            (which may or may not be applicable methods). 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CandidateReason.Ambiguous">
            <summary>
            Multiple ambiguous symbols were available with the same name. This can occur if "using"
            statements bring multiple namespaces into scope, and the same type is available in
            multiple. This can also occur if multiple properties of the same name are available in a
            multiple interface inheritance situation.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.DebuggerUtilities.CallBeforeAcquiringLock">
            <summary>
            The issue here is acquiring a lock in the course of evaluating a property
            value in the debugger (e.g. in the Locals window).  If anything causes that
            evaluation to bail, it will do so without releasing the lock, making future
            evaluations impossible (leads to a timeout, among other things).  One thing
            that might cause the evaluation to bail is a call to 
            Debugger.NotifyOfCrossThreadDependency, which causes the debugger to prompt
            the user for confirmation (little swirling red and blue icon) before evaluating
            an expression that will involve multiple threads.  To prevent this from happening
            we make the call ourselved *before* acquiring the lock.  Then, when the user
            opts to proceed, the evaluation runs without interruption and succeeds.
            </summary>
            <remarks>
            TODO: This probably isn't necessary in Dev11 (see Dev11 548767 and/or Dev11 84313).
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.GlobalAssemblyCache">
            <summary>
            Provides APIs to enumerate and look up assemblies stored in the Global Assembly Cache.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.GlobalAssemblyCache.GetAssemblyIdentities(System.Reflection.AssemblyName,System.Func{System.Reflection.ProcessorArchitecture,System.Boolean})">
            <summary>
            Enumerates assemblies in the GAC returning those that match given partial name and
            architecture.
            </summary>
            <param name="partialName">Optional partial name.</param>
            <param name="architectureFilter">Optional architecture filter.</param>
        </member>
        <member name="M:Roslyn.Compilers.GlobalAssemblyCache.GetAssemblyIdentities(System.String,System.Func{System.Reflection.ProcessorArchitecture,System.Boolean})">
            <summary>
            Enumerates assemblies in the GAC returning those that match given partial name and
            architecture.
            </summary>
            <param name="partialName">Optional partial name.</param>
            <param name="architectureFilter">Optional architecture filter.</param>
        </member>
        <member name="M:Roslyn.Compilers.GlobalAssemblyCache.GetAssemblySimpleNames(System.Func{System.Reflection.ProcessorArchitecture,System.Boolean})">
            <summary>
            Enumerates assemblies in the GAC returning their simple names.
            </summary>
            <param name="architectureFilter">Optional architecture filter.</param>
            <returns>Unique simple names of GAC assemblies.</returns>
        </member>
        <member name="F:Roslyn.Compilers.FileKey.FullPath">
            <summary>
            Full case-insensitive path.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.FileKey.Timestamp">
            <summary>
            Last write time (Utc).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.FileKey.#ctor(System.String,System.DateTime)">
            <summary>
            Constructor.
            </summary>
            <param name="fullPath">Full path.</param>
            <param name="timestamp">Last write time (Utc).</param>
        </member>
        <member name="T:Roslyn.Compilers.MetadataCache">
             <summary>
             Manages cache of the following information for Portable Executables loaded from files.
            
             For assemblies - a map from file name and timestamp to: 
                 1) A weak reference to the corresponding MetadataReader.Assembly object;
                 2) A list of weak references to instances of VB/CS AssemblySymbols based on the MetadataReader.Assembly object.
            
             For modules - a map from file name and timestamp to a weak reference to the corresponding MetadataReader.Module object
             </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.compactTimerPeriod">
            <summary>
            Period at which the timer is firing (30 seconds).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.assembliesFromFiles">
            <summary>
            Global cache for assemblies imported from files.
            The cache must be locked for the duration of read/write operations, see CacheLockObject property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.modulesFromFiles">
            <summary>
            Global cache for net-modules imported from files.
            The cache must be locked for the duration of read/write operations, see CacheLockObject property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.compactTimer">
            <summary>
            Timer triggering compact operation for metadata cache.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.CompilationsToCompact">
            <summary>
            List of compilations that should be compacted.
            
            The cache must be locked for the duration of read/write operations, 
            see CacheLockObject property.
            
            Internal accesibility is for test purpose only.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.compactInProgress">
            <summary>
            compactTimer's procedure is in progress.
            Used to prevent multiple instances running in parallel.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.compactTimerIsOn">
            <summary>
            compactTimer is on, i.e. will fire.
            
            This field is changed to 'yes' only by EnableCompactTimer(),
            and is changed to 'no' only by CompactCache().
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.compactCollectionCount">
            <summary>
            Collection count last time the cache was compacted.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataCache.cacheLockObject">
            <summary>
            The object that must be locked for the duration of read/write operations on AssemblyManager's caches.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.CompactCacheOfRetargetingAssemblies">
            <summary>
            Called by compactTimer.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.GetCollectionCount">
            <summary>
            Return amount of GC collections occurred so far.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.CompactCache(System.Object)">
            <summary>
            Called by compactTimer to compact the cache.
            </summary>
            <param name="state"></param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.EnableCompactTimer">
            <summary>
            Trigger timer every 30 seconds.
            Cache must be locked before calling this method.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.TriggerCacheCompact">
            <summary>
            Trigger compact operation for the cache, meant to be used for test purpose only.
            Locking the cache prior to calling this method is a good way to get into a deadlock.
            
            For test purposes only!!!
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.CompactCacheOfAssemblies">
            <summary>
            Called by compactTimer.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.CompactCacheOfModules">
            <summary>
            Called by compactTimer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataCache.CompactTimerIsOn">
            <summary>
            For test purposes only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataCache.AssembliesFromFiles">
            <summary>
            Global cache for assemblies imported from files.
            The cache must be locked for the duration of read/write operations, see CacheLockObject property.
            Internal accessibility is for test purpose only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataCache.AssemblyKeys">
            <summary>
            For test purposes only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataCache.ModulesFromFiles">
            <summary>
            Global cache for net-modules imported from files.
            The cache must be locked for the duration of read/write operations, see CacheLockObject property.
            Internal accessibility is for test purpose only.
            </summary>
            <remarks></remarks>
        </member>
        <member name="P:Roslyn.Compilers.MetadataCache.ModuleKeys">
            <summary>
            For test purposes only.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataCache.CleaningCacheLock">
            <summary>
            This class is meant to be used for test purpose only.
            It locks MetadataCache until the instance is disposed.
            Upon locking, the cache is swapped with an empty cache,
            original cache is restored before the cache is unlocked.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataCache.CleaningCacheLock.CleanCaches">
            <summary>
            Clean global metadata caches, meant to be used for test purpose only.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.Realize">
            <summary>
            Realizes method body.
            No more data can be added to the builder after this call.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.GetAllScopes(System.Boolean)">
            <summary>
            Gets all scopes that contain variables.
            </summary>
            <param name="edgeInclusive">Specifies whether scope spans should be reported as edge inclusive
            (position at "start + length" is IN the scope). VB EE expects that.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.GetIteratorScopes(System.Boolean)">
            <summary>
            Gets all scopes that contain variables.
            </summary>
            <param name="edgeInclusive">Specifies whether scope spans should be reported as edge inclusive
            (position at "start + length" is IN the scope). VB EE expects that.</param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.MarkReachableBlocks">
            <summary>
            Marks blocks that are reachable.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.MarkReachableFrom(Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock,System.Boolean)">
            <summary>
            Marks blocks that are recursively reachable from the given block.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.OptimizeLabels">
            <summary>
            If a label points to a block that does nothing other than passing to block X,
            replaces target label's block with block X.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.DropUnreachableBlocks">
            <summary>
            Drops blocks that are not reachable
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.MarkAllBlocksUnreachable">
            <summary>
            Marks all blocks unreachable.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.RewriteSpecialBlocks">
            <summary>
            Rewrite any block marked as BlockedByFinally as an "infinite loop".
            </summary>
            <remarks>
            Matches the code generated by the native compiler in
            ILGENREC::AdjustBlockedLeaveTargets.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.IsSpecialEndHandlerBlock(Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock)">
            <summary>
            Returns true if the block has the signature of the special
            labeled block that follows a complete try/catch or try/finally.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.DefineSeqPoint(Roslyn.Compilers.Common.CommonSyntaxTree,Roslyn.Compilers.TextSpan)">
            <summary>
            Define a sequence point with the given syntax tree and span within it.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.DefineHiddenSeqPoint">
            <summary>
            Defines a hidden sequence point.
            The effect of this is that debugger will not associate following code 
            with any source.(until it sees a lexically following sequence point)
            
            This is used for synthetic code that is reachable through labels.
            
            If such code is not separated from previous sequence point by the means of a hidden sequence point
            It looks as a part of the statement that previous sequence point specifies.
            As a result, when user steps through the code and goes through a jump to such label,
            it will appear as if the jump landed at the beginning of the previous statement.
            
            NOTE: Also inserted as the first statement of a method that would not otherwise have a leading
            sequence point so that step-into will find the method body.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.SetInitialDebugDocument(Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            This is called when starting emitting a method for which there is some source.
            It is done in case the first sequence point is a hidden point.
            Even though hidden points do not have syntax, thye need to associate with some document.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.MarkFilterConditionEnd">
            <summary>
            Marks the end of filter condition and start of the actual filter handler.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.DefineIteratorLocal(System.Int32)">
            <summary>
            See Microsoft.Cci.ILocalScopeProvider.GetIteratorScopes.  This is called within an
            iterator scope to identify that a field named "&lt;Xyzzy&gt;5__i" is used to represent
            a local variable named Xyzzy.  The "i" is an integer, which is passed to this method
            as the index parameter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.AddLocalToScope(Roslyn.Compilers.CodeGen.LocalDefinition)">
            <summary>
            Puts local variable into current scope.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.AddLocalConstantToScope(Roslyn.Compilers.CodeGen.LocalConstantDefinition)">
            <summary>
            Puts local constant into current scope.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.MarkLabel(System.Object)">
            <summary>
            Mark current IL position with a label
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitStringSwitchJumpTable(System.Collections.Generic.KeyValuePair{Roslyn.Compilers.ConstantValue,System.Object}[],System.Object,Roslyn.Compilers.CodeGen.LocalDefinition,System.Boolean,Roslyn.Compilers.CodeGen.LocalDefinition,Roslyn.Compilers.CodeGen.SwitchStringJumpTableEmitter.EmitStringCompareAndBranch,System.Object[])">
            <summary>
            Primary method for emitting string switch jump table
            </summary>
            <param name="caseLabels">switch case labels</param>
            <param name="fallThroughLabel">fall through label for the jump table</param>
            <param name="key">Local holding the value to switch on.
            This value has already been loaded onto the execution stack.
            </param>
            <param name="genHashTableSwitch">Flag indicating whether we should generate
            hash table based switch or non hash table switch.</param>
            <param name="keyHash">Local holding the hash value of the key for emitting
            hash table switch. Hash value has already been computed and loaded into keyHash.
            This parameter is null if emitting non hash table switch.
            </param>
            <param name="emitStringCondBranchDelegate">
            Delegate to emit string compare call and conditional branch based on the compare result.
            </param>
            <param name="delegateArguments">Arguments to be passed to emitStringCondBranchDelegate</param>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitIntegerSwitchJumpTable(System.Collections.Generic.KeyValuePair{Roslyn.Compilers.ConstantValue,System.Object}[],System.Object,Roslyn.Compilers.CodeGen.LocalDefinition,Microsoft.Cci.PrimitiveTypeCode)">
            <summary>
            Primary method for emitting integer switch jump table
            </summary>
            <param name="caseLabels">switch case labels</param>
            <param name="fallThroughLabel">fall through label for the jump table</param>
            <param name="key">Local holding the value to switch on.
            This value has already been loaded onto the execution stack.
            </param>
            <param name="keyTypeCode">Primitive type code of switch key</param>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.FinishFilterCondition">
            <summary>
            Finishes filter condition (and starts actual handler portion of the handler).
            Returns the last block of the condition.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitArrayCreation(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Generates code that creates an instance of multidimensional array
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitArrayElementLoad(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Generates code that loads an element of a multidimensional array
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitArrayElementAddress(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Generates code that loads an address of an element of a multidimensional array
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitArrayElementStore(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Generates code that stores an element of a multidimensional array
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.RealizedIL">
            <summary>
            This data is only relevant when builder has been realized.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.RealizedSequencePoints">
            <summary>
            This data is only relevant when builder has been realized.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.InstructionsEmitted">
            <summary>
            IL opcodes emitted by this builder.
            This includes branch instructions that end blocks except if they are fall-through NOPs.
            
            This count allows compilers to see if emitting a particular statement/expression 
            actually produced any instructions.
            
            Example: a label will not result in any code so when emitting debugging information 
                     an extra NOP may be needed if we want to decorate the label with sequence point. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.ILBuilder.Reachability.NotReachable">
            <summary>
            Block is not reachable or reachability analysis
            has not been performed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.ILBuilder.Reachability.Reachable">
            <summary>
            Block can be reached either falling through
            from previous block or from branch.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.ILBuilder.Reachability.BlockedByFinally">
            <summary>
            Block is reachable from try or catch but
            finally prevents falling through.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.AdjustForDelta(System.Int32)">
            <summary>
            Updates position of the current block to account for shorter sizes of previous blocks.
            </summary>
            <param name="delta"></param>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.ShortenBranches(System.Int32@)">
            <summary>
            If possible, changes the branch code of the current block to the short version and 
            updates the delta correspondingly.
            </summary>
            <param name="delta">Position delta created by previous block size reductions.</param>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.OptimizeBranches(System.Int32@)">
            <summary>
            replaces branches with more compact code if possible.
            * branch to the next block  ===> nop
            * branch to ret blok        ===> ret
            
            TODO:
            * cond branch over uncond branch ===> flip condition, skip next block
            * cond branch to next            ===> pop args + nop
            * ???
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.GetReversedBranchOp">
            <summary>
            Returns reversed branch operation for the current block.
            If no reverse opcode can be obtained Nop is returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.IsBranchToLabel">
            <summary>
            Returns true if this block has a branch label
            and is not a "nop" branch.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.RegularInstructions">
            <summary>
            Instructions that are not branches.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock.HasNoRegularInstructions">
            <summary>
            The block contains only the final branch or nothing at all
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.EmitState">
            <summary>
            Abstract Execution state. 
            If we know something interesting about IL stream we put it here.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.EmitState.AdjustStack(System.Int32)">
            <summary>
            Record effects of that currently emitted instruction on the eval stack.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.EmitState.MaxStack">
            <summary>
            Eval stack's high watermark.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.ILBuilder.EmitState.CurStack">
            <summary>
            Current evaluation stack depth.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.LabelInfo">
            <summary>
            Contains information about a label.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CodeGen.ILBuilder.LabelInfo.targetOfConditionalBranches">
            <summary>
            Sometimes we need to know if a label is targeted by conditional branches.
            For example optimizer can do optimizations of branches into outer try scopes only 
            if they are unconditional (because there are no conditional Leave opcodes)
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.LabelInfo.#ctor(System.Int32,System.Boolean)">
            <summary>
            Used when we see a branch, but label is not yet marked.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.LabelInfo.#ctor(Roslyn.Compilers.CodeGen.ILBuilder.BasicBlock,System.Int32,System.Boolean)">
            <summary>
            Used when label is marked to the code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.LocalScopeManager.GetAllScopesWithLocals(System.Boolean)">
            <summary>
            Gets all scopes that contain variables.
            </summary>
            <param name="edgeInclusive">Specifies whether scope spans should be reported as edge inclusive
            (position at "start + length" is IN the scope). VB EE expects that.</param>
            <returns></returns>
            <remarks>
            NOTE that edgeInclusive affects only how results are _reported_. 
            All internal representation is EDGE EXCLUSIVE.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.LocalScopeManager.GetExceptionHandlerRegions">
            <summary>
            Returns an ExceptionHandlerRegion for each exception handler clause
            beneath the root scope. Each ExceptionHandlerRegion indicates the type
            of clause (catch or finally) and the bounds of the try block and clause block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.ScopeInfo">
            <summary>
            Base class for IL scopes where a scope contains IL blocks and other nested
            scopes. A scope may represent a scope for variable declarations, an exception
            handler clause, or an entire exception handler (multiple clauses).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.ScopeInfo.GetScopesWithLocals(Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.CodeGen.LocalScope},System.Boolean)">
            <summary>
            Recursively calculates the start and end of the given scope.
            Only scopes with locals are actually dumped to the list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.ScopeInfo.GetIteratorScopes(System.Collections.Generic.List{Roslyn.Compilers.CodeGen.LocalScope},System.Boolean)">
            <summary>
            Recursively calculates the start and end of the given scope.
            Only scopes with locals are actually dumped to the list.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilder.ScopeInfo.FreeBasicBlocks">
            <summary>
            Free any basic blocks owned by this scope or sub-scopes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.LocalScopeInfo">
            <summary>
            Class that collects content of the scope (blocks, nested scopes, variables etc).
            There is one for every opened scope.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.ExceptionHandlerScope">
            <summary>
            A scope for a single try, catch, or finally clause. If the clause
            is a catch clause, ExceptionType will be set.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.ExceptionHandlerContainerScope">
            <summary>
            A scope for an entire exception handler (a try block with either several
            catches or a finally block). Unlike other scopes, this scope contains
            nested scopes only, no IL blocks (although nested ExceptionHandlerScopes
            for the clauses will contain IL blocks).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ILBuilder.ScopeComparer">
            <summary>
            Compares scopes by their start (ascending) and then size (descending).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilderHelpers.IsClrInteger(Roslyn.Compilers.SpecialType)">
            <summary>
            Checks if a type is considered a "built-in integral" by CLR.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILBuilderHelpers.IsBlittable(Roslyn.Compilers.SpecialType)">
            <summary>
            Checks if a type is a primitive of a fixed size.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILOpCodeExtensions.IsControlTransfer(Roslyn.Compilers.CodeGen.ILOpCode)">
            <summary>
            These opcodes represent control transfer.
            They should not appear inside basic blocks.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILOpCodeExtensions.IsBranchToLabel(Roslyn.Compilers.CodeGen.ILOpCode)">
            <summary>
            Opcodes that represents a branch to a label.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILOpCodeExtensions.CanFallThrough(Roslyn.Compilers.CodeGen.ILOpCode)">
            <summary>
            Opcodes that represents a branch to a label.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILVisualizer.DumpILBlock(System.Byte[],System.Int32,System.Text.StringBuilder,Roslyn.Compilers.CodeGen.ITokenDeferral,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CodeGen.ExceptionHandlerRegion},System.Int32)">
            <summary>
            Dumps all instructions in the stream into provided string builder.
            The blockOffset specifies the relative position of the block within method body (if known).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ILVisualizer.GetHandlerSpans(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.CodeGen.ExceptionHandlerRegion})">
            <summary>
            Determine the list of spans ordered by handler
            block start, with outer handlers before inner.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalDefinition.#ctor(System.String,Microsoft.Cci.ITypeReference,System.Int32)">
            <summary>
            Creates a new LocalDefinition.
            Slot will have no special constraints.
            </summary>
            <param name="name">Name associated with the slot.</param>
            <param name="type">Type associated with the slot.</param>
            <param name="slot">Slot position in the signature.</param>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalDefinition.#ctor(System.String,Microsoft.Cci.ITypeReference,System.Int32,System.Boolean,System.Boolean)">
            <summary>
            Creates a new LocalDefinition.
            </summary>
            <param name="name">Name associated with the slot.</param>
            <param name="type">Type associated with the slot.</param>
            <param name="slot">Slot position in the signature.</param>
            <param name="isPinned">Specifies whether slot type should have pinned modifier.</param>
            <param name="isReference">Specifies whether slot should have byref constraint.</param>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.LocalScope">
            <summary>
            Scope representation for PDB emit.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ILocalScope">
            <summary>
            A range of CLR IL operations that comprise a lexical scope, specified as an IL offset and a length.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalScope.Offset">
            <summary>
            The offset of the first operation in the scope.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalScope.Length">
            <summary>
            The length of the scope. Offset+Length equals the offset of the first operation outside the scope, or equals the method body length.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ILocalScope.MethodDefinition">
            <summary>
            The definition of the method in which this local scope is defined.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.LocalSlotManager">
            <summary>
            At this level there are two kinds of local variables -
                
            Locals - have identities by which consuming code refers to them.
                Typical use is a local variable or a compiler generated temp that can be accessed in multiple operations.
                Any object can be used as identity. Reference equality is used.
                
            Temps - do not have identity. They are borrowed and returned to the free list.
                Typical use is a scratch temporary or spilling storage.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.DeclareLocal(Microsoft.Cci.ITypeReference,System.Object)">
            <summary>
            Gets a local slot and associates it with given identity.
            This will create a regular local (without byref, ispinned etc).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.DeclareLocal(Microsoft.Cci.ITypeReference,System.Object,System.Boolean,System.Boolean)">
            <summary>
            Gets a local slot and associates it with given identity.
            Also allows to specify whether the local should have byref constraint.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.GetLocal(System.Object)">
            <summary>
            Retrieve a local slot by its identity.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.FreeLocal(System.Object)">
            <summary>
            Release a local slot by its identity.
            Slot is not associated with identity after this.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.AllocateSlot(Microsoft.Cci.ITypeReference)">
            <summary>
            Gets a local slot.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.AllocateSlot(Microsoft.Cci.ITypeReference,System.Boolean,System.Boolean)">
            <summary>
            Gets a local slot.
            Also allows to specify whether the local should have byref constraint.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.LocalSlotManager.FreeSlot(Roslyn.Compilers.CodeGen.LocalDefinition)">
            <summary>
            Frees a local slot.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.LocalSlotManager.LocationSignature">
            <summary>
            Structure that represents a local signature (as in 8.6.1.3)
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataConstant">
            <summary>
            An expression that does not change its value at runtime and can be evaluated at compile time.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataConstant.Value">
            <summary>
            The compile time value of the expression. Can be null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.MetadataCreateArray">
            <summary>
            An expression that creates an array instance in metadata. Only for use in custom attributes.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataCreateArray">
            <summary>
            An expression that creates an array instance in metadata. Only for use in custom attributes.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataCreateArray.ElementType">
            <summary>
            The element type of the array.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataCreateArray.Initializers">
            <summary>
            The initial values of the array elements. May be empty.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataCreateArray.ElementCount">
            <summary>
            The number of elements in the array.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataCreateArray.LowerBounds">
            <summary>
            The index value of the first element in each dimension.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataCreateArray.Rank">
            <summary>
            The number of dimensions of the array.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataCreateArray.Sizes">
            <summary>
            The number of elements allowed in each dimension.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataCreateArray.Microsoft#Cci#IMetadataCreateArray#ElementType">
            <summary>
            The element type of the array.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataCreateArray.Microsoft#Cci#IMetadataCreateArray#Initializers">
            <summary>
            The initial values of the array elements. May be empty.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataCreateArray.Microsoft#Cci#IMetadataCreateArray#LowerBounds">
            <summary>
            The index value of the first element in each dimension.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataCreateArray.Microsoft#Cci#IMetadataCreateArray#Rank">
            <summary>
            The number of dimensions of the array.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataCreateArray.Microsoft#Cci#IMetadataCreateArray#Sizes">
            <summary>
            The number of elements allowed in each dimension.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.MetadataNamedArgument">
            <summary>
            An expression that represents a (name, value) pair and that is typically used in method calls, custom attributes and object initializers.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataNamedArgument.Microsoft#Cci#IMetadataNamedArgument#ArgumentName">
            <summary>
            The name of the parameter or property or field that corresponds to the argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataNamedArgument.Microsoft#Cci#IMetadataNamedArgument#ArgumentValue">
            <summary>
            The value of the argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataNamedArgument.Microsoft#Cci#IMetadataNamedArgument#IsField">
            <summary>
            True if the named argument provides the value of a field.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.MetadataTypeOf">
            <summary>
            An expression that results in a System.Type instance.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataTypeOf">
            <summary>
            An expression that results in a System.Type instance.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataTypeOf.TypeToGet">
            <summary>
            The type that will be represented by the System.Type instance.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CodeGen.MetadataTypeOf.TypeToGet">
            <summary>
            The type that will be represented by the System.Type instance.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ReflectionEmitter">
             <summary>
             Emits types in a given <see cref="T:Microsoft.Cci.IModule"/> to a <see cref="T:System.Reflection.Emit.ModuleBuilder"/>.
             </summary>
             <remarks>
             Some types can't be emitted either due to the current Reflection.Emit implementation bugs/architecture or 
             due to limitations of collectible assemblies (http://msdn.microsoft.com/en-us/library/dd554932.aspx).
             
             The main problem with Reflection.Emit is that it uses two-phase type creation process. <see cref="T:System.Reflection.Emit.TypeBuilder"/>s are defined in the first phase
             and created (baked) one by one in the second. This isn't compatible with the way how CLR Type Loader loads cyclic type references. 
             
             The following rules apply and imply a partial order on the type baking (based upon observation and tests; they are not clearly documented anywhere) :
             1) Before a type can be baked its derived type and all interfaces it implements needs to be baked.
             2) Before a generic type can be baked the constraints of its generic type parameters need to be baked.
             3) Before a type can be baked all types of its fields that are value types need to be baked (reference typed fields don't).
             4) If a type is dependent on a generic type instantiation it is also dependent on its generic arguments.
             5) If a type is dependent on a type nested in another type the outer type need to be baked first.
            
             If these rule imply an order that is not satisfiable (there is a cycle) the emitter throws <see cref="T:System.NotSupportedException"/>.
             
             TODO (tomat):
             Some of these rules can be circumvented by using AppDomain.TypeLoad event, but it's unclear which exactly (I suspect #4).
             
             Examples of type topologies that can't be emitted today are:
             
             <code>
             class B{T} where T : A              // B depends on A by rule #2
             class A : B{A}                      // A depends on B by rule #1
             </code>
             
             <code>
             public class E                      
             {
                 public struct N2
                 {
                     public N3 n1;               // E.N2 depends on E.N3 by rule #3 and thus on E by rule #5
                 }
                 public struct N3    
                 {
                 }
                 N2 n2;                          // E depends on E.N2 by rule #3
             }
             </code>
             </remarks>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ReflectionEmitter.AddDependency(System.Reflection.Emit.TypeBuilder,System.Reflection.Emit.TypeBuilder)">
            <summary>
            Establishes a creation dependency of <paramref name="builder"/> on <paramref name="dependentType"/>. 
            The <paramref name="builder"/> can't be baked before <paramref name="dependentType"/> is.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ReflectionEmitter.Emit(System.Threading.CancellationToken,Microsoft.Cci.IMethodReference)">
            <summary>
            The main worker. Emits all types.
            </summary>
            <param name="cancellationToken">Token used to cancel the operation.</param>
            <param name="entryPoint">An entry point to resolve and return. This could be an arbitrary method, not just PE entry point.</param>
            <returns>The entry point or null if there is none.</returns>
            <exception cref="T:System.NotSupportedException">Reflection.Emit doesn't support the feature being emitted.</exception>
        </member>
        <member name="M:Roslyn.Compilers.CodeGen.ReflectionEmitter.OrderTypeBuilders">
            <summary>
            Bakes types in the order implied by <see cref="F:Roslyn.Compilers.CodeGen.ReflectionEmitter.dependencyGraph"/>. A type can't be baked until all of its dependencies are.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.MetadataBlock">
            <summary>
            Represents a block in .data
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISectionBlock">
            <summary>
            Represents a block of data stored at a given offset within a specified section of the PE file.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISectionBlock.PESectionKind">
            <summary>
            Section where the block resides.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISectionBlock.Offset">
            <summary>
            Offset into section where the block resides.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISectionBlock.Size">
            <summary>
            Size of the block.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISectionBlock.Data">
            <summary>
            Byte information stored in the block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ExplicitSizeStruct">
            <summary>
            Simple struct type with explicit size and no members.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INestedTypeDefinition">
            <summary>
            A type definition that is a member of another type definition.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ITypeDefinitionMember">
            <summary>
            A member of a type definition, such as a field or a method.
            This interface models the metadata representation of a type member.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinitionMember.ContainingTypeDefinition">
            <summary>
            The type definition that contains this member.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ITypeDefinitionMember.Visibility">
            <summary>
            Indicates if the member is public or confined to its containing type, derived types and/or declaring assembly.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.INestedTypeReference">
            <summary>
            A type definition that is a member of another type definition.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.MappedField">
            <summary>
            Definition of a simple field mapped to a metadata block
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IFieldDefinition">
            <summary>
            A field is a member that represents a variable associated with an object or class.
            This interface models the metadata representation of a field.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IFieldReference">
            <summary>
            A reference to a field.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IFieldReference.GetType(System.Object)">
            <summary>
            The type of value that is stored in this field.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IFieldReference.GetResolvedField(System.Object)">
            <summary>
            The Field being referred to.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataConstantContainer">
            <summary>
            Implemented by IFieldDefinition, IParameterDefinition and IPropertyDefinition.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMetadataConstantContainer.Constant">
            <summary>
            The constant value associated with this metadata object. For example, the default value of a parameter.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.CompileTimeValue">
            <summary>
            The compile time value of the field. This value should be used directly in IL, rather than a reference to the field.
            If the field does not have a valid compile time value, Dummy.Constant is returned.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.FieldMapping">
            <summary>
            Information of the location where this field is mapped to
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsCompileTimeConstant">
            <summary>
            This field is a compile-time constant. The field has no runtime location and cannot be directly addressed from IL.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsMapped">
            <summary>
            This field is mapped to an explicitly initialized (static) memory location.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsMarshalledExplicitly">
            <summary>
            This field has associated field marshalling information.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsNotSerialized">
            <summary>
            The field does not have to be serialized when its containing instance is serialized.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsReadOnly">
            <summary>
            This field can only be read. Initialization takes place in a constructor.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsRuntimeSpecial">
            <summary>
            True if the field gets special treatment from the runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsSpecialName">
            <summary>
            This field is special in some way, as specified by the name.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.IsStatic">
            <summary>
            This field is static (shared by all instances of its declaring type).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.MarshallingInformation">
            <summary>
            Specifies how this field is marshalled when it is accessed from unmanaged code.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFieldDefinition.Offset">
            <summary>
            Offset of the field.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.BitArray.Create(System.Int32)">
            <summary>
            Create BitArray with at least the specified number of bits.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.BitArray.AllSet(System.Int32)">
            <summary>
            return a bit array with all bits set from index 0 through bitCount-1
            </summary>
            <param name="capacity"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.BitArray.Clone">
            <summary>
            Maky a copy of a bit array.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.BitArray.IntersectWith(Roslyn.Compilers.BitArray)">
            <summary>
            Modify this bit vector by bitwise AND-ing each element with the other bit vector.
            For the purposes of the intersection, any bits beyond the current length will be treated as zeroes.
            Return true if any changes were made to the bits of this bit vector.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.BitArray.UnionWith(Roslyn.Compilers.BitArray)">
            <summary>
            Modify this bit vector by '|'ing each element with the other bit vector.
            </summary>
            <param name="other"></param>
        </member>
        <member name="P:Roslyn.Compilers.BitArray.IsNull">
            <summary>
            Is the given bit array null?
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Collections.CachingDictionary`2">
            <summary>
            The CachingLookup class provides a convenient representation of an ILookup that is based
            upon a potentially slow lookup, and caches lookup results so that subsequent lookups are
            fast. Internally a ConcurrentDictionary is used to cache lookup results. The client provides
            two delegates to perform lookups: One that maps a key to a IEnumerable of values, and one
            that provides all keys.
            
            The client must provide an IEqualityComparer used for comparing keys, and can select whether
            to cache failed lookups (keys with no values). Caching failed lookups has the disadvantage
            that every different failed lookup will consume a small amount of extra memory.
            
            Thread safe.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Collections.CachingDictionary`2.#ctor(System.Func{`0,Roslyn.Compilers.ReadOnlyArray{`1}},System.Func{System.Collections.Generic.IEnumerable{`0}},System.Collections.Generic.IEqualityComparer{`0})">
            <summary>
            Create a CachingLookup.
            </summary>
            <param name="getElementsOfKey">A function that takes a key, and returns an IEnumerable of values that
            correspond to that key. If no values correspond, the function may either return null or an empty
            IEnumerable.</param>
            <param name="getKeys">A function that returns an IEnumerable of all keys that have associated values.</param>
            <param name="comparer">A IEqualityComparer used to compare keys.</param>
        </member>
        <member name="M:Roslyn.Compilers.Collections.CachingDictionary`2.Contains(`0)">
            <summary>
            Does this key have one or more associated values?
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Collections.CachingDictionary`2.GetOrCreateValue(`0)">
            <summary>
            Use the underlying (possibly slow) functions to get the values associated with a key.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Collections.CachingDictionary`2.FullyPopulate">
            <summary>
            Fully populate the underlying dictionary. Once this returns, the dictionary is guaranteed 
            to have every key in it. The field allCached is set to non-zero to indicate this, so that 
            we don't have to lookup keys that aren't in the dictionary.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Collections.CachingDictionary`2.Item(`0)">
            <summary>
            Get the values associated with a key. 
            </summary>
            <param name="key">Key to look up.</param>
            <returns>All values associated with key. Returns an empty IEnumerable if
            no values are associated. Never returns null.</returns>
        </member>
        <member name="P:Roslyn.Compilers.Collections.CachingDictionary`2.Count">
            <summary>
            Get the number of distinct keys.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Collections.CachingDictionary`2.Keys">
            <summary>
            Enumerate all the keys.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Collections.CachingDictionary`2.Map">
            <summary>
            Get the concurrent dictionary, creating it if needed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.EnumerableExtensions.AsSingleton``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns the only element of specified sequence if it has exectly one, and default(TSource) otherwise.
            Unlike <see cref="M: Enumerable.SingleOrDefault()"/> doesn't throw if there is more than one element in the sequence.
            </summary>
        </member>
        <member name="T:Roslyn.Utilities.ConsList`1">
            <summary>
            a simple Lisp-like immutable list.  Good to use when lists are always accessed from the head.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ConsListExtensions">
            <summary>
            Extension methods associated with ConsList.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArray.ReadFromFile(System.String)">
            <summary>
            Reads content of the specified file.
            </summary>
            <param name="path">The path to the file.</param>
            <returns>Read-only binary data read from the file.</returns>
        </member>
        <member name="T:Roslyn.Compilers.FileLinePositionSpan">
            <summary>
            Represents a span of text in a source code file in terms of file name, line number, and offset within line.
            However, the file is actually whatever was passed in when asked to parse; there may not really be a file.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.FileLinePositionSpan.#ctor(System.String,Roslyn.Compilers.LinePosition,Roslyn.Compilers.LinePosition)">
            <summary>
            Initializes <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/>.
            </summary>
            <param name="path">The file path.</param>
            <param name="startLinePosition">The start line position.</param>
            <param name="endLinePosition">The end line position.</param>
        </member>
        <member name="M:Roslyn.Compilers.FileLinePositionSpan.#ctor(System.String,System.Boolean,Roslyn.Compilers.LinePosition,Roslyn.Compilers.LinePosition)">
            <summary>
            Initializes <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/>
            </summary>
            <param name="path">File path.</param>
            <param name="isFileNameFromLineDirective">True if the file name comes from a #line directive.</param>
            <param name="startLinePosition">The start line position.</param>
            <param name="endLinePosition">The end line position.</param>
        </member>
        <member name="M:Roslyn.Compilers.FileLinePositionSpan.Equals(Roslyn.Compilers.FileLinePositionSpan)">
            <summary>
            Determines if two FileLinePositionSpan objects are equal.
            </summary>
            <remarks>
            The path is treated as an opaque string, i.e. a case-sensitive comparison is used.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.FileLinePositionSpan.Equals(System.Object)">
            <summary>
            Determines if two FileLinePositionSpan objects are equal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.FileLinePositionSpan.GetHashCode">
            <summary>
            Serves as a hash function for FileLinePositionSpan.
            </summary>
            <returns>The hash code.</returns>
            <remarks>
            The path is treated as an opaque string, i.e. a case-sensitive hash is calculated.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.FileLinePositionSpan.ToString">
            <summary>
            Returns a <see cref="T:System.String"/> that represents FileLinePositionSpan.
            </summary>
            <returns>The string representation of FileLinePositionSpan.</returns>
            <example>[0,0..5,6]</example>
        </member>
        <member name="P:Roslyn.Compilers.FileLinePositionSpan.IsValid">
            <summary>
            Returns true if the span represents a valid location. 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.LocationKind">
            <summary>
            Specifies the kind of location (source vs. metadata).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.LocationKind.None">
            <summary>
            Unspecified location.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.LocationKind.SourceFile">
            <summary>
            The location represents a position in a source file.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.LocationKind.MetadataFile">
            <summary>
            The location represents a metadata file.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.EnumConstantHelper.OffsetValue(Roslyn.Compilers.ConstantValue,System.UInt32,Roslyn.Compilers.ConstantValue@)">
            <summary>
            Generate a ConstantValue of the same integer type as the argument
            and offset by the given non-negative amount. Return ConstantValue.Bad
            if the generated constant would be outside the valid range of the type.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.RemoveTrailingSpacesAndDots(System.String)">
            <summary>
            Trims all '.' and whitespaces from the end of the path
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.GetExtension(System.String)">
            <summary>
            Returns an extension of the specified path string.
            </summary>
            <remarks>
            The same functionality as <see cref="M:System.IO.Path.GetExtension(System.String)"/> but doesn't throw an exception
            if there are invalid characters in the path.
            </remarks>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.RemoveExtension(System.String)">
            <summary>
            Removes extension from path.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.IndexOfFileName(System.String)">
            <summary>
            Returns the position in given path where the file name starts.
            </summary>
            <returns>-1 if path is null.</returns>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.GetFileName(System.String)">
            <summary>
            Get file name from path.
            </summary>
            <remarks>Unlike <see cref="M:System.IO.Path.GetFileName(System.String)"/> doesn't check for invalid path characters.</remarks>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.GetDirectoryName(System.String)">
            <summary>
            Get directory name from path.
            </summary>
            <remarks>
            Unlike <see cref="M:System.IO.Path.GetDirectoryName(System.String)"/> it
                doesn't check for invalid path characters, 
                doesn't strip any trailing directory separators (TODO: tomat),
                doesn't recognize UNC structure \\computer-name\share\directory-name\file-name (TODO: tomat).
            </remarks>
            <returns>Prefix of path that represents a directory. </returns>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.IsDriveRootedAbsolutePath(System.String)">
            <summary>
            Returns true if given path is absolute and starts with a drive specification ("C:\").
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.GetPathRoot(System.String)">
            <summary>
            Get a prefix of given path which is the root of the path.
            </summary>
            <returns>
            Root of an absolute path or null if the path isn't absolute or has invalid format (e.g. "\\").
            </returns>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.GetUncPathRootLength(System.String)">
            <summary>
            Calculates the length of root of an UNC path.
            </summary>
            <remarks>
            "\\server\share" is root of UNC path "\\server\share\dir1\dir2\file".
            </remarks>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.ResolveRelativePath(System.String,System.String,System.String,System.Collections.Generic.IEnumerable{System.String},System.Func{System.String,System.Boolean})">
            <summary>
            Resolves relative path and returns absolute path.
            The method depends only on values of its parameters and their implementation (for fileExists).
            It doesn't itself depend on the state of the current process (namely on the current drive directories) or 
            the state of file system.
            </summary>
            <param name="path">
            Path to resolve.
            </param>
            <param name="basePath">
            Base file path to resolve CWD-relative paths against. Null if not available.
            </param>
            <param name="baseDirectory">
            Base directory to resolve CWD-relative paths against if <paramref name="basePath"/> isn't specified. 
            Must be absolute path.
            Null if not available.
            </param>
            <param name="searchPaths">
            Sequence of paths used to search for unqualified relative paths.
            </param>
            <param name="fileExists">
            Method that tests existence of a file.
            </param>
            <returns>
            The resolved path or null if the path can't be resolved.
            </returns>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.NormalizeAbsolutePath(System.String)">
            <summary>
            Normalizes an absolute path.
            </summary>
            <param name="path">Path to normalize.</param>
            <exception cref="T:System.ArgumentException"/>
            <exception cref="T:System.Security.SecurityException"/>
            <exception cref="T:System.ArgumentNullException"/>
            <exception cref="T:System.NotSupportedException"/>
            <exception cref="T:System.IO.PathTooLongException"/>
            <returns>Normalized path.</returns>
        </member>
        <member name="M:Roslyn.Utilities.FileUtilities.DeleteFileOnClose(System.String)">
            <summary>
            Marks given file for automatic deletion when all its handles are closed.
            </summary>
        </member>
        <member name="T:Roslyn.Utilities.ImmutableList`1.ElementList">
            <summary>
            This is a simple list of elements
            </summary>
        </member>
        <member name="T:Roslyn.Utilities.ImmutableList`1.CompoundList">
            <summary>
            This is a compound list of lists
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonCompilationOptions">
            <summary>
            Represents compilation options common to C# and VB.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilationOptions.WithOutputKind(Roslyn.Compilers.OutputKind)">
            <summary>
            Creates a new options instance with the specified output kind.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilationOptions.WithOptimizations(System.Boolean)">
            <summary>
            Creates a new options instance with optimizations enabled or disabled.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonCompilationOptions.ValidateOptions(Roslyn.Compilers.ArrayBuilder{Roslyn.Compilers.DiagnosticInfo})">
            <summary>
            Performs validation of options compatibilities and generates diagnostics if needed
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.OutputKind">
            <summary>
            The kind of assembly generated when emitted.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.SubsystemVersion">
            <summary>
            Subsystem version
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.ScriptClassName">
            <summary>
            The full name of a global implicit class (script class). This class implicitly encapsulates top-level statements, 
            type declarations, and member declarations. Could be a namespace qualified name.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.MainTypeName">
            <summary>
            The full name of a type that declares static Main method. Must be a valid non-generic namespace-qualified name.
            Null if any static Main method is a candidate for an entry point.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.CryptoKeyFile">
            <summary>
            The name of the file containing the key with which to sign the output.
            </summary>
            <remarks>
            To sign the output supply either one of <see cref="P:CryptoKeyContainer"/> or <see cref="P:CryptoKeyFile"/>.
            but not both.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.CryptoKeyContainer">
            <summary>
            The CSP container containing the key with which to sign the output.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.DelaySign">
            <summary>
            Turn off strong name signing when you have supplied a key either through
            attributes or  <see cref="P:CryptoKeyContainer"/> or <see cref="P:CryptoKeyFile"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.CheckOverflow">
            <summary>
            Whether bounds checking on integer arithmetic is enforced by default or not.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.FileAlignment">
            <summary>
            Specifies the size of sections in the output file. 
            </summary>
            <remarks>
            Valid values are 0, 512, 1024, 2048, 4096 and 8192.
            If the value is 0 the file alignment is determined based upon the value of <see cref="P:Roslyn.Compilers.Common.CommonCompilationOptions.Platform"/>.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.BaseAddress">
            <summary>
            Specifies the preferred base address at which to load the output DLL.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.Platform">
            <summary>
            Specifies which version of the common language runtime (CLR) can run the assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.EmitDebugInformationKind">
            <summary>
            Specifies the kind of debug information to be emitted.
            </summary>
            <remarks>
            This value is set based on the "/debug", "/debug+", "/debug-" and "/debug:{full|pdbonly}" command line switches.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.Optimize">
            <summary>
            Specifies whether or not optimizations should be performed on the output IL.
            This is independent of whether or not PDB information is generated.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.GeneralWarningOption">
            <summary>
            Globla warning report option
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.WarningLevel">
            <summary>
            Global warning level (from 0 to 4).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.ConcurrentBuild">
            <summary>
            Specifies whether building compilation may use multiple threads.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.SpecificWarningOptions">
            <summary>
            Warning report option for each warning
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonCompilationOptions.Errors">
            <summary>
            Errors collection related to an incompatible set of compilation options
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.IdentifierCollection">
            <summary>
            A dictionary that maps strings to all known spellings of that string. Can be used to
            efficiently store the set of known type names for a module for both VB and C# while also
            answering questions like "do you have a type called Foo" in either a case sensitive or
            insensitive manner.
            </summary>
        </member>
        <member name="T:Roslyn.Utilities.ReferenceEqualityComparer">
            <summary>
            Compares objects based upon their reference identity.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonParseOptions">
            <summary>
            Represents parse options common to C# and VB.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonParseOptions.Kind">
            <summary>
            Specifies whether to parse as regular code files, script files or interactive code.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonParseOptions.ParseDocumentationComments">
            <summary>
            Gets a value indicating whether the documentation comments are parsed.
            </summary>
            <value><c>true</c> if documentation comments are parsed, <c>false</c> otherwise.</value>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonParseOptions.WithKind(Roslyn.Compilers.SourceCodeKind)">
            <summary>
            Creates a new options instance with the specified source code kind.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonParseOptions.PreprocessorSymbolNames">
            <summary>
            Names of defined preprocessor symbols.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IControlFlowAnalysis">
            <summary>
            Provides information about statements which transfer control in and out of a region. This
            information is returned from a call to <see cref="M:ISemanticModel.AnalyzeControlFlow" />.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IControlFlowAnalysis.EntryPoints">
            <summary>
            An enumerator for the set of statements inside the region what are the
            destination of branches outside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IControlFlowAnalysis.ExitPoints">
            <summary>
            An enumerator for the set of statements inside a region that jump to locations outside
            the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IControlFlowAnalysis.EndPointIsReachable">
            <summary>
            Indicates whether a region completes normally. Return true if and only if the end of the
            last statement in a region is reachable or the region contains no statements.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IControlFlowAnalysis.ReturnStatements">
            <summary>
            An enumerator for the set of return statements found within a region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IControlFlowAnalysis.Succeeded">
            <summary>
            Returns true iff analysis was successful.  Analysis can fail if the region does not properly span a single expression,
            a single statement, or a contiguous series of statements within the enclosing block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IDataFlowAnalysis">
            <summary>
            Provides information about how data flows into and out of a region. This information is
            returned from a call to
            <see cref="M:Roslyn.Compilers.ISemanticModel.AnalyzeRegionDataFlow" />.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.VariablesDeclared">
            <summary>
            An enumerator for the set of local variables that are declared within a region. Note
            that the region must be bounded by a method's body or a field's initializer, so
            parameter symbols are never included in the result.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.DataFlowsIn">
            <summary>
            An enumerator for the set of local variables which are assigned a value outside a region
            that may be used inside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.DataFlowsOut">
            <summary>
            An enumerator for the set of local variables which are assigned a value inside a region
            that may be used outside the region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.AlwaysAssigned">
            <summary>
            An enumerator for the set of local variables for which a value is always assigned inside
            a region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.ReadInside">
            <summary>
            An enumerator for the set of local variables that are read inside a region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.WrittenInside">
            <summary>
            An enumerator for the set of local variables that are written inside a region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.ReadOutside">
            <summary>
            An enumerator for the set of the local variables that are read outside a region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.WrittenOutside">
            <summary>
            An enumerator for the set of local variables that are written outside a region.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.Captured">
            <summary>
            An enumerator for the set of the local variables that have been referenced in anonymous
            functions within a region and therefore must be moved to a field of a frame class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.UnsafeAddressTaken">
            <summary>
            A collection of the non-constant local variables and parameters that have had their
            address (or the address of one of their fields) taken.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IDataFlowAnalysis.Succeeded">
            <summary>
            Returns true iff analysis was successful.  Analysis can fail if the region does not
            properly span a single expression, a single statement, or a contiguous series of
            statements within the enclosing block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.ISemanticModel">
            <summary>
            Allows asking semantic questions about a tree of syntax nodes in a Compilation. Typically,
            an instance is obtained by a call to GetBinding on a Compilation or CommonCompilation.
            </summary>
            <remarks>
            <para>An instance of ISemanticModel caches local symbols and semantic information. Thus, it
            is much more efficient to use a single instance of ISemanticModel when asking multiple
            questions about a syntax tree, because information from the first question may be reused.
            This also means that holding onto an instance of ISemanticModel for a long time may keep a
            significant amount of memory from being garbage collected.
            </para>
            <para>
            When an answer is a named symbol that is reachable by traversing from the root of the symbol
            table, (that is, from an AssemblySymbol of the Compilation), that symbol will be returned
            (i.e. the returned value will be reference-equal to one reachable from the root of the
            symbol table). Symbols representing entities without names (e.g. array-of-int) may or may
            not exhibit reference equality. However, some named symbols (such as local variables) are
            not reachable from the root. These symbols are visible as answers to semantic questions.
            When the same SemanticModel object is used, the answers exhibit reference-equality.
            </para>
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetSymbolInfo(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)">
            <summary>
            Gets symbol information about a syntax node.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the semantic info.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetSpeculativeSymbolInfo(System.Int32,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.SpeculativeBindingOption)">
            <summary>
            Binds the node in the context of the specified location and get semantic information
            such as type, symbols and diagnostics. This method is used to get semantic information
            about an expression that did not actually appear in the source code.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="expression">A syntax node that represents a parsed expression. This syntax
            node need not and typically does not appear in the source code referred to  SemanticModel
            instance.</param>
            <param name="bindingOption">Indicates whether to binding the expression as a full expressions,
            or as a type or namespace. If SpeculativeBindingOption.BindAsTypeOrNamespace is supplied, then
            expression should derive from TypeSyntax.</param>
            <returns>The semantic information for the topmost node of the expression.</returns>
            <remarks>The passed in expression is interpreted as a stand-alone expression, as if it
            appeared by itself somewhere within the scope that encloses "position".</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetSpeculativeTypeInfo(System.Int32,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.SpeculativeBindingOption)">
            <summary>
            Binds the node in the context of the specified location and get semantic information
            such as type, symbols and diagnostics. This method is used to get semantic information
            about an expression that did not actually appear in the source code.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="expression">A syntax node that represents a parsed expression. This syntax
            node need not and typically does not appear in the source code referred to  SemanticModel
            instance.</param>
            <param name="bindingOption">Indicates whether to binding the expression as a full expressions,
            or as a type or namespace. If SpeculativeBindingOption.BindAsTypeOrNamespace is supplied, then
            expression should derive from TypeSyntax.</param>
            <returns>The semantic information for the topmost node of the expression.</returns>
            <remarks>The passed in expression is interpreted as a stand-alone expression, as if it
            appeared by itself somewhere within the scope that encloses "position".</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetTypeInfo(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)">
            <summary>
            Gets type information about a syntax node.
            </summary>
            <param name="node">The syntax node to get semantic information for.</param>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the semantic info.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetAliasInfo(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)">
            <summary>
            If "nameSyntax" resolves to an alias name, return the IAliasSymbol corresponding
            to A. Otherwise return null.
            </summary>
            <param name="nameSyntax">Name to get alias info for.</param>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the alias information.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetSpeculativeAliasInfo(System.Int32,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.SpeculativeBindingOption)">
            <summary>
            Binds the name in the context of the specified location and sees if it resolves to an
            alias name. If it does, return the AliasSymbol corresponding to it. Otherwise, return null.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="nameSyntax">A syntax node that represents a name. This syntax
            node need not and typically does not appear in the source code referred to by the
            SemanticModel instance.</param>
            <param name="bindingOption">Indicates whether to binding the name as a full expression,
            or as a type or namespace. If SpeculativeBindingOption.BindAsTypeOrNamespace is supplied, then
            expression should derive from TypeSyntax.</param>
            <remarks>The passed in name is interpreted as a stand-alone name, as if it
            appeared by itself somewhere within the scope that encloses "position".</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetDeclarationDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the syntax and declaration errors within the syntax tree associated with this
            object. Does not get errors involving compiling method bodies or initializers.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the diagnostics.</param>
            <remarks>The declaration errors for a syntax tree are cached. The first time this method
            is called, all declarations are analyzed for diagnostics. Calling this a second time
            will return the cached diagnostics.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Get all the errors within the syntax tree associated with this object. Includes errors
            involving compiling method bodies or initializers, in addition to the errors returned by
            GetDeclarationDiagnostics.
            </summary>
            <param name="cancellationToken">A cancellation token that can be used to cancel the
            process of obtaining the diagnostics.</param>
            <remarks>
            Because this method must semantically bind all method bodies and initializers to check
            for diagnostics, it may take a significant amount of time. Unlike
            GetDeclarationDiagnostics, diagnostics for method bodies and initializers are not
            cached, the any semantic information used to obtain the diagnostics is discarded.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetDeclaredSymbol(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)">
            <summary>
            Gets the symbol associated with a declaration syntax node.
            </summary>
            <param name="declaration">A syntax node that is a declaration. This can be any type
            derived from MemberDeclarationSyntax, TypeDeclarationSyntax, EnumDeclarationSyntax,
            NamespaceDeclarationSyntax, ParameterSyntax, TypeParameterSyntax, or the alias part of a
            UsingDirectiveSyntax</param>
            <param name="cancellationToken">The cancellation token.</param>
            <returns>The symbol declared by the node or null if the node is not a declaration.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.LookupSymbols(System.Int32,Roslyn.Compilers.Common.INamespaceOrTypeSymbol,System.String,System.Nullable{System.Int32},Roslyn.Compilers.Common.CommonLookupOptions)">
            <summary>
            Gets the available named symbols in the context of the specified location and optional container. Only
            symbols that are accessible and visible from the given location are returned.
            </summary>
            <param name="position">The character position for determining the enclosing declaration scope and
            accessibility.</param>
            <param name="container">The container to search for symbols within. If null then the enclosing declaration
            scope around position is used.</param>
            <param name="name">The name of the symbol to find. If null is specified then symbols
            with any names are returned.</param>
            <param name="arity">The number of generic type parameters the symbol has. If null is specified then symbols
            with any arity are returned.</param>
            <param name="options">Additional options that affect the lookup process.</param>
            <returns>A list of symbols that were found. If no symbols were found, an empty list is returned.</returns>
            <remarks>
            The "position" is used to determine what variables are visible and accessible. Even if "container" is
            specified, the "position" location is significant for determining which members of "containing" are
            accessible. 
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.AnalyzeControlFlow(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Analyze control-flow within a part of a method body. 
            </summary>
            <param name="firstStatement">The first node to be included within the analysis.</param>
            <param name="lastStatement">The last node to be included within the analysis.</param>
            <returns>An object that can be used to obtain the result of the control flow analysis.</returns>
            <exception cref="T:System.ArgumentException">The span is not with a method
            body.</exception>
            <remarks>
            The first and last nodes must be fully inside the same method body.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.AnalyzeControlFlow(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Analyze control-flow within a part of a method body. 
            </summary>
            <param name="statement">The statement to be analyzed.</param>
            <returns>An object that can be used to obtain the result of the control flow analysis.</returns>
            <exception cref="T:System.ArgumentException">The span is not with a method
            body.</exception>
            <remarks>
            The statement must be fully inside the same method body.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.AnalyzeDataFlow(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Analyze data-flow within a part of a method body. 
            </summary>
            <param name="firstStatement">The first node to be included within the analysis.</param>
            <param name="lastStatement">The last node to be included within the analysis.</param>
            <returns>An object that can be used to obtain the result of the data flow analysis.</returns>
            <exception cref="T:System.ArgumentException">The span is not with a method
            body.</exception>
            <remarks>
            The first and last nodes must be fully inside the same method body.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.AnalyzeDataFlow(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Analyze data-flow within a part of a method body. 
            </summary>
            <param name="statementOrExpression">The statement or expression to be analyzed.</param>
            <returns>An object that can be used to obtain the result of the data flow analysis.</returns>
            <exception cref="T:System.ArgumentException">The statement or expression is not with a method
            body or field or property initializer.</exception>
            <remarks>
            The statement or expression must be fully inside a method body.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetConstantValue(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)">
            <summary>
            If the node provided has a constant value an Optional value will be returned with
            HasValue set to true and with Value set to the constant.  If the node does not have an
            constant value, an Optional will be returned with HasValue set to false.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetMemberGroup(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)">
            <summary>
            When getting information for a symbol that resolves to a method group or property group,
            from which a method is then chosen; the chosen method or property is present in Symbol;
            all methods in the group that was consulted are placed in this property.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetForEachStatementInfo(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets the semantic information of a for each statement.
            </summary>
            <param name="node">The for each statement or block syntax node.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.GetEnclosingSymbol(System.Int32,System.Threading.CancellationToken)">
            <summary>
            Given a position in the SyntaxTree for this ISemanticModel returns the innermost Symbol
            that the position is considered inside of.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.ResolveOverloads``1(System.Int32,Roslyn.Compilers.ReadOnlyArray{``0},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.Common.ITypeSymbol},Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.Common.CommonSyntaxNode})">
            <summary>
            Resolves the set of provided arguments against set of provided members to determine the
            appropriate overload. The arguments are bound as if they were at 'position' within this
            semantic model. An CommonOverloadResolutionResult is returned that gives the result of
            the compiler's overload resolution analysis.
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel. This position is used when binding the arguments.
            </param>
            <param name="members">The set of members to resolve overloads among.</param>
            <param name="arguments">The list of arguments, in order, to use when resolving the
            overloads. The arguments are interpreted as if they occurred within the declaration
            scope that encloses "position".</param>
            <param name="typeArguments">If present, the type argument provided. If not provided,
            type inference is done.</param>
            <remarks>
            This can be used to resolve constructors, properties as well as methods.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.ClassifyConversion(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.ITypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was
            converted to a given type.
            </summary>
            <param name="expression">An expression which much occur within the syntax tree
            associated with this object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was
            possible, and if so, what kind of conversion it was. If no conversion was possible, a
            Conversion object with a false "Exists" property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a
            type), use CommonCompilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.ClassifyConversion(System.Int32,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.ITypeSymbol)">
            <summary>
            Determines what type of conversion, if any, would be used if a given expression was
            converted to a given type.
            </summary>
            <param name="position">The character position for determining the enclosing declaration
            scope and accessibility.</param>
            <param name="expression">The expression to classify. This expression does not need to be
            present in the syntax tree associated with this object.</param>
            <param name="destination">The type to attempt conversion to.</param>
            <returns>Returns a Conversion object that summarizes whether the conversion was
            possible, and if so, what kind of conversion it was. If no conversion was possible, a
            Conversion object with a false "Exists" property is returned.</returns>
            <remarks>To determine the conversion between two types (instead of an expression and a
            type), use Compilation.ClassifyConversion.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.IsAccessible(System.Int32,Roslyn.Compilers.Common.ISymbol)">
            <summary>
            Determines if the symbol is accessible from the specified location. 
            </summary>
            <param name="position">A character position used to identify a declaration scope and
            accessibility. This character position must be within the FullSpan of the Root syntax
            node in this SemanticModel.
            </param>
            <param name="symbol">The symbol that we are checking to see if it accessible.</param>
            <returns>
            True if "symbol is accessible, false otherwise.</returns>
            <remarks>
            This method only checks accessibility from the point of view of the accessibility
            modifiers on symbol and its containing types. Even if true is returned, the given symbol
            may not be able to be referenced for other reasons, such as name hiding.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISemanticModel.IsEventUsableAsField(System.Int32,Roslyn.Compilers.Common.IEventSymbol)">
            <summary>
            Field-like events can be used as fields in types that can access private
            members of the declaring type of the event.
            </summary>
            <remarks>
            Always false for VB events.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISemanticModel.Language">
            <summary>
            Gets the source language ("C#" or "Visual Basic").
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISemanticModel.Compilation">
            <summary>
            The compilation this model was obtained from.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISemanticModel.SyntaxTree">
            <summary>
            The syntax tree this model was obtained from.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ObjectPool`1">
            <summary>
            Generic implementation of object pooling pattern with predefined pool size limit. The main
            purpose is that limited number of frequently used objects can be kept in the pool for
            further recycling.
            
            Notes: 
            1) it is not the goal to keep all returned objects. Pool is not meant for storage. If there
               is no space in the pool, extra returned objects will be dropped.
            
            2) it is implied that if object was obtained from a pool, the caller will return it back in
               relatively short time. Keeping checked out objects for long durations is ok, but 
               reduces usefulness of pooling.
            
            Not returning objects to the pool in not detrimental to the pool's work, but is a bad practice. 
            Rationale: 
               If there is no intent for reusing the object, do not use pool - just use "new". 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ObjectPool`1.Allocate">
            <summary>
            Produces an instance.
            </summary>
            <remarks>
            Search strategy is a simple linear probing which is chosen for it cache-friendliness.
            Note that Free will try to store recycled objects close to the start thus statistically 
            reducing how far we will typically search.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.ObjectPool`1.Free(`0)">
            <summary>
            Returns objects to the pool.
            </summary>
            <remarks>
            Search strategy is a simple linear probing which is chosen for it cache-friendliness.
            Note that Free will try to store recycled objects close to the start thus statistically 
            reducing how far we will typically search in Allocate.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.ReadOnlyArray`1">
            <summary>
            A wrapper that prevents writing to elements of an underlying array. It is a struct
            to avoid extra allocation and indirections. Equality is determined by reference equality
            of the underlying array. Implements a struct enumerator to minimize allocations. For similar
            reasons, it does not implement IEnumerable, but instead implements a subset of the Linq extensions.
            
            This type is expected to be replaced by a BCL type.
            </summary>
            <typeparam name="T"></typeparam>
        </member>
        <member name="F:Roslyn.Compilers.ReadOnlyArray`1.Empty">
            <summary>
            A singleton representing an empty array.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArray`1.#ctor(`0[])">
            <summary>
            DANGER!!! DANGER!! This constructor wraps the array. No copy is made.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArray`1.ToDownCasted``1">
            <summary>
            Downcast the array to ReadOnlyArray of derived type without doing additional allocation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArray`1.InterlockedCompareExchange(Roslyn.Compilers.ReadOnlyArray{`0}@,Roslyn.Compilers.ReadOnlyArray{`0})">
            <summary>
            Replace value at location with given value if the current value is
            ReadOnlyArray&lt;T&gt;.Null. Return true if value was replaced.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArray`1.GetPinnedHandle">
            <summary>
            Pins the underlying array and returns a <see cref="T:System.Runtime.InteropServices.GCHandle"/> of the pinned memory.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ReadOnlyArray`1.ReadOnlyList">
            <summary>
            IList Wrapper on top of ReadOnlyArray
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArrayExtensions.ToReadOnlyArray(System.IO.MemoryStream)">
            <summary>
            Reads bytes from specified <see cref="T:System.IO.MemoryStream"/>.
            </summary>
            <param name="stream">The stream.</param>
            <returns>Read-only content of the stream.</returns>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArrayExtensions.AsReadOnlyWrap``1(``0[])">
            <summary>
            DANGER!!! DANGER!!! This method wraps the array!! No copy is made.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArrayExtensions.Distinct``1(Roslyn.Compilers.ReadOnlyArray{``0},System.Collections.Generic.IEqualityComparer{``0})">
            <summary>
            Return an array of distinct elements, preserving the order in the original
            array. If the array has no duplicates, the original array is returned. The
            original array must be non-null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArrayExtensions.WriteToFile(Roslyn.Compilers.ReadOnlyArray{System.Byte},System.String)">
            <summary>
            Writes read-only array of bytes to the specified file.
            </summary>
            <param name="bytes">Data to write to the file.</param>
            <param name="path">File path.</param>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArrayExtensions.LoadAsAssembly(Roslyn.Compilers.ReadOnlyArray{System.Byte},System.Boolean)">
            <summary>
            Loads given array of bytes as an assembly image using <see cref="M:System.Reflection.Assembly.Load"/> or <see cref="M:System.Reflection.Assembly.ReflectionOnlyLoad"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ReadOnlyArrayExtensions.LoadModule(System.Reflection.Assembly,System.String,Roslyn.Compilers.ReadOnlyArray{System.Byte},Roslyn.Compilers.ReadOnlyArray{System.Byte})">
            <summary>
            Loads given array of bytes as an assembly image using <see cref="M:System.Reflection.Assembly.Load"/>.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Collections.PooledStringBuilder">
            <summary>
            The usage is:
                   var inst = PooledStringBuilder.GetInstance();
                   var sb = inst.builder;
                   ... Do Stuff...
                   ... sb.ToString() ...
                   inst.Free();
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.UnionCollection`1">
            <summary>
            Implements a readonly collection over a set of existing collections. This can be used to
            prevent having to copy items from one collection over to another (thus bloating space).
            
            Note: this is a *collection*, not a *set*.  There is no removal of duplicated elements. This
            allows us to be able to efficiently do operations like CopyTo, Count, etc. in O(c) time
            instead of O(n) (where 'c' is the number of collections and 'n' is the number of elements).
            If you have a few collections with many elements in them, then this is an appropriate
            collection for you.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonLookupOptions">
            <summary>
            Options that can be used to modify the symbol lookup mechanism. Multiple options can be combined together.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.Default">
            <summary>
            Consider all symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.NamespacesOrTypesOnly">
            <summary>
            Consider only namespaces and types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.LabelsOnly">
            <summary>
            Look only for label symbols.  This must be exclusive of all other options.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.MustNotBeInstance">
            <summary>
            Do not consider symbols that are instance members.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.IncludeExtensionMethods">
            <summary>
            Include extension methods.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.UseBaseReferenceAccessibility">
            <summary>
            Ignore 'throughType' in accessibility checking. Used in checking accessibility of symbols accessed via 'MyBase' or 'base'.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonLookupOptions.MustBeInstance">
            <summary>
            Consider only symbols that are instance members. Valid with IncludeExtensionMethods
            since extension methods are invoked on an instance.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DiagnosticSeverity">
            <summary>
            Describes how severe a diagnostic is.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.DiagnosticSeverity.Info">
            <summary>
            An "informational" diagnostic is something we tell the user,
            but it isn't necessarily "something wrong".
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.DiagnosticSeverity.Warning">
            <summary>
            A "warning" is something suspicious but legal.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.DiagnosticSeverity.Error">
            <summary>
            An "error" is something not technically allowed.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.StringExtensions.NeedsLocalization(System.String)">
            <summary>
            Used to indicate places where we are hard-coding strings that will later need to be
            localized.  This way, we can use a "Find All References" to find and fix these.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.StringExtensions.IsValidClrNamespaceName(System.String)">
            <summary>
            Checks if the given name is a sequence of valid CLR names separated by a dot.
            </summary>
        </member>
        <member name="T:Roslyn.Utilities.SyntaxPath">
            <summary>
            Stores the "path" from the root of a tree to a node, allowing the node to be recovered in a
            later snapshot of the tree, under certain circumstances.
            
            The implementation stores the child indices to represent the path, so any edit which affects
            the child indices could render this object unable to recover its node.  NOTE: One thing C#
            IDE has done in the past to do a better job of this is to store the fully qualified name of
            the member to at least be able to descend into the same member.  We could apply the same sort
            of logic here.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.SyntaxPath.TryResolve(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNodeOrToken@)">
            <summary>
            Attempts to recover the node at this path in the provided tree.  If the node is found
            then 'true' is returned, otherwise the result is 'false' and 'node' will be null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CompilationErrorException">
            <summary>
            An exception thrown when the compilation stage of interactive execution produces compilation errors.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CompilationErrorException.Diagnostics">
            <summary>
            The list of diagnostics produced by compilation.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DocumentationComment">
            <summary>
            A documentation comment derived from either source text or metadata.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DocumentationComment.FromXmlFragment(System.String)">
            <summary>
            Parses and constructs a DocumentationComment from the given fragment of XML.
            </summary>
            <param name="xml">The fragment of XML to parse.</param>
            <returns>A DocumentionComment instance.</returns>
            <exception cref="T:System.ArgumentException">If the XML fragment was unable to be successfully
            parsed.</exception>
        </member>
        <member name="M:Roslyn.Compilers.DocumentationComment.GetParameterText(System.String)">
            <summary>
            Returns the text for a given parameter, or null if no documentation was given for the parameter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DocumentationComment.GetTypeParameterText(System.String)">
            <summary>
            Returns the text for a given type parameter, or null if no documentation was given for the type parameter.
            </summary>
            <param name="typeParameterName"></param>
            <returns></returns>
        </member>
        <member name="F:Roslyn.Compilers.DocumentationComment.Empty">
            <summary>
            An empty comment.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DocumentationComment.HadXmlParseError">
            <summary>
            True if an error occurred when parsing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DocumentationComment.FullXmlFragmentOpt">
            <summary>
            The full XML text of this tag.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DocumentationComment.ExampleTextOpt">
            <summary>
            The text in the &lt;example&gt; tag. Null if no tag existed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DocumentationComment.SummaryTextOpt">
            <summary>
            The text in the &lt;summary&gt; tag. Null if no tag existed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DocumentationComment.ReturnsTextOpt">
            <summary>
            The text in the &lt;returns&gt; tag. Null if no tag existed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.ModuleExtensions.ShouldImportNestedType(Roslyn.Compilers.MetadataReader.Module,System.UInt32)">
            <summary>
            Returns true if the nested type should be imported. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.ModuleExtensions.ShouldImportField(Roslyn.Compilers.MetadataReader.Module,System.UInt32,System.Boolean)">
            <summary>
            Returns true if the field should be imported. Visibility
            and the value of <paramref name="importInternals"/> are considered
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.ModuleExtensions.ShouldImportField(Roslyn.Compilers.MetadataReader.PEFileFlags.FieldFlags,System.Boolean)">
            <summary>
            Returns true if the flags represent a field that should be imported.
            Visibility and the value of <paramref name="importInternals"/> are considered
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.ModuleExtensions.ShouldImportMethod(Roslyn.Compilers.MetadataReader.Module,System.UInt32,System.Boolean)">
            <summary>
            Returns true if the method should be imported. Returns false for private methods that are not
            explicit interface implementations. For other methods, visibility and the value of
            <paramref name="importInternals"/> are considered.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataFileProvider">
            <summary>
            Provides metadata files to services that need to read or load them. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataFileProvider.ClearCache">
            <summary>
            Removes any cached data or files created by the provider.
            </summary>
            <remarks>
            <see cref="M:Roslyn.Compilers.MetadataFileProvider.GetReference(System.String,Roslyn.Compilers.MetadataReferenceProperties)"/> might be optimized to cache results and ignore changes to the files made after the file has been provided. 
            This behavior is useful when the compiler and services that use the provider work on a snapshot of the metadata files.
            Call this method to clear the cache and start over.
            </remarks>
        </member>
        <member name="T:Microsoft.Cci.IResource">
            <summary>
            A named data resource that is stored as part of CLR metadata.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IResourceReference">
            <summary>
            A reference to an IResource instance.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResourceReference.Attributes">
            <summary>
            A collection of metadata custom attributes that are associated with this resource.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResourceReference.DefiningAssembly">
            <summary>
            A symbolic reference to the IAssembly that defines the resource.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResourceReference.IsPublic">
            <summary>
            Specifies whether other code from other assemblies may access this resource.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResourceReference.Name">
            <summary>
            The name of the resource.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResourceReference.Resource">
            <summary>
            The referenced resource.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResource.Data">
            <summary>
            The resource data.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResource.IsInExternalFile">
            <summary>
            The resource is in external file
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IResource.ExternalFile">
            <summary>
            The external file that contains the resource.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ManagedResource.#ctor(System.String,System.Func{System.IO.Stream},Microsoft.Cci.IFileReference,System.Boolean,Microsoft.Cci.IAssemblyReference)">
            <summary>
            <paramref name="streamProvider"/> will be evaluated only once and the result disposed. 
            <paramref name="streamProvider"/> and <paramref name="fileReference"/> are mutually exclusive.
            </summary>
            <param name="name"></param>
            <param name="streamProvider"></param>
            <param name="fileReference"></param>
            <param name="isPublic"></param>
            <param name="parent"></param>
        </member>
        <member name="T:Roslyn.Compilers.CodeGen.ExceptionHandlerRegion">
            <summary>
            A region representing an exception handler clause. The region exposes the type (catch or
            finally) and the bounds of the try block and catch or finally block as needed by CCI.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IOperationExceptionInformation">
            <summary>
            Exception information of the method body expressed in terms of offsets in CLR IL.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.HandlerKind">
            <summary>
            Handler kind for this SEH info
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.ExceptionType">
            <summary>
            If HandlerKind == HandlerKind.Catch, this is the type of expection to catch. If HandlerKind == HandlerKind.Filter, this is System.Object.
            Otherwise this is a Dummy.TypeReference.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.TryStartOffset">
            <summary>
            Label instruction corresponding to the start of try block
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.TryEndOffset">
            <summary>
            Label instruction corresponding to the end of try block
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.FilterDecisionStartOffset">
            <summary>
            Label instruction corresponding to the start of filter decision block
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.HandlerStartOffset">
            <summary>
            Label instruction corresponding to the start of handler block
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IOperationExceptionInformation.HandlerEndOffset">
            <summary>
            Label instruction corresponding to the end of handler block
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ResourceDescription.#ctor(System.String,System.Func{System.IO.Stream},System.Boolean)">
            <summary>
            Creates a representation of a resource whose contents are to be embedded in the output assembly. The
            </summary>
            <param name="resourceName">Resource name.</param>
            <param name="dataProvider">
            Function returning a stream of the data to embed.
            Will be evaluated once and the result will be disposed.
            This allows the resources to be opened and read one at a time.
            </param>
            <param name="isPublic">True if the resource is public.</param>
        </member>
        <member name="M:Roslyn.Compilers.ResourceDescription.#ctor(System.String,System.String,System.Func{System.IO.Stream},System.Boolean)">
            <summary>
            Creates a representation of a resource whose file name will be recorded in the assembly.
            </summary>
            <param name="resourceName">Resource name.</param>
            <param name="fileName">File name with an extension to be stored in metadata.</param>
            <param name="dataProvider">
            Function returning a stream of the recource content (used to calculate hash).
            Will be evaluated once and the result will be disposed.
            This allows the resources to be opened and read one at a time.
            </param>
            <param name="isPublic">True if the resource is public.</param>
        </member>
        <member name="T:Microsoft.Cci.IFileReference">
            <summary>
            Represents a file referenced by an assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFileReference.HasMetadata">
            <summary>
            True if the file has metadata.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFileReference.FileName">
            <summary>
            File name with extension.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFileReference.HashValue">
            <summary>
            A hash of the file contents.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.MetadataShadowCopyProvider">
            <summary>
            Implements shadow-copying metadata file cache.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.#ctor(System.String,System.Collections.Generic.IEnumerable{System.String})">
            <summary>
            Creates an instance of <see cref="T:Roslyn.Scripting.MetadataShadowCopyProvider"/>.
            </summary>
            <param name="directory">The directory to use to store file copies.</param>
            <param name="noShadowCopyDirectories">Directories to exclude from shadow-copying.</param>
            <exception cref="T:System.ArgumentNullException"><paramref name="directory"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="directory"/> is not an absolute path.</exception>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.IsShadowCopy(System.String)">
            <summary>
            Determine whether given path is under the shadow-copy directory managed by this shadow-copy provider.
            </summary>
            <param name="fullPath">Absolute path.</param>
            <exception cref="T:System.ArgumentNullException"><paramref name="fullPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="fullPath"/> is not an absolute path.</exception>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.ClearCache">
            <summary>
            Clears shadow-copy cache, disposes all allocated metadata, and attempts to delete copied files.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.GetMetadata(System.String,Roslyn.Compilers.MetadataImageKind)">
            <summary>
            Gets or creates metadata for specified file path.
            </summary>
            <param name="fullPath">Full path to an assembly manifest module file or a standalone module file.</param>
            <param name="kind">Metadata kind (assembly or module).</param>
            <returns>Metadata for the specified file.</returns>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.GetMetadataShadowCopy(System.String,Roslyn.Compilers.MetadataImageKind)">
            <summary>
            Gets or creates a copy of specified assembly or standalone module.
            </summary>
            <param name="fullPath">Full path to an assembly manifest module file or a standalone module file.</param>
            <param name="kind">Metadata kind (assembly or module).</param>
            <returns>
            Copy of the specified file, or null if the file doesn't need a copy (<see cref="M:Roslyn.Scripting.MetadataShadowCopyProvider.NeedsShadowCopy(System.String)"/>). 
            Returns the same object if called multiple times with the same path.
            </returns>
            <exception cref="T:System.ArgumentNullException"><paramref name="fullPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="fullPath"/> is not an absolute path.</exception>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.GetReference(System.String,Roslyn.Compilers.MetadataReferenceProperties)">
            <exception cref="T:System.ArgumentNullException"><paramref name="fullPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="fullPath"/> is not an absolute path.</exception>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.SuppressShadowCopy(System.String)">
            <summary>
            Suppresses shadow-coping of specified path.
            </summary>
            <param name="originalPath">Full path.</param>
            <exception cref="T:System.ArgumentNullException"><paramref name="originalPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="originalPath"/> is not an absolute path.</exception>
            <remarks>
            Doesn't affect files that have already been shadow-copied.
            </remarks>
        </member>
        <member name="M:Roslyn.Scripting.MetadataShadowCopyProvider.NeedsShadowCopy(System.String)">
            <summary>
            Determines whether given file is a candidate for shadow-copy.
            </summary>
            <param name="fullPath">An absolute path.</param>
            <returns>True if the shadow-copy policy applies to the specified path.</returns>
            <exception cref="T:System.NullReferenceException"><paramref name="fullPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="fullPath"/> is not absolute.</exception>
        </member>
        <member name="T:Roslyn.Scripting.MetadataShadowCopyProvider.ShadowCopyReference">
            <summary>
            Specialize <see cref="T:Roslyn.Compilers.PortableExecutableReference"/> with path being the original path of the copy.
            Logically this reference represents that file, the fact that we load the image from a copy is an implementation detail.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.CommonObjectFormatter">
            <summary>
            Object pretty printer.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonObjectFormatter.FormatArrayTypeName(System.Array,Roslyn.Scripting.ObjectFormattingOptions)">
            <summary>
            Formats an array type name (vector or multidimensional).
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonObjectFormatter.IsHiddenMember(System.Reflection.MemberInfo)">
            <summary>
            Returns true if the member shouldn't be displayed (e.g. it's a compiler generated field).
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.CommonObjectFormatter.VoidDisplayString">
            <summary>
            String that describes "void" return type in the language.
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.CommonObjectFormatter.NullLiteral">
            <summary>
            String that describes "null" literal in the language.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonObjectFormatter.Formatter.FormatObjectMembers(Roslyn.Scripting.CommonObjectFormatter.Builder,System.Object,System.Type,System.Boolean,System.Boolean)">
            <summary>
            Formats object members to a list.
            
            Inline == false:
            <code>
            { A=true, B=false, C=new int[3] { 1, 2, 3 } }
            </code>
            
            Inline == true:
            <code>
            {
              A: true,
              B: false,
              C: new int[3] { 1, 2, 3 }
            }
            </code>
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonObjectFormatter.Formatter.FormatObjectMembersRecursive(System.Collections.Generic.List{Roslyn.Scripting.CommonObjectFormatter.Formatter.FormattedMember},System.Object,System.Boolean,System.Int32@)">
            <summary>
            Enumerates sorted object members to display.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonObjectFormatter.Formatter.FormatWithEmbeddedExpressions(System.Int32,System.String,System.Object)">
            <summary>
            Evaluate a format string with possible member references enclosed in braces. 
            E.g. "foo = {GetFooString(),nq}, bar = {Bar}".
            </summary>
            <remarks>
            Although in theory any expression is allowed to be embedded in the string such behavior is in practice fundamentally broken.
            The attribute doesn't specify what language (VB, C#, F#, etc.) to use to parse these expressions. Even if it did all languages 
            would need to be able to evaluate each other language's expressions, which is not viable and the Expression Evaluator doesn't 
            work that way today. Instead it evaluates the embedded expressions in the language of the current method frame. When consuming 
            VB objects from C#, for example, the evaluation migth fail due to language mismatch (evaluating VB expression using C# parser).
            
            Therefore we limit the expressions to a simple language independent syntax: {clr-member-name} '(' ')' ',nq', 
            where parentheses and ,nq suffix (no-quotes) are optional and the name is an arbitrary CLR field, property, or method name.
            We then resolve the member by name using case-sensitive lookup first with fallback to case insensitive and evaluate it.
            If parentheses are present we only look for methods.
            Only parameter less members are considered.
            </remarks>
        </member>
        <member name="T:Roslyn.Scripting.CommonScriptEngine">
            <summary>
            Represents a runtime execution context for C# scripts.
            </summary>
        </member>
        <member name="F:Roslyn.Scripting.CommonScriptEngine.globalAssemblyNamePrefix">
            <summary>
            Unique prefix for generated uncollectible assemblies.
            </summary>
            <remarks>
            The full names of uncollectible assemblies generated by this context must be unique,
            so that we can resolve references among them. Note that CLR can load two different assemblies of the very 
            identity into the same load context.
            
            We are using a certain naming scheme for the generated assemblies (a fixed name prefix followed by a number). 
            If we allowed the compiled code to add references that match this exact pattern it migth happen that 
            the user supplied reference identity conflicts with the identity we use for our generated assemblies and 
            the AppDomain assembly resolve event won't be able to correctly identify the target assembly.
            
            To avoid this problem we use a prefix for assemblies we generate that is unlikely to conflict with user specified references.
            We also check that no user provided references are allowed to be used in the compiled code and report an error ("reserved assembly name").
            </remarks>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.GetReferences">
            <summary>
            Returns a list of assemblies that are currently referenced by the engine.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.AddReference(System.String)">
            <summary>
            Adds a reference to specified assembly.
            </summary>
            <param name="assemblyDisplayNameOrPath">Assembly display name or path.</param>
            <exception cref="T:System.ArgumentNullException"><paramref name="assemblyDisplayNameOrPath"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="assemblyDisplayNameOrPath"/> is empty.</exception>
            <exception cref="T:System.IO.FileNotFoundException">Assembly file can't be found.</exception>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.AddReference(System.Reflection.Assembly)">
            <summary>
            Adds a reference to specified assembly.
            </summary>
            <param name="assembly">Runtime assembly. The assembly must be loaded from a file on disk. In-memory assemblies are not supported.</param>
            <exception cref="T:System.ArgumentNullException"><paramref name="assembly"/> is null.</exception>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.AddReference(Roslyn.Compilers.MetadataReference)">
            <summary>
            Adds a reference to specified assembly.
            </summary>
            <param name="reference">Assembly reference.</param>
            <exception cref="T:System.ArgumentException"><paramref name="reference"/> is not an assembly reference (it's a module).</exception>
            <exception cref="T:System.ArgumentNullException"><paramref name="reference"/> is null.</exception>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.GetImportedNamespaces">
            <summary>
            Returns a list of imported namespaces.
            </summary>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.ImportNamespace(System.String)">
            <summary>
            Imports a namespace, an equivalent of executing "using <paramref name="namespace"/>;" (C#) or "Imports <paramref name="namespace"/>" (VB).
            </summary>
            <exception cref="T:System.ArgumentNullException"><paramref name="namespace"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="namespace"/> is not a valid namespace name.</exception>
        </member>
        <member name="M:Roslyn.Scripting.CommonScriptEngine.MapAssemblySymbol(Roslyn.Compilers.Common.IAssemblySymbol,System.Boolean)">
            <summary>
            Maps given assembly symbol to an assembly ref.
            </summary>
            <remarks>
            The compiler represents every submission by a compilation instance for which it creates a distinct source assembly symbol.
            However multiple submissions might compile into a single dynamic assembly and so we need to map the corresponding assembly symbols to 
            the name of the dynamic assembly.
            </remarks>
        </member>
        <member name="P:Roslyn.Scripting.CommonScriptEngine.BaseDirectory">
            <summary>
            The base directory used to resolve relative paths to assembly references and 
            relative paths that appear in source code compiled by this script engine.
            </summary>
            <remarks>
            If null relative paths won't be resolved and an error will be reported when the compiler encountrs such paths.
            The value can be changed at any point in time. However the new value doesn't affect already compiled submissions.
            The initial value is the current working directory if the current process, or null if not available.
            Changing the base directory doesn't affect the process current working directory used by <see cref="N:System.IO"/> APIs.
            </remarks>
        </member>
        <member name="T:Roslyn.Scripting.CommonScriptEngine.UncollectibleCodeManager">
            <summary>
            Manages uncollectible assemblies and resolves assembly references baked into CCI generated metadata. 
            The resolution is triggered by the CLR Type Loader.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.AssemblyLoader">
            <summary>
            Implements assembly loader for interactive compiler and REPL.
            </summary>
            <remarks>
            <para>
            An assembly is loaded into CLR’s Load Context if it is in the GAC, otherwise it's loaded into No Context via <see cref="M:System.Reflection.Assembly.LoadFile(System.String)"/>.
            <see cref="M:System.Reflection.Assembly.LoadFile(System.String)"/> automatically redirects to GAC if the assembly has a strong name and there is an equivalent assembly in GAC. 
            </para>
            <para>
            The class is thread-safe.
            </para>
            </remarks>
        </member>
        <member name="M:Roslyn.Scripting.AssemblyLoader.Load(Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Loads assembly with given identity.
            </summary>
            <param name="identity">The assembly identity.</param>
            <returns>Loaded assembly.</returns>
        </member>
        <member name="M:Roslyn.Scripting.AssemblyLoader.LoadFromPath(System.String)">
            <summary>
            Loads an assembly from path.
            </summary>
            <param name="path">Absolute assembly file path.</param>
            <exception cref="T:System.ArgumentNullException"><paramref name="path"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="path"/> is not an exisiting assembly file path.</exception>
            <exception cref="T:System.Reflection.TargetInvocationException">The assembly resolver threw an exception.</exception>
        </member>
        <member name="M:Roslyn.Scripting.AssemblyLoader.RegisterDependency(Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Notifies the assembly loader about a dependency that might be loaded in future.
            </summary>
            <param name="dependency">Assembly identity with location.</param>
            <remarks>
            Associates a full assembly name with its location. The association is used when an assembly 
            is being loaded and its name needs to be resolved to a location.
            </remarks>
            <exception cref="T:System.ArgumentNullException"><paramref name="dependency"/> is null.</exception>
            <exception cref="T:System.ArgumentException"><paramref name="dependency"/>.<see cref="P:System.Reflection.AssemblyName.CodeBase"/> is null or empty.</exception>
        </member>
        <member name="P:Roslyn.Scripting.AssemblyLoader.LoadedAssembly.OriginalPath">
            <summary>
            The original path of the assembly before it was shadow-copied.
            For GAC'd assemblies, this is equal to Assembly.Location no matter what path was used to load them.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.AssemblyLoadResult">
            <summary>
            The result of loading an assembly reference to the interactive session.
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.AssemblyLoadResult.IsSuccessful">
            <summary>
            True if the assembly was loaded by the assembly loader, false if has been loaded before.
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.AssemblyLoadResult.Path">
            <summary>
            Full path to the physical assembly file (might be a shadow-copy of the original assembly file).
            </summary>
        </member>
        <member name="P:Roslyn.Scripting.AssemblyLoadResult.OriginalPath">
            <summary>
            Original assembly file path.
            </summary>
        </member>
        <member name="F:Roslyn.Scripting.MemberDisplayFormat.NoMembers">
            <summary>
            Display just a simple description of the object, like type name or ToString(). Don't
            display any members or items of the object.
            </summary>
        </member>
        <member name="F:Roslyn.Scripting.MemberDisplayFormat.Inline">
            <summary>
            Display structure of the object on a single line.
            </summary>
        </member>
        <member name="F:Roslyn.Scripting.MemberDisplayFormat.InlineValue">
            <summary>
            Display structure of the object on a single line, where the object is displayed as a value of its container's member.
            E.g. { a = ... }
            </summary>
        </member>
        <member name="F:Roslyn.Scripting.MemberDisplayFormat.List">
            <summary>
            Displays a siple description of the object followed by list of members. Each member is
            displayed on a separate line.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.Submission`1">
            <summary>
            Compiled executable submission.
            </summary>
        </member>
        <member name="T:Roslyn.Scripting.Session">
            <summary>
            Runtime representation of an interactive session.
            </summary>
            <remarks>
            Session is not thread-safe, i.e. parallel executions against the same session object might fail.
            However executing methods defined in a context of a session in parallel is safe as long as the methods themselves are thread-safe.
            (i.e. accessing data from previous submissions is safe as long as they are readonly or guarded by a user maintained lock).
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.SourceCodeKind.Regular">
            <summary>
            No scripting. Used for .cs/.vb file parsing.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SourceCodeKind.Script">
            <summary>
            Allows top-level statements and declarations. Used for .csx/.vbx file parsing.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SourceCodeKind.Interactive">
            <summary>
            Allows top-level expressions and optional semicolon.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataReader.IMemoryBlock">
            <summary>
            Represents an unmanaged memory block.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.IMemoryBlock.GetContent">
            <summary>
            Returns the content of the memory block. 
            </summary>
            <remarks>
            Only creates a copy of the data if they are not represented by a managed byte array.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReader.IMemoryBlock.Pointer">
            <summary>
            The pointer to the start of Memory block. Null after the block has been disposed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MetadataReader.IMemoryBlock.Length">
            <summary>
            Length of the memory block.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SpecialType">
            <summary>
            Ids of special runtime types.
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.SpecialType.Count">
            <summary>
            Count of special types. This is not a count of enum members.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.None">
            <summary>
            None
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.UseMetadataMethodNames">
            <summary>
            ".ctor" instead of "Foo"
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.UseArityForGenericTypes">
            <summary>
            "List`1" instead of "List&lt;T&gt;" ("List(of T)" in VB). Overrides GenericsOptions on
            types.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.FlagMissingMetadataTypes">
            <summary>
            Append "[Missing]" to missing Metadata types (for testing).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.IncludeScriptType">
            <summary>
            Include the Script type when qualifying type names.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.IncludeCustomModifiers">
            <summary>
            Include custom modifiers (e.g. modopt([mscorlib]System.Runtime.CompilerServices.IsConst)) on
            the member (return) type and parameters.
            </summary>
            <remarks>
            CONSIDER: custom modifiers are part of the public API, so we might want to move this to SymbolDisplayMemberOptions.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayCompilerInternalOptions.ReverseArrayRankSpecifiers">
            <summary>
            For a type written as "int[][,]" in C#, then
              a) setting this option will produce "int[,][]", and
              b) not setting this option will produce "int[][,]".
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayDelegateStyle">
            <summary>
            Specifies how to display delegates (just the name or a name with signature).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayDelegateStyle.NameOnly">
            <summary>
            Only show the name of the delegate (e.g. "SomeDelegate").
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayDelegateStyle.NameAndParameters">
            <summary>
            Show the name and the parameters of the delegate.  e.g. "SomeDelegate(int x)".  The format
            of the parameters will be determined by the other flags passed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayDelegateStyle.NameAndSignature">
            <summary>
            Show the name and the signature of the delegate.  e.g. "void SomeDelegate(int x)".  The
            format of the signature will be determined by the other flags passed.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayExtensionMethodStyle">
            <summary>
            Specifies the options for how extension methods are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayExtensionMethodStyle.StaticMethod">
            <summary>
            Display the extension method as a static method. E.g. Enumerable.ElementAt&lt;TSource&gt;(this IEnumerable&lt;TSource&gt; source, int index).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayExtensionMethodStyle.InstanceMethod">
            <summary>
            Display the extension method as an instance method. E.g. IEnumerable&lt;TSource&gt;.ElementAt&lt;TSource&gt;(int index).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayExtensions">
            <summary>
            Contains the extension methods used to display the description of a symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.ToDisplayString(Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.SymbolDisplayPart},System.IFormatProvider)">
            <summary>
            Converts an array of string parts to a string.
            </summary>
            <param name="parts">An array of string parts (presumably, from ToDisplayStringParts or
            ToDisplayStringPartsInContext).</param>
            <param name="formatProvider">For formatting values within the symbol - null is passed to
            IFormattable.ToString, which treats it as CultureInfo.CurrentCulture.</param>
            <returns>The concatenation of the string parts into a single string (disregarding part
            kinds)</returns>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.IncludesOption(Roslyn.Compilers.SymbolDisplayGenericsOptions,Roslyn.Compilers.SymbolDisplayGenericsOptions)">
            <summary>
            Determines if a flag is set on the <see cref="T:Roslyn.Compilers.SymbolDisplayGenericsOptions"/> enum.
            </summary>
            <param name="options">The value to check.</param>
            <param name="flag">An enum field that specifies the flag.</param>
            <returns>Whether the <paramref name="flag"/> is set on the <paramref name="options"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.IncludesOption(Roslyn.Compilers.SymbolDisplayMemberOptions,Roslyn.Compilers.SymbolDisplayMemberOptions)">
            <summary>
            Determines if a flag is set on the <see cref="T:Roslyn.Compilers.SymbolDisplayMemberOptions"/> enum.
            </summary>
            <param name="options">The value to check.</param>
            <param name="flag">An enum field that specifies the flag.</param>
            <returns>Whether the <paramref name="flag"/> is set on the <paramref name="options"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.IncludesOption(Roslyn.Compilers.SymbolDisplayMiscellaneousOptions,Roslyn.Compilers.SymbolDisplayMiscellaneousOptions)">
            <summary>
            Determines if a flag is set on the <see cref="T:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions"/> enum.
            </summary>
            <param name="options">The value to check.</param>
            <param name="flag">An enum field that specifies the flag.</param>
            <returns>Whether the <paramref name="flag"/> is set on the <paramref name="options"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.IncludesOption(Roslyn.Compilers.SymbolDisplayParameterOptions,Roslyn.Compilers.SymbolDisplayParameterOptions)">
            <summary>
            Determines if a flag is set on the <see cref="T:Roslyn.Compilers.SymbolDisplayParameterOptions"/> enum.
            </summary>
            <param name="options">The value to check.</param>
            <param name="flag">An enum field that specifies the flag.</param>
            <returns>Whether the <paramref name="flag"/> is set on the <paramref name="options"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.IncludesOption(Roslyn.Compilers.SymbolDisplayKindOptions,Roslyn.Compilers.SymbolDisplayKindOptions)">
            <summary>
            Determines if a flag is set on the <see cref="T:Roslyn.Compilers.SymbolDisplayKindOptions"/> enum.
            </summary>
            <param name="options">The value to check.</param>
            <param name="flag">An enum field that specifies the flag.</param>
            <returns>Whether the <paramref name="flag"/> is set on the <paramref name="options"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayExtensions.IncludesOption(Roslyn.Compilers.SymbolDisplayLocalOptions,Roslyn.Compilers.SymbolDisplayLocalOptions)">
            <summary>
            Determines if a flag is set on the <see cref="T:Roslyn.Compilers.SymbolDisplayLocalOptions"/> enum.
            </summary>
            <param name="options">The value to check.</param>
            <param name="flag">An enum field that specifies the flag.</param>
            <returns>Whether the <paramref name="flag"/> is set on the <paramref name="options"/>.</returns>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayFormat">
            <summary>
            Describes the formatting rules that should be used while generating the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.CSharpErrorMessageFormat">
            <summary>
            Standard format for displaying symbols in compiler error messages (C#).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.VisualBasicErrorMessageFormat">
            <summary>
            Standard format for displaying symbols in compiler error messages (Visual Basic).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.FullyQualifiedFormat">
            <summary>
            Fully qualified name format.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.MinimallyQualifiedFormat">
            <summary>
            Format used by default when asking to minimally qualify a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.TestFormat">
            <summary>
            A verbose format for displaying symbols (useful for testing).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.QualifiedNameOnlyFormat">
            <summary>
            this.QualifiedNameOnly = containingSymbol.QualifiedNameOnly + "." + this.Name
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.QualifiedNameArityFormat">
            <summary>
            this.QualifiedNameArity = containingSymbol.QualifiedNameArity + "." + this.Name + "`" + this.Arity
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.ShortFormat">
            <summary>
            A succinct format for displaying symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.ILVisualizationFormat">
            <summary>
            The format used for displaying symbols when visualizing IL.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayFormat.ExplicitInterfaceImplementationFormat">
            <summary>
            Used to normalize explicit interface implementation member names.
            Only expected to be applied to interface types (and their type arguments).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayFormat.#ctor(Roslyn.Compilers.SymbolDisplayGlobalNamespaceStyle,Roslyn.Compilers.SymbolDisplayTypeQualificationStyle,Roslyn.Compilers.SymbolDisplayGenericsOptions,Roslyn.Compilers.SymbolDisplayMemberOptions,Roslyn.Compilers.SymbolDisplayDelegateStyle,Roslyn.Compilers.SymbolDisplayExtensionMethodStyle,Roslyn.Compilers.SymbolDisplayParameterOptions,Roslyn.Compilers.SymbolDisplayAccessorStyle,Roslyn.Compilers.SymbolDisplayLocalOptions,Roslyn.Compilers.SymbolDisplayKindOptions,Roslyn.Compilers.SymbolDisplayMiscellaneousOptions)">
            <summary>
            Constructs a new instance of <see cref="T:Roslyn.Compilers.SymbolDisplayFormat"/> accepting a variety of optional parameters.
            </summary>
            <param name="globalNamespaceStyle"></param>
            <param name="typeQualificationStyle"></param>
            <param name="genericsOptions"></param>
            <param name="memberOptions"></param>
            <param name="delegateStyle"></param>
            <param name="extensionMethodStyle"></param>
            <param name="parameterOptions"></param>
            <param name="accessorStyle"></param>
            <param name="localOptions"></param>
            <param name="kindOptions"></param>
            <param name="miscellaneousOptions"></param>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.GlobalNamespaceStyle">
            <summary>
            Determines how to display references to the global namespace.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.TypeQualificationStyle">
            <summary>
            Determines how types are qualified (e.g. Nested vs Containing.Nested vs Namespace.Containing.Nested).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.GenericsOptions">
            <summary>
            Determines how generics (on types and methods) should be described (i.e. level of detail).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.MemberOptions">
            <summary>
            Formatting options that apply to fields, properties, and methods.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.ParameterOptions">
            <summary>
            Formatting options that apply to method and indexer parameters (i.e. level of detail).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.DelegateStyle">
            <summary>
            Determines how delegates are displayed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.ExtensionMethodStyle">
            <summary>
            Determines how extension methods are displayed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.AccessorStyle">
            <summary>
            Determines how properties are displayed. "Prop" vs "Prop { get; set; }" ("Prop" vs. "ReadOnly Prop" in VB)
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.LocalOptions">
            <summary>
            Determines how local variables are displayed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.KindOptions">
            <summary>
            Formatting options that apply to types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.MiscellaneousOptions">
            <summary>
            Miscellaneous formatting options.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayFormat.CompilerInternalOptions">
            <summary>
            Flags that can only be set within the compiler.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.FormattedSymbol">
            <summary>
            This class associates a symbol with particular format for display.
            It can be passed as an argument for an error message in place where symbol display should go, 
            which allows to defer building strings and doing many other things (like loading metadata) 
            associated with that until the error message is actually requested.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayGenericsOptions">
            <summary>
            Specifies the options for how generics are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGenericsOptions.None">
            <summary>
            Omit generics entirely.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGenericsOptions.IncludeTypeParameters">
            <summary>
            Type parameters. e.g. "Foo&lt;T&gt;" ("Foo(Of T)" in VB).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGenericsOptions.IncludeTypeConstraints">
            <summary>
            Type parameter constraints.  e.g. "where T : new()" ("Of T as New" in VB).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGenericsOptions.IncludeVariance">
            <summary>
            Use out/in before type parameter if it has one. e.g. "Foo&lt;out T&gt;" ("Foo Of Out T" in VB).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayGlobalNamespaceStyle">
            <summary>
            Specifies the options for how to display the global namespace in the description of a symbol.
            </summary>
            <remarks>
            Any of these styles may be overridden by SymbolDisplayTypeQualificationStyle.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGlobalNamespaceStyle.Omitted">
            <summary>
            Omit the global namespace.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGlobalNamespaceStyle.OmittedAsContaining">
            <summary>
            Omit the global namespace if it is being displayed as a containing symbol (i.e. not on its own).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayGlobalNamespaceStyle.Included">
            <summary>
            Include the global namespace.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayLocalOptions">
            <summary>
            Specifies the options for how locals are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayLocalOptions.None">
            <summary>
            Only show the name of the local. (e.g. "x").
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayLocalOptions.IncludeType">
            <summary>
            Include the type of the local. (e.g. "int x").
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayLocalOptions.IncludeConstantValue">
            <summary>
            Include the value of the local if is a constant. (e.g. "int x = 1").
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayMemberOptions">
            <summary>
            Specifies the options for how members are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.None">
            <summary>
            Display only the name of the member.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeType">
            <summary>
            Include the (return) type of the method/field/property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeModifiers">
            <summary>
            Include modifiers.  e.g. "static readonly" ("Shared ReadOnly" in VB).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeAccessibility">
            <summary>
            Include accessibility.  e.g. "public" ("Public" in VB).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeExplicitInterface">
            <summary>
            Indicate properties and methods that explicitly implement interfaces. e.g. "IFoo.Bar {
            get; }".  This has no effect in VB.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeParameters">
            <summary>
            Include method/indexer parameters.  (See ParameterFlags for fine-grained settings.)
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeContainingType">
            <summary>
            Include the name of the containing type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeConstantValue">
            <summary>
            Include the value of the member if is a constant. (e.g. "const int x = 1").
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMemberOptions.IncludeMethodKind">
            <summary>
            Include the method kind (e.g. "Function MyFun()") (supported by VB only).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions">
            <summary>
            Specifies the miscellaneous options for how elements are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.None">
            <summary>
            None
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.UseSpecialTypes">
            <summary>
            Use keywords for predefined types. "int?" instead of
            "System.Nullable&lt;System.Int32&gt;" ("Integer?" instead of "Nullable(of Integer)" in
            VB)
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.EscapeKeywordIdentifiers">
            <summary>
            "@true" instead of "true".  ("[True]" instead of "True" in VB)
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.UseAsterisksInMultiDimensionalArrays">
            <summary>
            "int[][*,*]" instead of "int[][,]".  ("Integer()(*,*)" in VB)
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.UseErrorTypeSymbolName">
            <summary>
            Displays ? for unknown type names
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.RemoveAttributeSuffix">
            <summary>
            Displays attributes names without the "Attribute" suffix, if possible.  This value is
            only respected when getting the minimal display string for a symbol and only applies if
            the context location is one where an attribute can be referenced without the "Attribute"
            suffix.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayMiscellaneousOptions.ExpandNullable">
            <summary>
            Use "System.Nullable&lt;T&gt;" instead of "T?" ("System.Nullable(Of T)" in VB).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayParameterOptions">
            <summary>
            Specifies the options for how parameters are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.None">
            <summary>
            If MemberFlags.IncludeParameters is set, but this value is used, then only the parentheses will be shown
            (e.g. M()).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.IncludeExtensionThis">
            <summary>
            Include the 'this' keyword before the first parameter of an extension method. This has no effect in Visual
            Basic.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.IncludeParamsRefOut">
            <summary>
            Include the params/ref/out keyword ("ByRef/ByVal" in Visual Basic) before params/ref/out parameters (no
            effect if the type is not included).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.IncludeType">
            <summary>
            Include the parameter type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.IncludeName">
            <summary>
            Include the parameter name.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.IncludeDefaultValue">
            <summary>
            Include the parameter default value (no effect if the name is not included).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayParameterOptions.IncludeOptionalBrackets">
            <summary>
            Include square brackets around optional parameters.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayAccessorStyle">
            <summary>
            Specifies the options for how property/event accessors are displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayAccessorStyle.NameOnly">
            <summary>
            Only show the name of the property (formatted using MemberFlags).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayAccessorStyle.ShowAccessors">
            <summary>
            Show the getter and/or setter of the property (or "ReadOnly"/"WriteOnly" in Visual Basic).
            Alternatively, show the add and/or remove methods of the event.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayPart">
            <summary>
            A classified piece of text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SymbolDisplayPart.ToString(System.IFormatProvider)">
            <summary>
            Returns the display string of a piece of classified text.
            </summary>
            <param name="formatProvider"></param>
            <returns>The display string of a piece of classified text.</returns>
        </member>
        <member name="P:Roslyn.Compilers.SymbolDisplayPart.Kind">
            <summary>
            Gets the kind of a piece of classified text.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayPartKind">
            <summary>
            Specifies the kinds of a piece of classified text (SymbolDisplayPart).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayKindOptions">
            <summary>
            Specifies the options for whether the type's kind should be displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayKindOptions.None">
            <summary>
            None
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayKindOptions.IncludeKind">
            <summary>
            Use the type's kind 
            (C#: "Class N1.C1" instead of "N1.C1")
            (VB: "Enum myEnum as Integer" instead of "myEnum as Integer") 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SymbolDisplayTypeQualificationStyle">
            <summary>
            Specifies the options for whether types are qualified when displayed in the description of a symbol.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayTypeQualificationStyle.NameOnly">
            <summary>
            ex) Class1
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayTypeQualificationStyle.NameAndContainingTypes">
            <summary>
            ParentClass.NestedClass
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SymbolDisplayTypeQualificationStyle.NameAndContainingTypesAndNamespaces">
            <summary>
            Namespace1.Namespace2.Class1.Class2
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonAssemblyWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on an assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonAssemblyWellKnownAttributeData.SecurityInformation">
            <summary>
            Returns data decoded from security attributes or null if there are no security attributes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonNamespaceExtent">
            <summary>
            A NamespaceExtent represents whether a namespace contains types and sub-namespaces from a
            particular module, assembly, or merged across all modules (source and metadata) in a
            particular compilation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonNamespaceExtent.#ctor(Roslyn.Compilers.Common.IModuleSymbol)">
            <summary>
            Create a NamespaceExtent that represents a given ModuleSymbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonNamespaceExtent.#ctor(Roslyn.Compilers.Common.IAssemblySymbol)">
            <summary>
            Create a NamespaceExtent that represents a given AssemblySymbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonNamespaceExtent.#ctor(Roslyn.Compilers.Common.CommonCompilation)">
            <summary>
            Create a NamespaceExtent that represents a given Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonNamespaceExtent.Kind">
            <summary>
            Returns what kind of extent: Module, Assembly, or Compilation.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonNamespaceExtent.Module">
            <summary>
            If the Kind is ExtendKind.Module, returns the module symbol that this namespace
            encompasses. Otherwise throws InvalidOperationException.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonNamespaceExtent.Assembly">
            <summary>
            If the Kind is ExtendKind.Assembly, returns the assembly symbol that this namespace
            encompasses. Otherwise throws InvalidOperationException.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonNamespaceExtent.Compilation">
            <summary>
            If the Kind is ExtendKind.Compilation, returns the compilation symbol that this
            namespace encompasses. Otherwise throws InvalidOperationException.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CustomAttributesBag`1">
            <summary>
            Represents a bag of custom attributes and the associated decoded well-known attribute data.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CustomAttributesBag`1.Empty">
            <summary>
            Instance representing sealed custom attribute bag with no attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CustomAttributesBag`1.WithEmptyData">
            <summary>
            Returns a non-sealed custom attribute bag with null initialized <see cref="F:Roslyn.Compilers.CustomAttributesBag`1.earlyDecodedWellKnownAttributeData"/>, null initialized <see cref="F:Roslyn.Compilers.CustomAttributesBag`1.decodedWellKnownAttributeData"/> and uninitialized <see cref="F:Roslyn.Compilers.CustomAttributesBag`1.customAttributes"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CustomAttributesBag`1.SetEarlyDecodedWellKnownAttributeData(Roslyn.Compilers.EarlyWellKnownAttributeData)">
            <summary>
            Sets the early decoded well-known attribute data on the bag in a thread safe manner.
            Stored early decoded data is immutable and cannot be updated further.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CustomAttributesBag`1.SetDecodedWellKnownAttributeData(Roslyn.Compilers.WellKnownAttributeData)">
            <summary>
            Sets the decoded well-known attribute data (except the early data) on the bag in a thread safe manner. 
            Stored decoded data is immutable and cannot be updated further.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CustomAttributesBag`1.SetAttributes(Roslyn.Compilers.ReadOnlyArray{`0})">
            <summary>
            Sets the bound attributes on the bag in a thread safe manner.
            If store succeeds, it seals the bag and makes the bag immutable.
            </summary>
            <returns>Returns true if bound attributes were stored into the bag on this thread.</returns>
        </member>
        <member name="P:Roslyn.Compilers.CustomAttributesBag`1.Attributes">
            <summary>
            Gets the stored bound attributes in the bag.
            </summary>
            <remarks>This property can only be accessed on a sealed bag.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CustomAttributesBag`1.DecodedWellKnownAttributeData">
            <summary>
            Gets the decoded well-known attribute data (except the early data) in the bag. 
            </summary>
            <remarks>This property can only be accessed on the bag after <see cref="M:Roslyn.Compilers.CustomAttributesBag`1.SetDecodedWellKnownAttributeData(Roslyn.Compilers.WellKnownAttributeData)"/> has been invoked.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CustomAttributesBag`1.EarlyDecodedWellKnownAttributeData">
            <summary>
            Gets the early decoded well-known attribute data in the bag. 
            </summary>
            <remarks>This property can only be accessed on the bag after <see cref="M:Roslyn.Compilers.CustomAttributesBag`1.SetEarlyDecodedWellKnownAttributeData(Roslyn.Compilers.EarlyWellKnownAttributeData)"/> has been invoked.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.CustomAttributesBag`1.IsEarlyDecodedWellKnownAttributeDataComputed">
            <summary>
            Return whether early decoded attribute data has been computed and stored on the bag and it is safe to access <see cref="P:Roslyn.Compilers.CustomAttributesBag`1.EarlyDecodedWellKnownAttributeData"/> from this bag.
            Return value of true doesn't guarantee that bound attributes or remaining decoded attribute data has also been initialized.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CustomAttributesBag`1.IsDecodedWellKnownAttributeDataComputed">
            <summary>
            Return whether all decoded attribute data has been computed and stored on the bag and it is safe to access <see cref="P:Roslyn.Compilers.CustomAttributesBag`1.DecodedWellKnownAttributeData"/> from this bag.
            Return value of true doesn't guarantee that bound attributes have also been initialized.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart">
            <summary>
            Enum representing the current state of attribute binding/decoding for a corresponding CustomAttributeBag.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.None">
            <summary>
            Bag has been created, but no decoded data or attributes have been stored.
            CustomAttributeBag is in this state during early decoding phase.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.EarlyDecodedWellKnownAttributeData">
            <summary>
            Early decoded attribute data has been computed and stored on the bag, but bound attributes or remaining decoded attribute data is not stored.
            Only <see cref="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.EarlyDecodedWellKnownAttributeData"/> can be accessed from this bag.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.DecodedWellKnownAttributeData">
            <summary>
            All decoded attribute data has been computed and stored on the bag, but bound attributes are not yet stored.
            Both <see cref="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.EarlyDecodedWellKnownAttributeData"/> and <see cref="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.DecodedWellKnownAttributeData"/> can be accessed from this bag.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.Attributes">
            <summary>
            Bound attributes have been computed and stored on this bag.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.CustomAttributesBag`1.CustomAttributeBagCompletionPart.All">
            <summary>
            CustomAttributeBag is completely initialized and immutable.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonTypeWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonTypeWellKnownAttributeData.SecurityInformation">
            <summary>
            Returns data decoded from security attributes or null if there are no security attributes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MarshalPseudoCustomAttributeData">
            <summary>
            Information decoded from <see cref="T:System.Runtime.InteropServices.MarshalAsAttribute"/>.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMarshallingInformation">
            <summary>
            Information about how values of managed types should be marshalled to and from unmanaged types.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.CustomMarshaller">
            <summary>
            <see cref="T:Microsoft.Cci.ITypeReference"/> or a fully-qualified type name of a type implementing the custom marshaller.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.CustomMarshallerRuntimeArgument">
            <summary>
            An argument string (cookie) passed to the custom marshaller at run time.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.ElementType">
            <summary>
            The unmanged element type of the unmanaged array.
            -1 if it should be omitted from the marshal blob.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.IidParameterIndex">
            <summary>
            Specifies the index of the parameter that contains the value of the Inteface Identifier (IID) of the marshalled object.
            -1 if it should be omitted from the marshal blob.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.UnmanagedType">
            <summary>
            The unmanaged type to which the managed type will be marshalled. This can be be UnmanagedType.CustomMarshaler, in which case the unmanaged type
            is decided at runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.NumberOfElements">
            <summary>
            The number of elements in the fixed size portion of the unmanaged array.
            -1 if it should be omitted from the marshal blob.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.ParamIndex">
            <summary>
            The zero based index of the parameter in the unmanaged method that contains the number of elements in the variable portion of unmanaged array.
            If -1, the variable portion is of size zero, or the caller conveys the size of the variable portion of the array to the unmanaged method in some other way.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.SafeArrayElementSubtype">
            <summary>
            The type to which the variant values of all elements of the safe array must belong. See also SafeArrayElementUserDefinedSubtype.
            (The element type of a safe array is VARIANT. The "sub type" specifies the value of all of the tag fields (vt) of the element values. )
            -1 if it should be omitted from the marshal blob.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMarshallingInformation.SafeArrayElementUserDefinedSubtype">
            <summary>
            A reference to the user defined type to which the variant values of all elements of the safe array must belong.
            (The element type of a safe array is VARIANT. The tag fields will all be either VT_DISPATCH or VT_UNKNOWN or VT_RECORD.
            The "user defined sub type" specifies the type of value the ppdispVal/ppunkVal/pvRecord fields of the element values may point to.)
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonFieldWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a field.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonFieldWellKnownAttributeData.MarshallingInformation">
            <summary>
            Returns marshalling data or null of MarshalAs attribute isn't applied on the field.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IErrorTypeSymbol">
            <summary>
            An IErrorTypeSymbol is used when the compiler cannot determine a symbol object to return because
            of an error. For example, if a field is declared "Foo x;", and the type "Foo" cannot be
            found, an IErrorTypeSymbol is returned when asking the field "x" what it's type is.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.INamedTypeSymbol">
            <summary>
            Represents a type other than an array, a pointer, a type parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.INamespaceOrTypeSymbol">
            <summary>
            Represents either a namespace or a type.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.ISymbol">
            <summary>
            Represents a symbol (namespace, class, method, parameter, etc.)
            exposed by the compiler.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.GetSymbolId">
            <summary>
            Gets the SymbolId for this ISymbol.  The SymbolId is a lightweight identifier for a
            symbol that can be used to resolve the same symbol across compilations.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.GetAttributes">
            <summary>
            Gets the attributes for the symbol. Returns an empty <see cref="T:System.Collections.Generic.IEnumerable`1"/>
            if there are no attributes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.GetAttributes(Roslyn.Compilers.Common.INamedTypeSymbol)">
            <summary>
            Gets the attributes of a given attribute class on this symbol. Returns an empty
            ReadOnlyArray if there are no attributes.
            </summary>
            <param name="attributeType">The type of attribute to check for.</param>
            <returns>All attributes of the given type, or an empty ReadOnlyArray if none.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.GetAttributes(Roslyn.Compilers.Common.IMethodSymbol)">
            <summary>
            Gets the attributes on this symbol which are specified with the given attribute constructor.
            Returns an empty ReadOnlyArray if there are no such attributes.
            </summary>
            <param name="attributeConstructor">Attribute constructor to check for.</param>
            <returns>Attributes specified with the given constructor, or an empty ReadOnlyArray if none.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.GetDocumentationComment(System.Globalization.CultureInfo,System.Threading.CancellationToken)">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.DocumentationComment"/> for the comment associated with the symbol.
            </summary>
            <param name="preferredCulture">Preferred culture or null for the default.</param>
            <param name="cancellationToken">Token allowing cancellation of request.</param>
            <returns>The comment associated with the symbol.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.ToDisplayString(Roslyn.Compilers.SymbolDisplayFormat,System.IFormatProvider)">
            <summary>
            Converts the symbol to a string representation.
            </summary>
            <param name="format">Format or null for the default.</param>
            <param name="formatProvider">Format provider or null for the default.</param>
            <returns>A formatted string representation of the symbol.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISymbol.ToDisplayParts(Roslyn.Compilers.SymbolDisplayFormat)">
            <summary>
            Convert a symbol to an array of string parts, each of which has a kind. Useful for
            colorizing the display string.
            </summary>
            <param name="format">Formatting rules - null implies
            SymbolDisplayFormat.ErrorMessageFormat.</param>
            <returns>A read-only array of string parts.</returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.Kind">
            <summary>
            Gets the <see cref="E:Roslyn.Compilers.CommonSymbolKind"/> indicating what kind of symbol it is.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.Language">
            <summary>
            Gets the source language ("C#" or "Visual Basic").
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.Name">
            <summary>
            Gets the symbol name. Returns the empty string if unnamed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.MetadataName">
            <summary>
            Gets the name of a symbol as it appears in metadata. Most of the time, this
            is the same as the Name property, with the following exceptions:
            1) The metadata name of generic types includes the "`1", "`2" etc. suffix that
            indicates the number of type parameters (it does not include, however, names of
            containing types or namespaces).
            2) The metadata name of explicit interface names have spaces removed, compared to
            the name property.
            3) The length of names is limited to not exceed metadata restrictions.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.ContainingSymbol">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.ISymbol"/> for the immediately containing symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.ContainingAssembly">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.IAssemblySymbol"/> for the containing assembly. Returns null if the
            symbol is shared across multiple assemblies.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.ContainingModule">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.IModuleSymbol"/> for the containing module. Returns null if the
            symbol is shared across multiple modules.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.ContainingType">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.INamedTypeSymbol"/> for the containing type. Returns null if the
            symbol is not contained within a type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.ContainingNamespace">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.INamespaceSymbol"/> for the nearest enclosing namespace. Returns null if the
            symbol isn't contained in a namespace.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsDefinition">
            <summary>
            Gets a value indicating whether the symbol is the original definition. Returns false
            if the symbol is derived from another symbol, by type substitution for instance.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsStatic">
            <summary>
            Gets a value indicating whether the symbol is static.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsVirtual">
            <summary>
            Gets a value indicating whether the symbol is virtual.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsOverride">
            <summary>
            Gets a value indicating whether the symbol is an override of a base class symbol.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsAbstract">
            <summary>
            Gets a value indicating whether the symbol is abstract.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsSealed">
            <summary>
            Gets a value indicating whether the symbol is sealed.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsObsolete">
            <summary>
            Gets a value indicating whether the symbol is marked as obsolete.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsExtern">
            <summary>
            Gets a value indicating whether the symbol is defined externally.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.IsImplicitlyDeclared">
            <summary>
            Returns true if this symbol was automatically created by the compiler, and does not have
            an explicit corresponding source code declaration.  
            
            This is intended for symbols that are ordinary symbols in the language sense, and may be
            used by code, but that are simply declared implicitly rather than with explicit language
            syntax.
            
            Examples include (this list is not exhaustive):
              the default constructor for a class or struct that is created if one is not provided,
              the BeginInvoke/Invoke/EndInvoke methods for a delegate,
              the generated backing field for an auto property or a field-like event,
              this "this" parameter for non-static methods,
              the "value" parameter for a property setter,
              the parameters on indexer accessor methods (not on the indexer itself),
              methods in anonymous types
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.CanBeReferencedByName">
            <summary>
            Returns true if this symbol can be referenced by its name in code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.Locations">
            <summary>
            Gets the locations where the symbol was originally defined, either in source or
            metadata. Some symbols (for example, partial classes) may be defined in more than one
            location.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.DeclaringSyntaxNodes">
            <summary>
            Get the syntax node(s) where this symbol was declared in source. Some symbols (for example,
            partial classes) may be defined in more than one location. This property should return
            one or more syntax nodes only if the symbol was declared in source code and also was
            not implicitly declared (see the IsImplicitlyDeclared property). 
            
            Note that for namespace symbol, the declaring syntax might be declaring a nested namespace.
            For example, the declaring syntax node for N1 in "namespace N1.N2 {...}" is the entire
            NamespaceDeclarationSyntax for N1.N2. For the global namespace, the declaring syntax will
            be the CompilationUnitSyntax.
            </summary>
            <returns>
            The syntax node(s) that declared the symbol. If the symbol was declared in metadata
            or was implicitly declared, returns an empty read-only array.
            </returns>
            <remarks>
            To go the opposite direction (from syntax node to symbol), see <see cref="M:Roslyn.Compilers.Common.ISemanticModel.GetDeclaredSymbol(Roslyn.Compilers.Common.CommonSyntaxNode,System.Threading.CancellationToken)"/>.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.DeclaredAccessibility">
            <summary>
            Gets a <see cref="T:Roslyn.Compilers.Common.CommonAccessibility"/> indicating the declared accessibility for the symbol.
            Returns NotApplicable if no accessibility is declared.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISymbol.OriginalDefinition">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.Common.ISymbol"/> for the original definition of the symbol.
            If this symbol is derived from another symbol, by type substitution for instance,
            this gets the original symbol, as it was defined in source or metadata.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.GetMembers">
            <summary>
            Get all the members of this symbol.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol. If this symbol has no members,
            returns an empty ReadOnlyArray. Never returns Null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.GetMembers(System.String)">
            <summary>
            Get all the members of this symbol that have a particular name.
            </summary>
            <returns>A ReadOnlyArray containing all the members of this symbol with the given name. If there are
            no members with this name, returns an empty ReadOnlyArray. Never returns Null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.GetTypeMembers">
            <summary>
            Get all the members of this symbol that are types.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol. If this symbol has no type members,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.GetTypeMembers(System.String)">
            <summary>
            Get all the members of this symbol that are types that have a particular name, of any arity.
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol with the given name.
            If this symbol has no type members with this name,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.GetTypeMembers(System.String,System.Int32)">
            <summary>
            Get all the members of this symbol that are types that have a particular name and arity
            </summary>
            <returns>A ReadOnlyArray containing all the types that are members of this symbol with the given name and arity.
            If this symbol has no type members with this name and arity,
            returns an empty ReadOnlyArray. Never returns null.</returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.IsNamespace">
            <summary>
            Returns true if this symbol is a namespace. If it is not a namespace, it must be a type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamespaceOrTypeSymbol.IsType">
            <summary>
            Returns true if this symbols is a type. If it is not a type, it must be a namespace.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ITypeSymbol.FindImplementationForInterfaceMember(Roslyn.Compilers.Common.ISymbol)">
            <summary>
            Returns the corresponding symbol in this type or a base type that implements 
            interfaceMember (either implicitly or explicitly), or null if no such symbol exists
            (which might be either because this type doesn't implement the container of
            interfaceMember, or this type doesn't supply a member that successfully implements
            interfaceMember).
            </summary>
            <param name="interfaceMember">
            Must be a non-null interface property, method, or event.
            </param>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.TypeKind">
            <summary>
            An enumerated value that identifies whether this type is an array, pointer, enum, and so on.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.BaseType">
            <summary>
            The declared base type of this type, or null. The object type, interface types,
            and pointer types do not have a base type. The base type of a type parameter
            is its effective base class.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.Interfaces">
            <summary>
            Gets the set of interfaces that this type directly implements. This set does not include
            interfaces that are base interfaces of directly implemented interfaces. This does
            include the interfaces declared as constraints on type parameters.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.AllInterfaces">
            <summary>
            The list of all interfaces of which this type is a declared subtype, excluding this type
            itself. This includes all declared base interfaces, all declared base interfaces of base
            types, and all declared base interfaces of those results (recursively).  This also is the effective
            interface set of a type parameter. Each result
            appears exactly once in the list. This list is topologically sorted by the inheritance
            relationship: if interface type A extends interface type B, then A precedes B in the
            list. This is not quite the same as "all interfaces of which this type is a proper
            subtype" because it does not take into account variance: AllInterfaces for
            IEnumerable&lt;string&gt; will not include IEnumerble&lt;object&gt;
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.IsReferenceType">
            <summary>
            True if this type is known to be a reference type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.IsValueType">
            <summary>
            True if this type is known to be a value type. It is never the case that
            IsReferenceType and IsValueType both return true. However, for an unconstrained type
            parameter, IsReferenceType and IsValueType will both return false.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.IsAnonymousType">
            <summary>
            Is this a symbol for an anonymous type (including delegate).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.OriginalDefinition">
            <summary>
            The original definition of this symbol. If this symbol is constructed from another
            symbol by type substitution then OriginalDefinition gets the original symbol as it was defined in
            source or metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeSymbol.SpecialType">
            <summary>
            An enumerated value that identifies certain 'special' types such as System.Object. 
            Returns SpecialType.None if the type is not special.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamedTypeSymbol.Construct(Roslyn.Compilers.Common.ITypeSymbol[])">
            <summary>
            Returns a constructed type given its type arguments.
            </summary>
            <param name="typeArguments">The immediate type arguments to be replaced for type
            parameters in the type.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamedTypeSymbol.ConstructUnboundGenericType">
            <summary>
            Returns an unbound generic type of this named type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.Arity">
            <summary>
            Returns the arity of this type, or the number of type parameters it takes.
            A non-generic type has zero arity.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.IsGenericType">
            <summary>
            True if this type or some containing type has type parameters.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.IsUnboundGenericType">
            <summary>
            True if this is a reference to an <em>unbound</em> generic type. A generic type is
            considered <em>unbound</em> if all of the type argument lists in its fully qualified
            name are empty. Note that the type arguments of an unbound generic type will be
            returned as error types because they do not really have type arguments.  An unbound
            generic type yields null for its BaseType and an empty result for its Interfaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.IsScriptClass">
            <summary>
            Returns true if the type is a Script class. 
            It might be an interactive submission class or a Script class in a csx file.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.IsImplicitClass">
            <summary>
            Returns true if the type is the implicit class that holds onto invalid global members (like methods or
            statements in a non script file).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.MemberNames">
            <summary>
            Returns collection of names of members declared within this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.TypeParameters">
            <summary>
            Returns the type parameters that this type has. If this is a non-generic type,
            returns an empty ReadOnlyArray.  
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.TypeArguments">
            <summary>
            Returns the type arguments that have been substituted for the type parameters. 
            If nothing has been substituted for a give type parameters,
            then the type parameter itself is consider the type argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.OriginalDefinition">
            <summary>
            Get the original definition of this type symbol. If this symbol is derived from another
            symbol by (say) type substitution, this gets the original symbol, as it was defined in
            source or metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.DelegateInvokeMethod">
            <summary>
            For delegate types, gets the delegate's invoke method.  Returns null on
            all other kinds of types.  Note that is is possible to have an ill-formed
            delegate type imported from metadata which does not have an Invoke method.
            Such a type will be classified as a delegate but its DelegateInvokeMethod
            would be null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.EnumUnderlyingType">
            <summary>
            For enum types, gets the underlying type. Returns null on all other
            kinds of types.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.ConstructedFrom">
            <summary>
            Returns the type symbol that this type was constructed from. This type symbol
            has the same containing type (if any), but has type arguments that are the same
            as the type parameters (although its containing type might not).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.InstanceConstructors">
            <summary>
            Get the instance constructors for this type.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamedTypeSymbol.AssociatedEvent">
            <summary>
            For implicitly declared delegate types returns the EventSymbol that caused this
            delegate type to be generated.
            For all other types returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IErrorTypeSymbol.CandidateSymbols">
            <summary>
            When constructing this type, there may have been symbols that seemed to
            be what the user intended, but were unsuitable. For example, a type might have been
            inaccessible, or ambiguous. This property returns the possible symbols that the user
            might have intended. It will return no symbols if no possible symbols were found.
            See the CandidateReason property to understand why the symbols were unsuitable.
            </summary>
            <remarks>
            This only applies if this INamedTypeSymbol has TypeKind CommonTypeKind.Error.
            If not, an empty ReadOnlyArray is returned.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.IErrorTypeSymbol.CandidateReason">
            <summary>
             If CandidateSymbols returns one or more symbols, returns the reason that those
             symbols were not chosen. Otherwise, returns None.
             </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IRangeVariableSymbol">
            <summary>
            Represents a range variable in a query expression.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonMethodWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonMethodWellKnownAttributeData.SecurityInformation">
            <summary>
            Returns data decoded from security attributes or null if there are no security attributes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.NamespaceExtentKind">
            <summary>
            Describes the kind of the namespace extent.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IEventSymbol">
            <summary>
            Represents an event.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.Type">
            <summary>
            The type of the event. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.AddMethod">
            <summary>
            The 'add' accessor of the event.  Null only in error scenarios.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.RemoveMethod">
            <summary>
            The 'remove' accessor of the event.  Null only in error scenarios.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.RaiseMethod">
            <summary>
            The 'raise' accessor of the event.  Null if there is no raise method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.OriginalDefinition">
            <summary>
            The original definition of the event. If the event is constructed from another
            symbol by type substitution, OriginalDefinition gets the original symbol, as it was 
            defined in source or metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.OverriddenEvent">
            <summary>
            Returns the overridden event, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IEventSymbol.ExplicitInterfaceImplementations">
            <summary>
            Returns interface properties explicitly implemented by this event.
            </summary>
            <remarks>
            Properties imported from metadata can explicitly implement more than one event.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.Common.IAliasSymbol">
            <summary>
            Represents a using alias (Imports alias in Visual Basic).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAliasSymbol.Target">
            <summary>
            Gets the <see cref="T:Roslyn.Compilers.Common.INamespaceOrTypeSymbol"/> for the
            namespace or type referenced by the alias.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IArrayTypeSymbol">
            <summary>
            Represents an array.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IArrayTypeSymbol.Rank">
            <summary>
            Gets the number of dimensions of this array. A regular single-dimensional array
            has rank 1, a two-dimensional array has rank 2, etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IArrayTypeSymbol.ElementType">
            <summary>
            Gets the type of the elements stored in the array.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IArrayTypeSymbol.CustomModifiers">
            <summary>
            Gets the list of custom modifiers associated with the array.
            Returns an empty list if there are no custom modifiers.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IAssemblySymbol">
            <summary>
            Represents a .NET assembly, consisting of one or more modules.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IAssemblySymbol.GivesAccessTo(Roslyn.Compilers.Common.IAssemblySymbol)">
            <summary>
            Gets a value indicating whether this assembly gives 
            <paramref name="toAssembly"/> access to internal symbols</summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IAssemblySymbol.GetTypeByMetadataName(System.String)">
            <summary>
            Lookup a type within the assembly using the canonical CLR metadata name of the type.
            </summary>
            <param name="metadataName">Type name.</param>
            <returns>Symbol for the type or null if type cannot be found or is ambiguous. </returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.IsInteractive">
            <summary>
            True if the assembly contains interactive code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.Identity">
            <summary>
            Gets the name of this assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.GlobalNamespace">
            <summary>
            Gets the merged root namespace that contains all namespaces and types defined in the modules
            of this assembly. If there is just one module in this assembly, this property just returns the 
            GlobalNamespace of that module.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.Modules">
            <summary>
            Gets the modules in this assembly. (There must be at least one.) The first one is the main module
            that holds the assembly manifest.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.TypeNames">
            <summary>
            Gets the set of type identifiers from this assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.NamespaceNames">
            <summary>
            Gets the set of namespace names from this assembly.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IAssemblySymbol.BaseName">
            <summary>
            Get the base name of the assembly. This is equivalent to AssemblyName.Name, but may be 
            much faster to retrieve for source code assemblies, since it does not require binding
            the assembly-level attributes that contain the version number and other assembly
            information.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IDynamicTypeSymbol">
            <summary>
            Represents the 'dynamic' type in C#.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IFieldSymbol">
            <summary>
            Represents a field in a class, struct or enum.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.AssociatedPropertyOrEvent">
            <summary>
            If this field serves as a backing variable for an automatically generated
            property or a field-like event, returns that property/event. Otherwise returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.IsConst">
            <summary>
            Returns true if this field was declared as "const" (i.e. is a constant declaration).
            Also returns true for an enum member.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.IsReadOnly">
            <summary>
            Returns true if this field was declared as "readonly". 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.IsVolatile">
            <summary>
            Returns true if this field was declared as "volatile". 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.Type">
            <summary>
            Gets the type of this field.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.HasConstantValue">
            <summary>
            Returns false if the field wasn't declared as "const", or constant value was omitted or errorneous.
            True otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.ConstantValue">
            <summary>
            Gets the constant value of this field
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IFieldSymbol.CustomModifiers">
            <summary>
            Gets the list of custom modifiers, if any, associated with the field.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.ILabelSymbol">
            <summary>
            Represents a label in method body
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ILabelSymbol.ContainingMethod">
            <summary>
            Gets the immediately containing <see cref="T:Roslyn.Compilers.Common.IMethodSymbol"/> of this <see cref="T:Roslyn.Compilers.Common.ILocalSymbol"/>.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.ILocalSymbol">
            <summary>
            Represents a local variable in method body
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ILocalSymbol.Type">
            <summary>
            Gets the type of this local variable.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ILocalSymbol.ContainingMethod">
            <summary>
            Gets the immediately containing <see cref="T:Roslyn.Compilers.Common.IMethodSymbol"/> of this <see cref="T:Roslyn.Compilers.Common.ILocalSymbol"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ILocalSymbol.IsConst">
            <summary>
            Returns true if this local variable was declared as "const" (i.e. is a constant declaration).
            Also returns true for an enum member.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ILocalSymbol.HasConstantValue">
            <summary>
            Returns false if the local variable wasn't declared as "const", or constant value was omitted or errorneous.
            True otherwise.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ILocalSymbol.ConstantValue">
            <summary>
            Gets the constant value of this local variable
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IMethodSymbol">
            <summary>
            Represents a method or method-like symbol (including constructor,
            destructor, operator, or property/event accessor).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IMethodSymbol.ReduceExtensionMethod(Roslyn.Compilers.Common.ITypeSymbol)">
            <summary>
            If this is an extension method that can be applied to a receiver of the given type,
            returns a reduced extension method symbol thus formed. Otherwise, returns null.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IMethodSymbol.Construct(Roslyn.Compilers.Common.ITypeSymbol[])">
            <summary>
            Returns a constructed method given its type arguments.
            </summary>
            <param name="typeArguments">The immediate type arguments to be replaced for type
            parameters in the method.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.IMethodSymbol.GetDllImportData">
            <summary>
            Platform invoke information, or null if the method isn't a P/Invoke.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.MethodKind">
            <summary>
            Gets what kind of method this is. There are several different kinds of things in the
            C# language that are represented as methods. This property allow distinguishing those things
            without having to decode the name of the method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.Arity">
            <summary>
            Returns the arity of this method, or the number of type parameters it takes.
            A non-generic method has zero arity.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.IsGenericMethod">
            <summary>
            Returns whether this method is generic; i.e., does it have any type parameters?
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.IsExtensionMethod">
            <summary>
            Returns true if this method is an extension method. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.IsVararg">
             <summary>
             Returns whether this method is using CLI VARARG calling convention. This is used for
             C-style variable argument lists. This is used extremely rarely in C# code and is
             represented using the undocumented “__arglist” keyword.
            
             Note that methods with “params” on the last parameter are indicated with the “IsParams”
             property on ParameterSymbol, and are not represented with this property.
             </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.HidesBaseMethodsByName">
            <summary>
            Returns true if this method hides base methods by name. This cannot be specified directly
            in the C# language, but can be true for methods defined in other languages imported from
            metadata. The equivalent of the "hidebyname" flag in metadata. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ReturnsVoid">
            <summary>
            Returns true if this method has no return type; i.e., returns "void".
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ReturnType">
            <summary>
            Gets the return type of the method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.TypeArguments">
            <summary>
            Returns the type arguments that have been substituted for the type parameters. 
            If nothing has been substituted for a given type parameter,
            then the type parameter itself is consider the type argument.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.TypeParameters">
            <summary>
            Get the type parameters on this method. If the method has not generic,
            returns an empty list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.Parameters">
            <summary>
            Gets the parameters of this method. If this method has no parameters, returns
            an empty list.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ConstructedFrom">
            <summary>
            Returns the method symbol that this method was constructed from. The resulting
            method symbol
            has the same containing type (if any), but has type arguments that are the same
            as the type parameters (although its containing type might not).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.OriginalDefinition">
            <summary>
            Get the original definition of this symbol. If this symbol is derived from another
            symbol by (say) type substitution, this gets the original symbol, as it was defined in
            source or metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.OverriddenMethod">
            <summary>
            If this method overrides another method (because it both had the override modifier
            and there correctly was a method to override), returns the overridden method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ReducedFrom">
            <summary>
            If this method is a reduced extension method, returns the extension
            method from which this was reduced. Otherwise, returns null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ExplicitInterfaceImplementations">
            <summary>
            Returns interface methods explicitly implemented by this method.
            </summary>
            <remarks>
            Methods imported from metadata can explicitly implement more than one method, 
            that is why return type is ReadOnlyArray.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ReturnTypeCustomModifiers">
            <summary>
            Returns the list of custom modifiers, if any, associated with the returned value. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.ReturnTypeAttributes">
            <summary>
            Returns the list of custom attributes, if any, associated with the returned value. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.AssociatedPropertyOrEvent">
            <summary>
            If this method has MethodKind of MethodKind.PropertyGet or MethodKind.PropertySet,
            returns the property that this method is the getter or setter for.
            If this method has MethodKind of MethodKind.EventAdd or MethodKind.EventRemove,
            returns the event that this method is the adder or remover for.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.PartialDefinitionPart">
            <summary>
            If this is a partial method implementation part, returns the corresponding
            definition part.  Otherwise null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IMethodSymbol.PartialImplementationPart">
            <summary>
            If this is a partial method declaration without a body, and the method is
            implemented with a body, returns that implementing definition.  Otherwise
            null.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IModuleSymbol">
            <summary>
            Represents a module within an assembly. Every assembly contains one or more modules.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IModuleSymbol.GetModuleNamespace(Roslyn.Compilers.Common.INamespaceSymbol)">
            <summary>
            Given a namespace symbol, returns the corresponding module specific namespace symbol
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IModuleSymbol.GlobalNamespace">
            <summary>
            Returns a NamespaceSymbol representing the global (root) namespace, with
            module extent, that can be used to browse all of the symbols defined in this module.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.INamedTypeSymbolExtensions">
            <summary>
            Defines extension methods for the INamedTypeSymbol interface.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamedTypeSymbolExtensions.GetStaticConstructors(Roslyn.Compilers.Common.INamedTypeSymbol)">
            <summary>
            Returns static constructors.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamedTypeSymbolExtensions.GetConstructors(Roslyn.Compilers.Common.INamedTypeSymbol)">
            <summary>
            Get the constructors.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.INamespaceSymbol">
            <summary>
            Represents a namespace.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceSymbol.GetMembers">
            <summary>
            Get all the members of this symbol.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceSymbol.GetMembers(System.String)">
            <summary>
            Get all the members of this symbol that have a particular name.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.INamespaceSymbol.GetNamespaceMembers">
            <summary>
            Get all the members of this symbol that are namespaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamespaceSymbol.IsGlobalNamespace">
            <summary>
            Returns whether this namespace is the unnamed, global namespace that is 
            at the root of all namespaces.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamespaceSymbol.Extent">
            <summary>
            Namespaces are by their nature open-ended, but a NamespaceSymbol contains a specific set
            of members. The set of members contained by a NamespaceSymbol is denoted by the Extent
            of the namespace. If a Namespace has an module Extent, it contains members of the
            namespace that are present in a particular module. If a Namespace has an compilation
            extent, it contains all members of the namespace in a compilation, including those
            defined in source and all directly referenced metadata assemblies (or added metadata
            modules). 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamespaceSymbol.ConstituentNamespaces">
            <summary>
            If a namespace has Assembly or Compilation extent, it may be composed of multiple
            namespaces that are merged together. If so, ConstituentNamespaces returns
            all the namespaces that were merged. If this namespace was not merged, returns
            an array containing only this namespace.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.INamespaceSymbol.ImplicitType">
            <summary>
            Returns an implicit type symbol for this namespace or null if there is none. This type
            wraps misplaced global code.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IParameterSymbol">
            <summary>
            Represents a parameter of a method or property.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.RefKind">
            <summary>
            Whether the parameter passed by value or by reference.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.IsParams">
            <summary>
            Returns true if the parameter was declared as a parameter array. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.IsOptional">
            <summary>
            Returns true if the parameter is optional.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.IsThis">
            <summary>
            Returns true if the parameter is the hidden 'this' ('Me' in Visual Basic) parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.Type">
            <summary>
            Gets the type of the parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.CustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.Ordinal">
            <summary>
            Gets the ordinal position of the parameter. The first parameter has ordinal zero.
            The 'this' parameter ('Me' in Visual Basic) has ordinal -1.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.HasDefaultValue">
            <summary>
            Returns true if the parameter specifies a default value to be passed
            when no value is provided as an argument to a call. The default value
            can be obtained with the DefaultValue property.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IParameterSymbol.DefaultValue">
            <summary>
            Returns the default value of the parameter. 
            </summary>
            <remarks>
            Returns null if the parameter type is a struct and the default value of the parameter
            is the default value of the struct type.
            </remarks>
            <exception cref="T:System.InvalidOperationException">The parameter has no default value.</exception>
        </member>
        <member name="T:Roslyn.Compilers.Common.IPointerTypeSymbol">
            <summary>
            Represents a pointer type such as "int *". Pointer types
            are used only in unsafe code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPointerTypeSymbol.PointedAtType">
            <summary>
            Gets the type of the storage location that an instance of the pointer type points to.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPointerTypeSymbol.CustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the pointer type.
            (Some managed languages may represent special information about the pointer type
            as a custom modifier on either the pointer type or the element type, or
            both.)
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IPropertySymbol">
            <summary>
            Represents a property or indexer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.IsIndexer">
            <summary>
            Returns whether the property is really an indexer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.IsReadOnly">
            <summary>
            True if this is a read-only property; that is, a property with no set accessor.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.IsWriteOnly">
            <summary>
            True if this is a write-only property; that is, a property with no get accessor.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.IsWithEvents">
            <summary>
            Returns true if this property is an auto-created WithEvents property that takes place of
            a field member when the field is marked as WithEvents.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.Type">
            <summary>
            The type of the property. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.Parameters">
            <summary>
            The parameters of this property. If this property has no parameters, returns
            an empty list. Parameters are only present on indexers, or on some properties
            imported from a COM interface.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.GetMethod">
            <summary>
            The 'get' accessor of the property, or null if the property is write-only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.SetMethod">
            <summary>
            The 'set' accessor of the property, or null if the property is read-only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.OriginalDefinition">
            <summary>
            The original definition of the property. If the property is constructed from another
            symbol by type substitution, OriginalDefinition gets the original symbol, as it was 
            defined in source or metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.OverriddenProperty">
            <summary>
            Returns the overridden property, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.ExplicitInterfaceImplementations">
            <summary>
            Returns interface properties explicitly implemented by this property.
            </summary>
            <remarks>
            Properties imported from metadata can explicitly implement more than one property.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.IPropertySymbol.TypeCustomModifiers">
            <summary>
            The list of custom modifiers, if any, associated with the type of the property. 
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonTypedConstant">
            <summary>
            Represents a constant value used as an argument to a custom attribute.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonTypedConstant.GetTypedConstantKind(Roslyn.Compilers.Common.ITypeSymbol,Roslyn.Compilers.Common.CommonCompilation)">
            <remarks>
            TypedConstant isn't computing its own kind from the type symbol because it doesn't
            have a way to recognize the well-known type System.Type.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypedConstant.Kind">
            <summary>
            The kind of the constant.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypedConstant.Type">
            <summary>
            Returns the <see cref="T:Roslyn.Compilers.Common.ITypeSymbol"/> of the constant, 
            or null if the type can't be determined (error).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypedConstant.Value">
            <summary>
            The value for a non-array constant.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonTypedConstant.Values">
            <summary>
            The value for an <see cref="T:Roslyn.Compilers.Common.CommonTypedConstant"/> array.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.ITypeParameterSymbol">
            <summary>
            Represents a type parameter in a generic type or generic method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.Ordinal">
            <summary>
            The ordinal position of the type parameter in the parameter list which declares
            it. The first type parameter has ordinal zero.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.Variance">
            <summary>
            The variance annotation, if any, of the type parameter declaration. Type parameters may be 
            declared as 'in' (contravariant), 'out' (covariant) or neither.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.IsMethodTypeParameter">
            <summary>
            True if the type parameter is declared by a generic method.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.DeclaringMethod">
            <summary>
            The method that declares the type parameter, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.DeclaringType">
            <summary>
            The type that declares the type parameter, or null.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.HasReferenceTypeConstraint">
            <summary>
            True if the reference type constraint was specified for the type parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.HasValueTypeConstraint">
            <summary>
            True if the value type constraint was specified for the type parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.HasConstructorConstraint">
            <summary>
            True if the parameterless constructor constraint was specified for the type parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ITypeParameterSymbol.ConstraintTypes">
            <summary>
            The types that were directly specified as constraints on the type parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonMethodKind">
            <summary>
            Enumeration for possible kinds of method symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.AnonymousFunction">
            <summary>
            An anonymous method or lambda expression
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.Constructor">
            <summary>
            Method is a constructor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.Conversion">
            <summary>
            Method is a conversion.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.DelegateInvoke">
            <summary>
            Method is a delegate invoke.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.Destructor">
            <summary>
            Method is a destructor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.EventAdd">
            <summary>
            Method is an event add.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.EventRaise">
            <summary>
            Method is an event raise.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.EventRemove">
            <summary>
            Method is an event remove.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.ExplicitInterfaceImplementation">
            <summary>
            Method is an explicit interface implementation.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.Operator">
            <summary>
            Method is an operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.Ordinary">
            <summary>
            Method is an ordinary method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.PropertyGet">
            <summary>
            Method is a property get.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.PropertySet">
            <summary>
            Method is a property set.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.ReducedExtension">
            <summary>
            An extension method with the "this" parameter removed.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMethodKind.StaticConstructor">
            <summary>
            Method is a static constructor.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonTypeKind">
            <summary>
            Enumeration for possible kinds of type symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Unknown">
            <summary>
            Type's kind is undefined.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.ArrayType">
            <summary>
            Type is an array type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Class">
            <summary>
            Type is a class.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Delegate">
            <summary>
            Type is a delegate.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.DynamicType">
            <summary>
            Type is dynamic.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Enum">
            <summary>
            Type is an enumeration.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Error">
            <summary>
            Type is an error type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Interface">
            <summary>
            Type is an interface.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Module">
            <summary>
            Type is a module.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.PointerType">
            <summary>
            Type is a pointer.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Struct">
            <summary>
            Type is a struct.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.TypeParameter">
            <summary>
            Type is a type parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonTypeKind.Submission">
            <summary>
            Type is an interactive submission.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonMemberNames">
            <summary>
            Specifies the member names known to the compiler (such as .ctor or op_Explicit).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.EnumBackingFieldName">
            <summary>
            Name of the enum backing field.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.InstanceConstructorName">
            <summary>
            The name assigned to an instance constructor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.StaticConstructorName">
            <summary>
            The name assigned to the static constructor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.Indexer">
            <summary>
            The symbol name assigned to all indexers, other than explicit interface implementations.
            </summary>
            <remarks>
            Will not correspond to the name that appears in metadata.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DestructorName">
            <summary>
            The name assigned to the destructor.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DelegateInvokeName">
            <summary>
            The name assigned to the delegate invoke method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DelegateBeginInvokeName">
            <summary>
            The name assigned to the delegate BeginInvoke method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DelegateEndInvokeName">
            <summary>
            The name assigned to the delegate EndInvoke method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.EntryPointMethodName">
            <summary>
            The name of an entry point method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DefaultScriptClassName">
            <summary>
            The default fully qualified name of a Script class.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ObjectToString">
            <summary>
            The name assigned to Object.ToString method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ObjectEquals">
            <summary>
            The name assigned to Object.Equals method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ObjectGetHashCode">
            <summary>
            The name assigned to Object.GetHashCode method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ImplicitConversionName">
            <summary>
            The name assigned to an implicit (widening) conversion.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ExplicitConversionName">
            <summary>
            The name assigned to an explicit (narrowing) conversion.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.AdditionOperatorName">
            <summary>
            The name assigned to the Addition operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.BitwiseAndOperatorName">
            <summary>
            The name assigned to the BitwiseAnd operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.BitwiseOrOperatorName">
            <summary>
            The name assigned to the BitwiseOr operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DecrementOperatorName">
            <summary>
            The name assigned to the Decrement operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.DivisionOperatorName">
            <summary>
            The name assigned to the Division operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.EqualityOperatorName">
            <summary>
            The name assigned to the Equality operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ExclusiveOrOperatorName">
            <summary>
            The name assigned to the ExclusiveOr operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.FalseOperatorName">
            <summary>
            The name assigned to the False operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.GreaterThanOperatorName">
            <summary>
            The name assigned to the GreaterThan operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.GreaterThanOrEqualOperatorName">
            <summary>
            The name assigned to the GreaterThanOrEqual operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.IncrementOperatorName">
            <summary>
            The name assigned to the Increment operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.InequalityOperatorName">
            <summary>
            The name assigned to the Inequality operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LeftShiftOperatorName">
            <summary>
            The name assigned to the LeftShift operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.UnsignedLeftShiftOperatorName">
            <summary>
            The name assigned to the UnsignedLeftShift operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LessThanOperatorName">
            <summary>
            The name assigned to the LessThan operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LessThanOrEqualOperatorName">
            <summary>
            The name assigned to the LessThanOrEqual operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LogicalNotOperatorName">
            <summary>
            The name assigned to the LogicalNot operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LogicalOrOperatorName">
            <summary>
            The name assigned to the LogicalOr operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LogicalAndOperatorName">
            <summary>
            The name assigned to the LogicalAnd operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ModulusOperatorName">
            <summary>
            The name assigned to the Modulus operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.MultiplyOperatorName">
            <summary>
            The name assigned to the Multiply operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.OnesComplementOperatorName">
            <summary>
            The name assigned to the OnesComplement operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.RightShiftOperatorName">
            <summary>
            The name assigned to the RightShift operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.UnsignedRightShiftOperatorName">
            <summary>
            The name assigned to the UnsignedRightShift operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.SubtractionOperatorName">
            <summary>
            The name assigned to the Subtraction operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.TrueOperatorName">
            <summary>
            The name assigned to the True operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.UnaryNegationOperatorName">
            <summary>
            The name assigned to the UnaryNegation operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.UnaryPlusOperatorName">
            <summary>
            The name assigned to the UnaryPlus operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ConcatenateOperatorName">
            <summary>
            The name assigned to the Concatenate operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ExponentOperatorName">
            <summary>
            The name assigned to the Exponent operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.IntegerDivisionOperatorName">
            <summary>
            The name assigned to the IntegerDivision operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.LikeOperatorName">
            <summary>
            The name assigned to the Like operator.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.GetEnumeratorMethodName">
            <summary>
            The required name for the GetEnumerator method used in a ForEach statement.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.MoveNextMethodName">
            <summary>
            The required name for the MoveNext method used in a ForEach statement.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.CurrentPropertyName">
            <summary>
            The required name for the Current property used in a ForEach statement.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.ValuePropertyName">
            <summary>
            The required name for the Nullable&lt;T&gt;.Value property used in
            a ForEach statement when the collection is a nullable struct.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonMemberNames.CollectionInitializerAddMethodName">
            <summary>
            The name for the Add method to be invoked for each element in a Collection initializer expression.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.LanguageNames">
            <summary>
            A class that provides constants for common language names.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.LanguageNames.CSharp">
            <summary>
            The common name used from the C# language.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.LanguageNames.VisualBasic">
            <summary>
            The common name used for the Visual Basic language.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CommonParameterWellKnownAttributeData">
            <summary>
            Information decoded from well-known custom attributes applied on a parameter.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.CommonParameterWellKnownAttributeData.MarshallingInformation">
            <summary>
            Returns marshalling data or null of MarshalAs attribute isn't applied on the parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.RefKind">
            <summary>
            Denotes the kind of reference parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.RefKind.None">
            <summary>
            Indicates a "value" parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.RefKind.Ref">
            <summary>
            Indicates a "ref" parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.RefKind.Out">
            <summary>
            Indicates an "out" parameter.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonAccessibility">
            <summary>
            Enumeration for common accessibility combinations.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.NotApplicable">
            <summary>
            No accessibility specified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.Public">
            <summary>
            Public access.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.Protected">
            <summary>
            Protected access.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.Private">
            <summary>
            Private access.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.Internal">
            <summary>
            Internal access.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.ProtectedOrInternal">
            <summary>
            Protected or internal access.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonAccessibility.ProtectedAndInternal">
            <summary>
            Protected internal access.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TypedConstantKind">
            <summary>
            Represents the kind of a TypedConstant.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.VarianceKind">
            <summary>
            An enumeration declaring the kinds of variance supported for generic type parameters.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.VarianceKind.None">
            <summary>
            invariant
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.VarianceKind.Out">
            <summary>
            "Out" - covariant
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.VarianceKind.In">
            <summary>
            "In" - contravariant
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSymbolKind">
            <summary>
            Specifies the possible kinds of symbols.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Alias">
            <summary>
            Symbol is an alias.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.ArrayType">
            <summary>
            Symbol is an array type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Assembly">
            <summary>
            Symbol is an assembly.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.DynamicType">
            <summary>
            Symbol is a dynamic type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Event">
            <summary>
            Symbol is an Event.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Field">
            <summary>
            Symbol is a field.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Label">
            <summary>
            Symbol is a label.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Local">
            <summary>
            Symbol is a local.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Method">
            <summary>
            Symbol is a method.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.NetModule">
            <summary>
            Symbol is a netmodule.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.NamedType">
            <summary>
            Symbol is a named type (e.g. class).
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Namespace">
            <summary>
            Symbol is a namespace.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Parameter">
            <summary>
            Symbol is a parameter.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.PointerType">
            <summary>
            Symbol is a pointer type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.Property">
            <summary>
            Symbol is a property.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.RangeVariable">
            <summary>
            Symbol is a range variable of a query expression.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSymbolKind.TypeParameter">
            <summary>
            Symbol is a type parameter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonSyntaxNodeExtensions.ReplaceNodes``1(``0,System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxNode},System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode})">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldNodes">The nodes to be replaced; descendants of the root node.</param>
            <param name="computeReplacementNode">A function that computes a replacement node for the
            argument nodes. The first argument is the original node. The second argument is the same
            node rewritten with replaced descendants.</param>
        </member>
        <member name="M:Roslyn.Compilers.CommonSyntaxNodeExtensions.ReplaceNode``2(``0,``1,``1)">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <typeparam name="TNode">The type of the replaced node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldNode">The node to be replaced; a descendant of the root node.</param>
            <param name="newNode">The new node to use in the new tree in place of the old node.</param>
        </member>
        <member name="M:Roslyn.Compilers.CommonSyntaxNodeExtensions.ReplaceTokens``1(``0,System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxToken},System.Func{Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken})">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldTokens">The token to be replaced; descendants of the root node.</param>
            <param name="computeReplacementToken">A function that computes a replacement token for
            the argument tokens. The first argument is the original token. The second argument is
            the same token rewritten with replaced trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.CommonSyntaxNodeExtensions.ReplaceToken``1(``0,Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Creates a new tree of nodes with the specified old token replaced with a new token.
            </summary>
            <typeparam name="TRoot">The type of the root node.</typeparam>
            <param name="root">The root node of the tree of nodes.</param>
            <param name="oldToken">The token to be replaced.</param>
            <param name="newToken">The new token to use in the new tree in place of the old
            token.</param>
        </member>
        <member name="M:Roslyn.Compilers.CommonSyntaxNodeExtensions.RemoveNode``1(``0,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.SyntaxRemoveOptions)">
            <summary>
            Creates a new tree of nodes with the specified node removed. The associated trivia is distributed to the next
            token or is returned as residual trivia if no token is available.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonSyntaxNodeExtensions.RemoveNodes``1(``0,System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxNode},Roslyn.Compilers.SyntaxRemoveOptions)">
            <summary>
            Creates a new tree of nodes with the specified nodes removed. The associated trivia is distributed to the next
            token or is returned as residual trivia if no token is available.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SyntaxAnnotation">
            <summary>
            Annotates syntax with additional information. As syntax elements are immutable they can not
            actually be annotated with information. However, new syntax elements can be created from an
            existing syntax element and an annotation to return an entirely new syntax element with that
            associated annotation.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SyntaxAnnotation.ElasticAnnotation">
            <summary>
            predefined syntax annotation that indicates whether one has a elastric trivia or not
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.SyntaxAnnotation.AddAnnotationTo``1(``0)">
            <summary>
            Adds this annotation to the given syntax node, creating a new syntax node of the same
            type with the annotation on it.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxNode">
            <summary>
            Represents a non-terminal node in the syntax tree. This is the language agnostic equivalent of <see
            cref="T:Roslyn.Compilers.CSharp.SyntaxNode"/> and <see cref="T:Roslyn.Compilers.VisualBasic.SyntaxNode"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.HasAnnotations(System.Type)">
            <summary>
            Determines if this node has annotations of the specified type. 
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines if this node has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.GetAnnotations(System.Type)">
            <summary>
            Gets all annotations of the specified type attached to this node.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.ChildNodesAndTokens">
            <summary>
            The children nodes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.ToString">
            <summary>
            Returns the string representation of this node, not including its leading and trailing trivia.
            </summary>
            <returns>The string representation of this node, not including its leading and trailing trivia.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.ToFullString">
            <summary>
            Returns full string representation of this node including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this node including its leading and trailing trivia.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNode.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this node to the specified TextWriter
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IBaseSyntaxNode.Kind">
            <summary>
            A integer representing the language specific kind of node
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ToString">
            <summary>
            Returns the string representation of this node, not including its leading and trailing trivia.
            </summary>
            <returns>The string representation of this node, not including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ToFullString">
            <summary>
            Returns full string representation of this node including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this node including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this node to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetText">
            <summary>
            Gets the full text of this node as an new IText instance.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.EquivalentTo(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Determine whether this node is structurally equivalent to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetChildPosition(System.Int32)">
            <summary>
            Determines position of a child at the slotIndex
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics in the sub tree that has this node as its root.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetReference">
            <summary>
            Gets an ISyntaxReference for this syntax node. ISyntaxReferences can be used to
            regain access to a syntax node without keeping the entire tree and source text in
            memory.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ChildNodesAndTokens">
            <summary>
            The list of child nodes and tokens of this node, where each element is a CommonSyntaxNodeOrToken instance.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ChildNodes">
            <summary>
            Gets a list of the child nodes in prefix document order. This list does not contain tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.Ancestors(System.Boolean)">
            <summary>
            Gets a list of ancestor nodes
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.AncestorsAndSelf(System.Boolean)">
            <summary>
            Gets a list of ancestor nodes (including this node) 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.FirstAncestorOrSelf``1(System.Func{``0,System.Boolean},System.Boolean)">
            <summary>
            Gets the first node of type TNode that matches the predicate.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodes(System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodes(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodesAndSelf(System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes (including this node) in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodesAndSelf(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes (including this node) in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodesAndTokens(System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes and tokens in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodesAndTokens(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of the descendant nodes and tokens in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodesAndTokensAndSelf(System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant nodes and tokens (including this node) in prefix document order.
            </summary>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantNodesAndTokensAndSelf(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of the descendant nodes and tokens (including this node) in prefix document order.
            </summary>
            <param name="span">The span the node's full span must intersect.</param>
            <param name="descendIntoChildren">An optional function that determines if the search descends into the argument node's children.</param>
            <param name="descendIntoTrivia">Determines if nodes that are part of structured trivia are included in the list.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.FindToken(System.Int32,System.Boolean)">
            <summary>
            Finds a descendant token of this node whose span includes the supplied position. 
            </summary>
            <param name="position">The character position of the token relative to the beginning of the file.</param>
            <param name="findInsideTrivia">
            True to return tokens that are part of trivia. If false finds the token whose full span (including trivia)
            includes the position.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetFirstToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Gets the first token of the tree rooted by this node. Skips zero-width tokens.
            </summary>
            <returns>The first token or <c>default(CommonSyntaxToken)</c> if it doesn't exist.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetLastToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Gets the last token of the tree rooted by this node. Skips zero-width tokens.
            </summary>
            <returns>The last token or <c>default(CommonSyntaxToken)</c> if it doesn't exist.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantTokens(System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant tokens under this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantTokens(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Gets a list of descendant tokens under this node with a full span that intersects the specified span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetLeadingTrivia">
            <summary>
            The list of trivia that appears before this node in the source code and are attached to a token that is a
            descendant of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetTrailingTrivia">
            <summary>
            The list of trivia that appears after this node in the source code and are attached to a token that is a
            descendant of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.FindTrivia(System.Int32,System.Boolean)">
            <summary>
            Finds a descendant trivia of this node whose span includes the supplied position.
            </summary>
            <param name="position">The character position of the trivia relative to the beginning of the file.</param>
            <param name="findInsideTrivia">
            True to return tokens that are part of trivia. If false finds the token whose full span (including trivia)
            includes the position.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantTrivia(System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Get a list of all the trivia associated with the descendant nodes and tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.DescendantTrivia(Roslyn.Compilers.TextSpan,System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean},System.Boolean)">
            <summary>
            Get a list of all the trivia associated with the descendant nodes and tokens.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.HasAnnotations(System.Type)">
            <summary>
            Determines whether this node has annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this node has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotations(System.Type)">
            <summary>
            Gets all the annotations of the specified type attached to this node. 
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedNodesAndTokens(System.Type)">
            <summary>
            Gets all nodes and tokens with an annotation of the specified type. The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedNodesAndTokens(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Gets all nodes and tokens with the specified annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedTrivia(System.Type)">
            <summary>
            Gets all trivia with an annotation of the specified type. The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedTrivia(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Finds all trivia with this specific annotation attached, that are on or under the trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.CopyAnnotationsTo``1(``0)">
            <summary>
            Copies all SyntaxAnnotations, if any, from this SyntaxNode instance and attaches them to a new instance based on <paramref name="node" />.
            </summary>
            <remarks>
            <para>
            If no annotations are copied, just returns <paramref name="node" />.
            </para>
            <para>
            It can also be used manually to preserve annotations in a more complex tree
            modification, even if the type of a node changes.
            </para>
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.IsEquivalentTo(Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean)">
            <summary>
            Determines if two nodes are the same, disregarding trivia differences.
            </summary>
            <param name="node">The node to compare against.</param>
            <param name="topLevel"> If true then the node are equivalent if the contained nodes and
            tokens declaring metadata visible symbolic information are equivalent, ignoring any
            differences of nodes inside method bodies or initializer expressions, otherwise all
            nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ChildNodesAndTokensCore">
            <summary>
            The list of child nodes and tokens of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetLeadingTriviaCore">
            <summary>
            The list of trivia that appear before this node in the source code and are attached to a token that is a
            descendant of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetTrailingTriviaCore">
            <summary>
            The list of trivia that appear after this node in the source code and are attached to a token that is a
            descendant of this node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.EquivalentToCore(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Determine if this node is structurally equivalent to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.FindTokenCore(System.Int32,System.Boolean)">
            <summary>
            Finds a descendant token of this node whose span includes the supplied position. 
            </summary>
            <param name="position">The character position of the token relative to the beginning of the file.</param>
            <param name="findInsideTrivia">
            True to return tokens that are part of trivia.
            If false finds the token whose full span (including trivia) includes the position.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.FindTokenCore(System.Int32,System.Func{Roslyn.Compilers.Common.CommonSyntaxTrivia,System.Boolean})">
            <summary>
            Finds a descendant token of this node whose span includes the supplied position. 
            </summary>
            <param name="position">The character position of the token relative to the beginning of the file.</param>
            <param name="stepInto">
            Applied on every structured trivia. Return false if the tokens included in the trivia should be skipped. 
            Pass null to skip all structured trivia.
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.FindTriviaCore(System.Int32,System.Boolean)">
            <summary>
            Finds a descendant trivia of this node whose span includes the supplied position.
            </summary>
            <param name="position">The character position of the trivia relative to the beginning of the file.</param>
            <param name="findInsideTrivia">Whether to search inside structured trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ReplaceNodesCore(System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxNode},System.Func{Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode})">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ReplaceNodeCore(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.RemoveNodeCore(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.SyntaxRemoveOptions)">
            <summary>
            Creates a new tree of nodes with the specified node removed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.RemoveNodesCore(System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxNode},Roslyn.Compilers.SyntaxRemoveOptions)">
            <summary>
            Creates a new tree of nodes with the specified node removed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ReplaceTokensCore(System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonSyntaxToken},System.Func{Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken})">
            <summary>
            Creates a new tree of nodes with the specified old node replaced with a new node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.ReplaceTokenCore(Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Creates a new tree of nodes with the specified old token replaced with a new token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedNodesAndTokensCore(System.Type)">
            <summary>
            Finds all nodes with an annotation of the specified type. The type must be a strict subtype of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedNodesAndTokensCore(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Finds all nodes with the specified annotation attached.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedTriviaCore(System.Type)">
            <summary>
            Finds all trivia with an annotation of the specified type. The type must be a strict subtype of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.GetAnnotatedTriviaCore(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Finds all the trivia with the specified annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNode.IsEquivalentToCore(Roslyn.Compilers.Common.CommonSyntaxNode,System.Boolean)">
            <summary>
            Determines if two nodes are the same, disregarding trivia differences.
            </summary>
            <param name="node">The node to compare against.</param>
            <param name="topLevel"> If true then the nodes are equivalent if the contained nodes and
            tokens declaring metadata visible symbolic information are equivalent, ignoring any
            differences of nodes inside method bodies or initializer expressions, otherwise all
            nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.Kind">
            <summary>
            An integer representing the language specific kind of this node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.Language">
            <summary>
            The language name that this node is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.SyntaxTree">
            <summary>
            Returns CommonSyntaxTree that owns the node or null if node does not belong to a
            CommonSyntaxTree
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.Span">
            <summary>
            The absolute span of this node in characters, not including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.FullSpan">
            <summary>
            The absolute span of this node in characters, including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.IsMissing">
            <summary>
            Determines whether the node represents a language construct that was actually parsed
            from the source code. Missing nodes are generated by the parser in error scenarios to
            represent constructs that should have been present in the source code in order to
            compile successfully but were actually missing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.IsStructuredTrivia">
            <summary>
            Determines whether this node represents a structured trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.ContainsDirectives">
            <summary>
            Determines whether this node has any descendant preprocessor directives.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.ContainsDiagnostics">
            <summary>
            Determines whether this node or any of its descendant nodes, tokens or trivia have any diagnostics on them. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.HasLeadingTrivia">
            <summary>
            Determines whether this node has any leading trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.HasTrailingTrivia">
            <summary>
            Determines whether this node has any trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.Parent">
            <summary>
            The node that contains this node in its Children collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.ContainsAnnotations">
            <summary>
            Determines whether this node or any sub node, token or trivia has annotations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.KindCore">
            <summary>
            An integer representing the language specific kind of node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.ParentCore">
            <summary>
            The node that holds this node in its Children collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNode.SyntaxTreeCore">
            <summary>
            Returns CommonSyntaxTree that owns the node or null if node does not belong to a
            CommonSyntaxTree
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken">
            <summary>
            A wrapper for either a syntax node (<see cref="T:Roslyn.Compilers.CommonSyntaxNode"/>) or a syntax token (<see
            cref="T:Roslyn.Compilers.CommonSyntaxToken"/>).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.AsToken">
            <summary>
            Returns the underlying token if this <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> is wrapping a
            token.
            </summary>
            <returns>
            The underlying token if this <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> is wrapping a token.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.AsNode">
            <summary>
            Returns the underlying node if this <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> is wrapping a
            node.
            </summary>
            <returns>
            The underlying node if this <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> is wrapping a node.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.ChildNodesAndTokens">
            <summary>
            The list of child nodes and tokens of the underlying node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.ToString">
            <summary>
            Returns the string representation of this node or token, not including its leading and trailing
            trivia.
            </summary>
            <returns>The string representation of this node or token, not including its leading and trailing
            trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.ToFullString">
            <summary>
            Returns the full string representation of this node or token including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this node or token including its leading and trailing
            trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this node or token to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.GetLeadingTrivia">
            <summary>
            The list of trivia that appear before the underlying node or token in the source code and are attached to a
            token that is a descendant of the underlying node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.GetTrailingTrivia">
            <summary>
            The list of trivia that appear after the underlying node or token in the source code and are attached to a
            token that is a descendant of the underlying node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.HasAnnotations(System.Type)">
            <summary>
            Determines whether this node or token has annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines if this node or token has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.GetAnnotations(System.Type)">
            <summary>
            Gets all annotations of the specified type attached to this node or token.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.Equals(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Determines whether the supplied <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/> is equal to this
            <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.op_Equality(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken,Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Determines whether two <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>s are equal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.op_Inequality(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken,Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Determines whether two <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>s are unequal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.Equals(System.Object)">
            <summary>
            Determines whether the supplied <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/> is equal to this
            <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.GetHashCode">
            <summary>
            Serves as hash function for <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.op_Implicit(Roslyn.Compilers.Common.CommonSyntaxToken)~Roslyn.Compilers.Common.CommonSyntaxNodeOrToken">
            <summary>
            Returns a new <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/> that wraps the supplied token.
            </summary>
            <param name="token">The input token.</param>
            <returns>
            A <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/> that wraps the supplied token.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.op_Explicit(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)~Roslyn.Compilers.Common.CommonSyntaxToken">
            <summary>
            Returns the underlying token wrapped by the supplied <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/>.
            </summary>
            <param name="nodeOrToken">
            The input <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>.
            </param>
            <returns>
            The underlying token wrapped by the supplied <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.op_Implicit(Roslyn.Compilers.Common.CommonSyntaxNode)~Roslyn.Compilers.Common.CommonSyntaxNodeOrToken">
            <summary>
            Returns a new <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/> that wraps the supplied node.
            </summary>
            <param name="node">The input node.</param>
            <returns>
            A <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/> that wraps the supplied node.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.op_Explicit(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)~Roslyn.Compilers.Common.CommonSyntaxNode">
            <summary>
            Returns the underlying node wrapped by the supplied <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/>.
            </summary>
            <param name="nodeOrToken">
            The input <see cref="T:Roslyn.Compilers.CommonSyntaxNodeOrToken"/>.
            </param>
            <returns>
            The underlying node wrapped by the supplied <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.GetLocation">
            <summary>
            Get the location of this node or token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics in either the sub tree that has this node as its root or
            associated with this token and its related trivia. 
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.Kind">
            <summary>
            An integer representing the language specific kind of the underlying node or token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.Language">
            <summary>
            The language name that this node or token is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.IsMissing">
            <summary>
            Determines whether the underlying node or token represents a language construct that was actually parsed
            from source code. Missing nodes and tokens are typically generated by the parser in error scenarios to
            represent constructs that should have been present in the source code for the source code to compile
            successfully but were actually missing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.Parent">
            <summary>
            The node that contains the underlying node or token in its Children collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.IsToken">
            <summary>
            Determines whether this <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> is wrapping a token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.IsNode">
            <summary>
            Determines whether this <see cref="T:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken"/> is wrapping a node.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.Span">
            <summary>
            The absolute span of the underlying node or token in characters, not including its leading and trailing
            trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.FullSpan">
            <summary>
            The absolute span of the underlying node or token in characters, including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.HasLeadingTrivia">
            <summary>
            Determines whether the underlying node or token has any leading trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.HasTrailingTrivia">
            <summary>
            Determines whether the underlying node or token has any trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.HasChildren">
            <summary>
            Determines whether the underlying node or token has any child nodes or tokens.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.ContainsDiagnostics">
            <summary>
            Determines whether the underlying node or token or any of its descendant nodes, tokens or trivia have any
            diagnostics on them. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.ContainsDirectives">
            <summary>
            Determines whether the underlying node or token has any descendant preprocessor directives.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.ContainsAnnotations">
            <summary>
            Determines whether this node or token (or any sub node, token or trivia) as annotations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxNodeOrToken.SyntaxTree">
            <summary>
            SyntaxTree which contains current SyntaxNodeOrToken.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxToken">
            <summary>
            Represents a token in the syntax tree. This is the language agnostic equivalent of <see
            cref="T:Roslyn.Compilers.CSharp.SyntaxToken"/> and <see cref="T:Roslyn.Compilers.VisualBasic.SyntaxToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.ToString">
            <summary>
            Returns the string representation of this token, not including its leading and trailing trivia.
            </summary>
            <returns>The string representation of this token, not including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.ToFullString">
            <summary>
            Returns the full string representation of this token including its leading and trailing trivia.
            </summary>
            <returns>The full string representation of this token including its leading and trailing trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this token to the specified TextWriter
            </summary>
            <param name="writer"></param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.HasAnnotations(System.Type)">
            <summary>
            True if this token has annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this token or any of its trivia has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetAnnotations(System.Type)">
            <summary>
            Gets all the annotations of the specified type attached to this token.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetAllTrivia">
            <summary>
            Gets a list of all the trivia (both leading and trailing) for this token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.op_Equality(Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Determines whether two <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/>s are equal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.op_Inequality(Roslyn.Compilers.Common.CommonSyntaxToken,Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Determines whether two <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/>s are unequal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.Equals(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Determines whether the supplied <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/> is equal to this
            <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.Equals(System.Object)">
            <summary>
            Determines whether the supplied <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/> is equal to this
            <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetHashCode">
            <summary>
            Serves as hash function for <see cref="T:Roslyn.Compilers.CommonSyntaxToken"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetNextToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Gets the token that follows this token in the syntax tree.
            </summary>
            <returns>The token that follows this token in the syntax tree.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetPreviousToken(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Gets the token that precedes this token in the syntax tree.
            </summary>
            <returns>The next token that follows this token in the syntax tree.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.WithAdditionalAnnotations(Roslyn.Compilers.SyntaxAnnotation[])">
            <summary>
            Adds this annotation to a given syntax token, creating a new syntax token of the same type with the
            annotation on it.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.CopyAnnotationsTo(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Copies all SyntaxAnnotations, if any, from this CommonSyntaxToken instance and attaches them to a new instance based on <paramref name="token" />.
            </summary>
            <remarks>
            If no annotations are copied, just returns <paramref name="token" />.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetLocation">
            <summary>
            Gets the location for this token.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxToken.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics associated with this token and any related trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.Kind">
            <summary>
            An integer representing the language specific kind of this token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.Language">
            <summary>
            The language name that this token is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.ContextualKind">
            <summary>
            The kind of token, given its position in the syntax. This differs from <see cref="P:Roslyn.Compilers.Common.CommonSyntaxToken.Kind"/> when a contextual keyword is used in a place in the syntax that gives it
            its keyword meaning.
            </summary>
            <remarks>
            The ContextualKind is relevant only on contextual keyword tokens. ContextualKind differs
            from Kind when a token is used in context where the token should be interpreted as a
            keyword.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.Parent">
            <summary>
            The node that contains this token in its Children collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.Width">
            <summary>
            The width of the token in characters, not including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.FullWidth">
            <summary>
            The complete width of the token in characters including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.Span">
            <summary>
            The absolute span of this token in characters, not including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.FullSpan">
            <summary>
            The absolute span of this token in characters, including its leading and trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.IsMissing">
            <summary>
            Determines whether this token represents a language construct that was actually parsed from source code.
            Missing tokens are typically generated by the parser in error scenarios to represent constructs that should
            have been present in the source code for the source code to compile successfully but were actually missing.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.Value">
            <summary>
            Returns the value of the token. For example, if the token represents an integer literal, then this property
            would return the actual integer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.ValueText">
            <summary>
            Returns the text representation of the value of the token. For example, if the token represents an integer
            literal, then this property would return a string representing the integer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.HasLeadingTrivia">
            <summary>
            Determines whether this token has any leading trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.HasTrailingTrivia">
            <summary>
            Determines whether this token has any trailing trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.LeadingWidth">
            <summary>
            Full width of the leading trivia of this token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.TrailingWidth">
            <summary>
            Full width of the trailing trivia of this token.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.ContainsDiagnostics">
            <summary>
            Determines whether this token or any of its descendant trivia have any diagnostics on them. 
            </summary>>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.ContainsDirectives">
            <summary>
            Determines whether this token has any descendant preprocessor directives.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.HasStructuredTrivia">
            <summary>
            Determines whether any of this token's trivia is structured.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.ContainsAnnotations">
            <summary>
            True if this token or its trivia has any annotations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.LeadingTrivia">
            <summary>
            The list of trivia that appear before this token in the source code.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.TrailingTrivia">
            <summary>
            The list of trivia that appear after this token in the source code and are attached to this token or any of
            its descendants.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxToken.SyntaxTree">
            <summary>
            SyntaxTree which contains current SyntaxToken.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxTrivia">
            <summary>
            Represents a trivia in the syntax tree. This is the language agnostic equivalent of <see
            cref="T:Roslyn.Compilers.CSharp.SyntaxTrivia"/> and <see cref="T:Roslyn.Compilers.VisualBasic.SyntaxTrivia"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.HasAnnotations(System.Type)">
            <summary>
            Determines where this trivia has annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.HasAnnotation(Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Determines whether this trivia has the specific annotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.GetAnnotations(System.Type)">
            <summary>
            Get all the annotations of the specified type attached to this trivia.
            The type must be a strict sub type of SyntaxAnnotation.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.GetStructure">
            <summary>
            Returns the child non-terminal node representing the syntax tree structure under this structured trivia.
            </summary>
            <returns>The child non-terminal node representing the syntax tree structure under this structured
            trivia.</returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.ToString">
            <summary> 
            Returns the string representation of this trivia. If this trivia is structured trivia then the returned string
            will not include any leading or trailing trivia present on the StructuredTriviaSyntax node of this trivia.
            </summary>
            <returns>The string representation of this trivia.</returns>
            <remarks>The length of the returned string is always the same as Span.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.ToFullString">
            <summary> 
            Returns the full string representation of this trivia. If this trivia is structured trivia then the returned string will
            include any leading or trailing trivia present on the StructuredTriviaSyntax node of this trivia.
            </summary>
            <returns>The full string representation of this trivia.</returns>
            <remarks>The length of the returned string is always the same as FullSpan.Length</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.WriteTo(System.IO.TextWriter)">
            <summary>
            Writes the full text of this trivia to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.op_Equality(Roslyn.Compilers.Common.CommonSyntaxTrivia,Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Determines whether two <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/>s are equal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.op_Inequality(Roslyn.Compilers.Common.CommonSyntaxTrivia,Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Determines whether two <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/>s are unequal.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.Equals(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Determines whether the supplied <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/> is equal to this
            <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.Equals(System.Object)">
            <summary>
            Determines whether the supplied <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/> is equal to this
            <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.GetHashCode">
            <summary>
            Serves as hash function for <see cref="T:Roslyn.Compilers.CommonSyntaxTrivia"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.WithAdditionalAnnotations(Roslyn.Compilers.SyntaxAnnotation[])">
            <summary>
            Adds this annotation to the given syntax trivia, creating a new syntax trivia of the same type with the
            annotation on it.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.CopyAnnotationsTo(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Copies all SyntaxAnnotations, if any, from this CommonSyntaxTrivia instance and attaches them to a new instance based on <paramref name="trivia" />.
            </summary>
            <remarks>
            If no annotations are copied, just returns <paramref name="trivia" />.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.GetLocation">
            <summary>
            Get the location of this trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTrivia.GetDiagnostics">
            <summary>
            Gets a list of all the diagnostics associated with this trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.Kind">
            <summary>
            An integer representing the language specific kind of this trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.Language">
            <summary>
            The language name that this trivia is syntax of.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.Token">
            <summary>
            The parent token that contains this token in its LeadingTrivia or TrailingTrivia collection.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.Width">
            <summary>
            The width of this trivia in characters. If this trivia is a structured trivia then the returned width will
            not include the widths of any leading or trailing trivia present on the child non-terminal node of this
            trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.FullWidth">
            <summary>
            The width of this trivia in characters. If this trivia is a structured trivia then the returned width will
            include the widths of any leading or trailing trivia present on the child non-terminal node of this trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.Span">
            <summary>
            The absolute span of this trivia in characters. If this trivia is a structured trivia then the returned span
            will not include spans of any leading or trailing trivia present on the child non-terminal node of this
            trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.FullSpan">
            <summary>
            The absolute span of this trivia in characters. If this trivia is a structured trivia then the returned span
            will include spans of any leading or trailing trivia present on the child non-terminal node of this trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.ContainsDiagnostics">
            <summary>
            Determines whether this trivia has any diagnostics on it. If this trivia is a structured trivia then the
            returned value will indicate whether this trivia or any of its descendant nodes, tokens or trivia have any
            diagnostics on them.
            </summary>>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.HasStructure">
            <summary>
            Determines whether this trivia is a structured trivia.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.ContainsAnnotations">
            <summary>
            Determines whether this trivia or any of its structure has annotations.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.IsDirective">
            <summary>
            Determines whether this trivia represents a preprocessor directive.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTrivia.SyntaxTree">
            <summary>
            SyntaxTree which contains current SyntaxTrivia.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CvtResFile">
            <summary>
            Parses .RES a file into its constituent resource elements.
            Mostly translated from cvtres.cpp.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Win32ResourceConversions.VersionResourceSerializer.PadKeyLen(System.Int32)">
            <summary>
            Assume that 3 WORDs preceded this string and that the they began 32-bit aligned.
            Given the string length compute the number of bytes that should be written to end
            the buffer on a 32-bit boundary</summary>
            <param name="cb"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Win32ResourceConversions.VersionResourceSerializer.PadToDword(System.Int32)">
            <summary>
            assuming the length of bytes submitted began on a 32-bit boundary,
            round up this length as necessary so that it ends at a 32-bit boundary.
            </summary>
            <param name="cb"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Win32ResourceConversions.VersionResourceSerializer.KEYSIZE(System.String)">
            <summary>
            compute number of chars needed to end up on a 32-bit boundary assuming that three
            WORDS preceded this string.
            </summary>
            <param name="sz"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonDiagnostic">
            <summary>
            A diagnostic (such as a compiler error or a warning), along with the location where it occurred.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonDiagnostic.ToString(System.IFormatProvider)">
            <summary>
            Formats the diagnostic using specified format provider (e.g. culture).
            </summary>
            <returns>
            String in format "{file}({location}): {error-code}: {message}". Some parts might be missing if not available.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonDiagnostic.Location">
            <summary>
            The primary location of the diagnostic.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonDiagnostic.AdditionalLocations">
            <summary>
            Get additional locations related to the diagnostic. Typically these are the locations of
            symbols that are mentioned in the message.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonDiagnostic.Info">
            <summary>
            Get the information about the diagnostic: the code, severity, message, etc.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DiagnosticBag">
            <summary>
            Represents a thread-safe, mutable bag of diagnostics. You can add diagnostics to the bag,
            and also get all the diagnostics out of the bag (the bag implements
            IEnumerable&lt;Diagnostics&gt;. Once added, diagnostics cannot be removed, and no ordering
            is guaranteed.
            
            The bag can also be sealed, after which attempts to add additional errors will throw an
            exception. This is a useful to present errors from being incorrectly added to a bag too
            late.
            </summary>
            <remarks>Thread Safe. It is optimized to be efficient when containing zero errors.</remarks>
        </member>
        <member name="M:Roslyn.Compilers.DiagnosticBag.HasAnyErrors">
            <summary>
            Returns true if the bag has any diagnostics with Severity=Error. Does not consider warnings or informationals.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DiagnosticBag.Add(Roslyn.Compilers.Common.CommonDiagnostic)">
            <summary>
            Add a diagnostic to the bag.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DiagnosticBag.Add(System.Collections.Generic.IEnumerable{Roslyn.Compilers.Common.CommonDiagnostic})">
            <summary>
            Add multiple diagnostics to the bag.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DiagnosticBag.Add(Roslyn.Compilers.DiagnosticBag)">
            <summary>
            Add another DiagnosticBag to the bag.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.DiagnosticBag.Seal">
            <summary>
            Seal the bag so no further errors can be added, while clearing it and returning the old set of errors.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticBag.IsEmpty">
            <summary>
            Return if the bag is empty.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticBag.Bag">
            <summary>
            Get the underlying concurrent storage, creating it on demand if needed.
            
            NOTE: there are no strict guarantees that the storage still belongs to 
                  the current bag.
                  The method however guarantees that the storage is not null and
                  did belong to the current bag at some point.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.DiagnosticInfo">
            <summary>
            A DiagnosticInfo object has information about a diagnostic, but without any attached location information.
            </summary>
            <remarks>
            More specialized diagnostics with additional information (e.g., ambiguity errors) can derive from this class to
            provide access to additional information about the error, such as what symbols were involved in the ambiguity.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.DiagnosticInfo.GetMessage(System.Globalization.CultureInfo)">
            <summary>
            Get the text of the message in the given language.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticInfo.Code">
            <summary>
            The error code, as an integer.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticInfo.Severity">
            <summary>
            Returns whether this diagnostic is informational, warning, or error.
            For checking if it is a warning treated as an error, use IsWarningsAsError.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticInfo.WarningLevel">
            <summary>
            Returns the warning level for a warning, 1 through 4. Errors have warning level 0.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticInfo.IsWarningAsError">
            <summary>
            Returns if this warning is treated as an error.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticInfo.AdditionalLocations">
            <summary>
            If a derived class has additional information about other referenced symbols, it can
            expose the locations of those symbols in a general way, so they can be reported along
            with the error.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.DiagnosticInfo.MessageIdentifier">
            <summary>
            Get the message id (for example "CS1001") for the message. This includes both the error number
            and a prefix identifying the source.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ReportWarning">
            <summary>
            Describes how to report a warning diagnostic.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.ReportWarning.Default">
            <summary>
            Report a warning by default.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.ReportWarning.Error">
            <summary>
            Report a warning as an error.  
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.ReportWarning.Warn">
            <summary>
            Report a warning as a warning even though /warnaserror is specified.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.ReportWarning.Suppress">
            <summary>
            Suppress a warning.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonMessageProvider">
            <summary>
            Abstracts the ability to classify and load messages for error codes. Allows the error
            infrastructure to be reused between C# and VB.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonMessageProvider.GetSeverity(System.Int32)">
            <summary>
            Given an error code, get the severity (warning or error) of the code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonMessageProvider.LoadMessage(System.Int32,System.Globalization.CultureInfo)">
            <summary>
            Load the message for the given error code. If the message contains
            "fill-in" placeholders, those should be expressed in standard string.Format notation
            and be in the string.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonMessageProvider.GetWarningLevel(System.Int32)">
            <summary>
            Get the warning level for warnings (e.g., 1 through 4 for C#). VB does not have warning
            levels and always uses 1. Errors should return 0.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonMessageProvider.CreateDiagnostic(System.Int32,Roslyn.Compilers.Common.CommonLocation,System.Object[])">
            <summary>
            Create a simple language speicific diagnostic for given error code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonMessageProvider.GetMessagePrefix(System.String,Roslyn.Compilers.DiagnosticSeverity,System.Boolean,System.Globalization.CultureInfo)">
            <summary>
            Given a message identifier (e.g., CS0219), severity, warning as error and a culture, 
            get the entire prefix (e.g., "error CS0219: Warning as Error:" for C# or "error BC42024:" for VB) used on error messages.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonMessageProvider.CodePrefix">
            <summary>
            Get the text prefix (e.g., "CS" for C#) used on error messages.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonMessageProvider.ErrorCodeType">
            <summary>
            Type that defines error codes. For testing purposes only.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonMessageProvider.NoLocation">
            <summary>
            Language specific instance representing an unspecified location.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonLocation">
            <summary>
            A program location in source code.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonLocation.GetLineSpan(System.Boolean)">
            <summary>
            Gets the location in terms of file name/line/column.  However, the file is actually whatever was passed in
            when asked to parse; there may not really be a file.
            </summary>
            <param name="usePreprocessorDirectives">
            If true, the path/line/column
            reported takes into account #line directives. If false, #line directives
            are ignored.
            </param>
            <returns>
            <see cref="T:Roslyn.Compilers.FileLinePositionSpan"/> that contains file, line and column information. 
            Returns an invalid span (see <see cref="P:Roslyn.Compilers.FileLinePositionSpan.IsValid"/>) if the information is not available.
            </returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonLocation.Kind">
            <summary>
            Location kind (None/SourceFile/MetadataFile).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonLocation.IsInSource">
            <summary>
            Returns true if the location represents a specific location in a source code file.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonLocation.IsInMetadata">
            <summary>
            Returns true if the location is in metadata.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonLocation.SourceTree">
            <summary>
            The syntax tree this error is located in. Throws an InvalidOperationException unless
            InSource is true.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonLocation.MetadataModule">
            <summary>
            Returns the metadata module the error is associated with or null if the module is not available.
            </summary>
            <remarks>
            Might return null even if <see cref="P:Roslyn.Compilers.Common.CommonLocation.IsInMetadata"/> returns true. The module symbol might not be available anymore, 
            for example, if the location is serialized and deserialized.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonLocation.SourceSpan">
            <summary>
            The location within the syntax tree that this error is associated with.
            </summary>
            <remarks>
            If IsInSource returns False this method returns an empty TextSpan which starts at position 0.
            </remarks>
        </member>
        <member name="T:Roslyn.Compilers.Grouping`2">
            <summary>
            A simple class to implement IGrouping.
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.Hash.Combine(System.Int32,System.Int32)">
            <summary>
            This is how VB Anonymous Types combine hash values for fields.
            </summary>
            <param name="currentKey"></param>
            <param name="newKey"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Utilities.Hash.Combine``1(``0,System.Int32)">
            <summary>
            This is how VB Anonymous Types combine hash values for fields.
            </summary>
            <param name="newKeyPart"></param>
            <param name="currentKey"></param>
            <returns></returns>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxWalker">
            <summary>
            Walks the syntax tree, allowing subclasses to operate on all nodes, token and trivia.  The
            walker will perform a depth first walk of the tree.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.CommonSyntaxWalker.Depth">
            <summary>
            True if this walker will descend into structured trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxWalker.#ctor(Roslyn.Compilers.Common.SyntaxWalkerDepth)">
            <summary>
            Creates a new walker instance.
            </summary>
            <param name="depth">specify how much this walker will descent into
            trivia.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxWalker.Visit(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Called when the walker visits a node.  This method may be overridden if subclasses want
            to handle the node.  Overrides should call back into this base method if they want the
            children of this node to be visited.
            </summary>
            <param name="node">The current node that the walker is visiting.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxWalker.VisitToken(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Called when the walker visits a token.  This method may be overridden if subclasses want
            to handle the token.  Overrides should call back into this base method if they want the 
            trivia of this token to be visited.
            </summary>
            <param name="token">The current token that the walker is visiting.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxWalker.VisitTrivia(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Called when the walker visits a trivia syntax.  This method may be overridden if
            subclasses want to handle the token.  Overrides should call back into this base method if
            they want the children of this trivia syntax to be visited.
            </summary>
            <param name="trivia">The current trivia syntax that the walker is visiting.</param>
        </member>
        <member name="M:Roslyn.Compilers.Common.IBaseSyntaxNodeExt.GetUnderlyingGreenNode">
            <summary>
            If this is a red node, this returns it's underlying green node.  If this is a green node
            already, then this is returned.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IBaseSyntaxNodeExt.Width">
            <summary>
            The width of the node in characters, not including leading and trailing trivia
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IBaseSyntaxNodeExt.FullWidth">
            <summary>
            The complete width of the node in characters including leading and trailing trivia
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.IStructuredTriviaSyntax">
            <summary>
            Represents the root node of a structured trivia tree (for example, a preprocessor directive
            or a documentation comment). From this root node you can traverse back up to the containing
            trivia in the outer tree that contains it.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.IStructuredTriviaSyntax.ParentTrivia">
            <summary>
            Returns the parent trivia syntax for this structured trivia syntax.
            </summary>
            <returns>The parent trivia syntax for this structured trivia syntax.</returns>
        </member>
        <member name="T:Roslyn.Compilers.Common.ISyntaxReference">
            <summary>
            A reference to a syntax node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.ISyntaxReference.GetSyntax">
            <summary>
            Retrieves the original referenced syntax node.  May cause a parse to happen to recover
            the syntax node.
            </summary>
            <returns>The original referenced syntax node.</returns>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISyntaxReference.SyntaxTree">
            <summary>
            The syntax tree that this references a node within.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.ISyntaxReference.Span">
            <summary>
            The span of the node referenced.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.CommonSyntaxTree">
            <summary>
            The parsed representation of a source document.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.TryGetText(Roslyn.Compilers.IText@)">
            <summary>
            Gets the syntax tree's text if it is available.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetText(System.Threading.CancellationToken)">
            <summary>
            Gets the text of the source document.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetTextAsync(System.Threading.CancellationToken)">
            <summary>
            Gets the text of the source document asynchronously.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.TryGetRoot(Roslyn.Compilers.Common.CommonSyntaxNode@)">
            <summary>
            Get's the root of the syntax tree if it is available.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetRoot(System.Threading.CancellationToken)">
            <summary>
            Gets the root node of the syntax tree, causing computation if necessary.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetRootAsync(System.Threading.CancellationToken)">
            <summary>
            Gets the root node of the syntax tree asynchronously
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.WithChangedText(Roslyn.Compilers.IText)">
            <summary>
            Create a new syntax based off this tree using a new source text. 
            
            If the new source text is a minor change from the current source text an incremental parse will occur
            reusing most of the current syntax tree internal data.  Otherwise, a full parse will using the new
            source text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnostics(System.Threading.CancellationToken)">
            <summary>
            Gets a list of all the diagnostics in the syntax tree.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnostics(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets a list of all the diagnostics in the sub tree that has the specified node as its root.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnostics(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Gets a list of all the diagnostics associated with the token and any related trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnostics(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Gets a list of all the diagnostics associated with the trivia.
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnostics(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Gets a list of all the diagnostics in either the sub tree that has the specified node as its root or
            associated with the token and its related trivia. 
            This method does not filter diagnostics based on #pragmas and compiler options
            like nowarn, warnaserror etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetLineSpan(Roslyn.Compilers.TextSpan,System.Boolean,System.Threading.CancellationToken)">
            <summary>
            Gets a FileLinePositionSpan for a TextSpan. FileLinePositionSpans are used primarily for diagnostics and
            source locations.
            </summary>
            <param name="span"></param>
            <param name="usePreprocessorDirectives">An indicator that determines whether preprocessor #line directives
            are used to alter the resulting line span.</param>
            <param name="cancellationToken">The cancellation token.</param> 
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetLineVisibility(System.Int32,System.Threading.CancellationToken)">
            <summary>
            Returns the visibility for the line at the given position.
            </summary>
            <param name="position">The position to check.</param>
            <param name="cancellationToken">The cancellation token.</param> 
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetLineSpanAndIsHidden(Roslyn.Compilers.TextSpan,System.Boolean@)">
            <summary>
            Gets a FileLinePositionSpan for a TextSpan and the information whether this span is considered to be hidden or not. 
            FileLinePositionSpans are used primarily for diagnostics and source locations.
            This method combines a call to GetLineSpan and IsHiddenPosition.
            </summary>
            <param name="span"></param>
            <param name="isHiddenPosition">Returns a boolean indicating whether this span is considered hidden or not.</param>
            <remarks>This function is being called only in the context of sequence point creation and therefore interprets the 
            LineVisibility accordingly (BeforeFirstRemappingDirective -> Visible).</remarks>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetChangedSpans(Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            Returns a list of the changed regions between this tree and the specified tree. The list is conservative for
            performance reasons. It may return larger regions than what has actually changed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetLocation(Roslyn.Compilers.TextSpan)">
            <summary>
            Gets a location for the specified text span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.IsEquivalentTo(Roslyn.Compilers.Common.CommonSyntaxTree,System.Boolean)">
            <summary>
            Determines if two trees are the same, disregarding trivia differences.
            </summary>
            <param name="tree">The tree to compare against.</param>
            <param name="topLevel"> If true then the trees are equivalent if the contained nodes and tokens declaring
            metadata visible symbolic information are equivalent, ignoring any differences of nodes inside method bodies
            or initializer expressions, otherwise all nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetRootCore(System.Threading.CancellationToken)">
            <summary>
            Gets the root of the syntax tree if it is available.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetRootAsyncCore(System.Threading.CancellationToken)">
            <summary>
            Gets the root fo the syntax tree asynchronously.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.TryGetRootCore(Roslyn.Compilers.Common.CommonSyntaxNode@)">
            <summary>
            Returns true if the root node of the syntax tree is available.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.WithChangedTextCore(Roslyn.Compilers.IText)">
            <summary>
            Create a new syntax based off this tree using a new source text. 
            
            If the new source text is a minor change from the current source text an incremental parse will occur
            reusing most of the current syntax tree internal data.  Otherwise, a full parse will using the new
            source text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnosticsCore(System.Threading.CancellationToken)">
            <summary>
            Gets a list of all the diagnostics in the syntax tree.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnosticsCore(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets a list of all the diagnostics in the sub tree that has the specified node as its root.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnosticsCore(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Gets a list of all the diagnostics associated with the token and any related trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnosticsCore(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Gets a list of all the diagnostics associated with the trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetDiagnosticsCore(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Gets a list of all the diagnostics in either the sub tree that has the specified node as its root or
            associated with the token and its related trivia. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetChangedSpansCore(Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            Returns a list of the changed regions between this tree and the specified tree. The list is conservative for
            performance reasons. It may return larger regions than what has actually changed.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetLocationCore(Roslyn.Compilers.TextSpan)">
            <summary>
            Gets a location for the specified text span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.IsEquivalentToCore(Roslyn.Compilers.Common.CommonSyntaxTree,System.Boolean)">
            <summary>
            Determines if two trees are the same, disregarding trivia differences.
            </summary>
            <param name="tree">The tree to compare against.</param>
            <param name="topLevel"> If true then the trees are equivalent if the contained nodes and tokens declaring
            metadata visible symbolic information are equivalent, ignoring any differences of nodes inside method bodies
            or initializer expressions, otherwise all nodes and tokens must be equivalent. 
            </param>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetReference(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets a SyntaxReference for a specified syntax node. SyntaxReferences can be used to
            regain access to a syntax node without keeping the entire tree and source text in
            memory.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.CommonSyntaxTree.GetChanges(Roslyn.Compilers.Common.CommonSyntaxTree)">
            <summary>
            Gets a list of text changes that when applied to the old tree produce this tree.
            </summary>
            <param name="oldTree">The old tree.</param>
            <remarks>The list of changes may be different than the original changes that produced
            this tree.</remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTree.FilePath">
            <summary>
            The path of the source document file.
            </summary>
            <remarks>
            If this syntax tree is not associated with a file, this value can be empty.
            
            The file doesn't need to exist on disk. The path is opaque for the compiler.
            The only requirement on the path format is that the implementation of <see cref="T:Roslyn.Compilers.FileResolver"/> 
            passed to the compilation that contains the tree understands it.
            
            Clients must also not assume that the values of this property are unique
            within a Compilation.
            
            The path is used in two important ways:
               - When debug information is emitted, this path is embedded in the debug information.
               - When the GetLineSpan function on the SyntaxTree is called, it is used as the file path
                 in the returned FileLinePositionSpan.
               - When normalizing paths relative to the base directory in #r directives (paths like ".", "..", ".\foo", "..\bar", "\", "\baz") 
                 the directory of this path is used as a base directory. In these cases the path has to be non-empty, otherwise an error is reported.
            </remarks>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTree.Options">
            <summary>
            The options used by the parser to produce the syntax tree.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTree.Length">
            <summary>
            The length of the text of the syntax tree.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.Common.CommonSyntaxTree.OptionsCore">
            <summary>
            The options used by the parser to produce the syntax tree.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.LineVisibility">
            <summary>
            The state of the visibility of a line.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineVisibility.BeforeFirstLineDirective">
            <summary>
            The line is located before any #line directive and there is at least one #line directive present in this syntax tree.
            This enum value is used for C# only to enable the consumer to define how to interpret the lines before the first
            line directive. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineVisibility.Hidden">
            <summary>
            The line is following a #line hidden directive.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineVisibility.Visible">
            <summary>
            The line is following a #line default directive or a #line directive with at least a line number.
            If there is no line directive at all, Visible is returned for all lines.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.LineDirectiveMap`1">
            <summary>
            The LineDirectiveMap is created to enable translating positions, using the #line directives
            in a file. The basic implementation creates an ordered array of line mapping entries, one
            for each #line directive in the file (plus one at the beginning). If the file has no
            directives, then the array has just one element in in. To map line numbers, a binary search
            of the mapping entries is done and nearest line mapping is applied.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.LineDirectiveMap`1.GetLineVisibility(Roslyn.Compilers.IText,System.Int32)">
            <summary>
            Determines whether the position is considered to be hidden from the debugger or not.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Common.LineDirectiveMap`1.TranslateSpanAndIsHidden(Roslyn.Compilers.IText,System.String,Roslyn.Compilers.TextSpan,System.Boolean@)">
            <summary>
            Combines TranslateSpan and IsHiddenPosition to not search the entries twice when emitting sequence points
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState">
            <summary>
            Enum that describes the state related to the #line or #externalsource directives at a position in source.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState.Unknown">
            <summary>
            Used in VB when the position is not hidden, but it's not known yet that there is a (nonempty) #ExternalSource
            following.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState.Unmapped">
            <summary>
            Used in C# for spans outside of #line directives
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState.Remapped">
            <summary>
            Used in C# for spans inside of "#line linenumber" directive
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState.RemappedAfterUnknown">
            <summary>
            Used in VB for spans inside of a "#ExternalSource" directive that followed an unknown span
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState.RemappedAfterHidden">
            <summary>
            Used in VB for spans inside of a "#ExternalSource" directive that followed a hidden span
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.Common.LineDirectiveMap`1.PositionState.Hidden">
            <summary>
            Used in C# and VB for spans that are inside of #line hidden (C#) or outside of #ExternalSource (VB) 
            directives
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Assembly.AssemblyReferences">
            <summary>
            All assemblies this assembly references.
            </summary>
            <remarks>
            A concatenation of assemblies referenced by each module in the order they are listed in <see cref="F:Roslyn.Compilers.MetadataReader.Assembly.modules"/>.
            </remarks>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Assembly.ModuleReferenceCounts">
            <summary>
            The number of assemblies referenced by each module in <see cref="F:Roslyn.Compilers.MetadataReader.Assembly.modules"/>.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Assembly.identity">
            <summary>
            Assembly identity read from Assembly table, or null if the table is empty.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Assembly.lazyContainsNoPiaLocalTypes">
            <summary>
            Using <see cref="T:Roslyn.Compilers.ThreeState"/> for atomicity.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Assembly.#ctor(Roslyn.Compilers.AssemblyMetadata,System.String,Roslyn.Compilers.ReadOnlyArray{Roslyn.Compilers.MetadataReader.Module})">
            <exception cref="T:System.BadImageFormatException"/>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.GetWinMdForwardedType(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Given the full name of a type, we forward it to the correct
            assembly and possibly change the name if required.
            
            This is typically only done for Windows Runtime types.
            </summary>
            <param name="fullName"></param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.IsAcceptableModOptModifier(System.UInt32,`0)">
            <summary>
            According to ECMA spec:
             The CMOD_OPT or CMOD_REQD is followed by a metadata token that
             indexes a row in the TypeDef table or the TypeRef table.
            i.e. No modopt in DecodeType (though it still works in DecodeModifier).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.GetExplicitlyOverriddenMethods(System.UInt32,System.UInt32,`0)">
            <summary>
            Find the methods that a given method explicitly overrides.
            </summary>
            <remarks>
            Methods may be on class or interfaces.
            Containing classes/interfaces will be supertypes of the implementing type.
            </remarks>
            <param name="implementingTypeDefRid">TypeDef table row ID of implementing type.</param>
            <param name="implementingMethodDefRid">Method table row ID of implementing method</param>
            <param name="implementingTypeSymbol">The type symbol for the implementing type.</param>
            <returns>Array of implemented methods.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.FindMethodSymbolInSuperType(System.UInt32,System.UInt32)">
            <summary>
            Search for the MethodSymbol corresponding to the a given MethodDef token.  Search amongst the supertypes
            (classes and interfaces) of a designated type.
            </summary>
            <remarks>
            Generally, the type will be a type that explicitly implements an interface and the method will be the
            implemented method (i.e. on the interface).
            </remarks>
            <param name="searchTypeToken">TypeDef token of the type from which the search should begin.</param>
            <param name="targetMethodToken">MethodDef token of the target method.</param>
            <returns>Corresponding MethodSymbol or null, if none is found.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.EnqueueTypeDefInterfacesAndBaseType(System.Collections.Generic.Queue{System.UInt32},System.Collections.Generic.Queue{`0},System.UInt32)">
            <summary>
            Enqueue the interfaces implemented and the type extended by a given TypeDef.
            </summary>
            <param name="typeDefsToSearch">Queue of TypeDefs to search.</param>
            <param name="typeSymbolsToSearch">Queue of TypeSymbols (representing typeRefs to search).</param>
            <param name="searchTypeToken">Token of the TypeDef for which we want to enqueue supertypes.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.EnqueueTypeToken(System.Collections.Generic.Queue{System.UInt32},System.Collections.Generic.Queue{`0},System.UInt32)">
            <summary>
            Helper method for enqueueing a type token in the right queue.
            Def -> typeDefsToSearch
            Ref -> typeSymbolsToSearch
            null -> neither
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.EnqueueTypeSymbolInterfacesAndBaseTypes(System.Collections.Generic.Queue{System.UInt32},System.Collections.Generic.Queue{`0},`0)">
            <summary>
            Enqueue the interfaces implemented and the type extended by a given TypeDef.
            </summary>
            <param name="typeDefsToSearch">Queue of TypeDefs to search.</param>
            <param name="typeSymbolsToSearch">Queue of TypeSymbols (representing typeRefs to search).</param>
            <param name="typeSymbol">Symbol for which we want to enqueue supertypes.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.EnqueueTypeSymbol(System.Collections.Generic.Queue{System.UInt32},System.Collections.Generic.Queue{`0},`0)">
            <summary>
            Enqueue the given type as either a def or a ref.
            </summary>
            <param name="typeDefsToSearch">Queue of TypeDefs to search.</param>
            <param name="typeSymbolsToSearch">Queue of TypeSymbols (representing typeRefs to search).</param>
            <param name="typeSymbol">Symbol to enqueue.</param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.FindMethodSymbolInType(`0,System.UInt32)">
            <summary>
            Search the methods of a TypeSymbol to find the one that matches a given MethodDef token.
            </summary>
            <param name="type">Type to search for method.</param>
            <param name="targetMethodDefToken">MethodDef token of the method to find.</param>
            <returns>The corresponding MethodSymbol or null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.GetMethodSymbolForMemberRef(System.UInt32,`0)">
            <summary>
            Given a MemberRef token for a method, we can find a corresponding MethodSymbol by
            searching for the name and signature.
            </summary>
            <param name="targetMemberRefToken">A MemberRef token for a method.</param>
            <param name="implementingTypeSymbol">Scope the search to supertypes of the implementing type.</param>
            <returns>The corresponding MethodSymbol or null.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.GetMethodDefToken(`1)">
            <summary>
            Given a method symbol, return the MethodDef token, if it is defined in
            this module, or a nil token, otherwise.
            </summary>
            <param name="method">The method symbol for which to return a MethodDef token.</param>
            <returns>A MethodDef token or nil.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.LookupTopLevelTypeDefSymbol(Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a type defined in this module.
            </summary>
            <param name="emittedName"></param>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.LookupTopLevelTypeDefSymbol(System.Int32,Roslyn.Compilers.Internal.MetadataTypeName@)">
            <summary>
            Lookup a type defined in referenced assembly.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.SubstituteTypeParameters(`0,`0[],System.Boolean[])">
            <summary>
            Produce constructed type symbol.
            </summary>
            <param name="generic">
            Symbol for generic type.
            </param>
            <param name="arguments">
            Generic type arguments, including those for nesting types.
            </param>
            <param name="refersToNoPiaLocalType">
            Flags for arguments. Each item indicates whether corresponding argument refers to NoPia local types.
            </param>
            <returns></returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.GetAssemblyForForwardedType(Roslyn.Compilers.Internal.MetadataTypeName@,System.Boolean)">
            <summary>
            If this assembly forwards the given type to another assembly, return that assembly;
            otherwise, return null.
            </summary>
            <param name="fullName">Type to look up.</param>
            <param name="ignoreCase">Pass true to look up fullName case-insensitively.  WARNING: more expensive.</param>
            <returns>Assembly symbol or null.</returns>
            <remarks>
            The returned assembly may also forward the type.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.GetMemberRefTypeSymbol(System.UInt32)">
            <summary>
            Given a MemberRef token, return the TypeSymbol for its Class field.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.DoPropertySignaturesMatch(Roslyn.Compilers.MetadataReader.MetadataDecoder{`0,`1,`2,`3}.ParamInfo[],Roslyn.Compilers.MetadataReader.MetadataDecoder{`0,`1,`2,`3}.ParamInfo[],System.Boolean,System.Boolean,System.Boolean)">
            <summary>
            Checks whether signatures match where the signatures are either from a property
            and an accessor or two accessors. When comparing a property or getter to setter, the
            setter signature must be the second argument and 'comparingToSetter' must be true.
            </summary>
            <param name="signature1">
            Signature of the property containing the accessor, or the getter (type, then parameters).
            </param>
            <param name="signature2">
            Signature of the accessor when comparing property and accessor,
            or the setter when comparing getter and setter (return type and then parameters).
            </param>
            <param name="comparingToSetter">
            True when comparing a property or getter to a setter, false otherwise.
            </param>
            <param name="compareParamByRef">
            True if differences in IsByRef for parameters should be treated as significant.
            </param>
            <param name="compareReturnByRef">
            True if differences in IsByRef for return value should be treated as significant.
            </param>
            <returns>True if the accessor signature is appropriate for the containing property.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MetadataDecoder`4.DoesSignatureMatchEvent(`0,Roslyn.Compilers.MetadataReader.MetadataDecoder{`0,`1,`2,`3}.ParamInfo[])">
            <summary>
            Check whether an event accessor has an appropriate signature.
            </summary>
            <param name="eventType">Type of the event containing the accessor.</param>
            <param name="methodParams">Signature of the accessor (return type and then parameters).</param>
            <returns>True if the accessor signature is appropriate for the containing event.</returns>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Module.lazyContainsNoPiaLocalTypes">
            <summary>
            Using <see cref="T:Roslyn.Compilers.ThreeState"/> as a type for atomicity.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Module.lazyNoPiaLocalTypeCheckBitMap">
            <summary>
            If bitmap is not null, each bit indicates whether a TypeDef 
            with corresponding RowId has been checked if it is a NoPia 
            local type. If the bit is 1, local type will have an entry 
            in m_lazyTypeDefToTypeIdentifierMap.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.Module.lazyTypeDefToTypeIdentifierMap">
            <summary>
            For each TypeDef that has 1 in m_lazyNoPiaLocalTypeCheckBitMap,
            this map stores corresponding TypeIdentifier row id combined with
            index of target constructor signature ((rowid &lt;&lt; 8) | index) 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.ComputeSHA1">
            <summary>
            Compute SHA1 hash of the module.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GroupTypesByNamespace(System.StringComparer)">
            <summary>
            The function groups types defined in the module by their fully-qualified namespace name.
            The case-sensitivity of the grouping depends upon the provided StringComparer.
            
            The sequence is sorted by name by using provided comparer. Therefore, if there are multiple 
            groups for a namespace name (e.g. because they differ in case), the groups are going to be 
            adjacent to each other. 
            
            Empty string is used as namespace name for types in the Global namespace. Therefore, all types 
            in the Global namespace, if any, should be in the first group (assuming a reasonable StringComparer).
            </summary>
            Comparer to sort the groups.
            <param name="nameComparer">
            </param>
            <returns>A sorted list of TypeDef row ids, grouped by fully-qualified namespace name.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetTypeNamespaceNames(System.Collections.Generic.Dictionary{System.String,Roslyn.Compilers.ArrayBuilder{System.UInt32}})">
            <summary>
            Groups together the RowIds of types in a given namespaces.  The types considered are
            those defined in this module.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetForwardedTypeNamespaceNames(System.Collections.Generic.Dictionary{System.String,Roslyn.Compilers.ArrayBuilder{System.UInt32}})">
            <summary>
            Supplements the namespace-to-RowIDs map with the namespaces of forwarded types.
            These types will not have associated row IDs (represented as null, for efficiency).
            These namespaces are important because we want lookups of missing forwarded types
            to succeed far enough that we can actually find the type forwarder and provide
            information about the target assembly.
            
            For example, consider the following forwarded type:
            
            .class extern forwarder Namespace.Type {}
            
            If this type is referenced in source as "Namespace.Type", then dev10 reports
            
            error CS1070: The type name 'Namespace.Name' could not be found. This type has been 
            forwarded to assembly 'pe2, Version=0.0.0.0, Culture=neutral, PublicKeyToken=null'. 
            Consider adding a reference to that assembly.
            
            If we did not include "Namespace" as a child of the global namespace of this module
            (the forwarding module), then Roslyn would report that the type "Namespace" was not
            found and say nothing about "Name" (because of the diagnostic already attached to 
            the qualifier).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetInterfacesOfType(System.UInt32)">
            <summary>
            Returns an array of tokens for implemented intefaces. Null reference if none.
            </summary>
            <param name="typeDefRowId"></param>
            <returns>
            An array of tokens for implemented intefaces. Null reference if none.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.IsTypeIdentifierAttribute(System.UInt32)">
            <summary>
            Determine if custom attribute application is 
            NoPia TypeIdentifier.
            </summary>
            <param name="customAttributeRowId"></param>
            <returns>
            An index of the target constructor signature in 
            signaturesOfTypeIdentifierAttribute array, -1 if
            this is not NoPia TypeIdentifier.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.IsTargetAttribute(System.UInt32,System.String,System.String,System.UInt32@,System.Boolean)">
            <summary>
            Determines if a custom attribute matches a namespace and name.
            </summary>
            <param name="constructor">The custom attribute's constructor</param>
            <param name="namespaceName">The custom attribute's namespace in metadata format (case sensitive)</param>
            <param name="typeName">The custom attribute's type name in metadata format (case sensitive)</param>
            <param name="ctorSignature">The signature blob of the custom attribute constructor</param>
            <param name="ignoreCase">Should case be ignored for name comparison?</param>
            <returns>true if match is found</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetAssemblyRef(System.String)">
            <summary>
            Returns mdToken for assembly ref matching name
            </summary>
            <param name="assemblyName">The assembly name in metadata format (case sensitive)</param>
            <returns>Matching assembly ref token or nil (0)</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetTypeRef(System.UInt32,System.String,System.String)">
            <summary>
            Returns mdToken for type ref matching resolution scope and name
            </summary>
            <param name="resolutionScope">The resolution scope token</param>
            <param name="namespaceName">The namespace name in metadata format (case sensitive)</param>
            <param name="typeName">The type name in metadata format (case sensitive)</param>
            <returns>Matching type ref token or nil (0)</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetTargetAttributeSignatureIndex(System.UInt32,Roslyn.Compilers.AttributeDescription)">
            <summary>
            Determine if custom attribute matches the target attribute.
            </summary>
            <param name="constructor">
            Token of the constructor (customAttribute.Type).
            </param>
            <param name="description">The attribute to match.</param>
            <returns>
            An index of the target constructor signature in
            signatures array, -1 if
            this is not the target attribute.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetTypeAndSignatureFromCtorToken(System.UInt32,System.UInt32@,System.UInt32@)">
            <summary>
            Given a token for a constructor, return the token for the constructor's type and the blob containing the
            constructor's signature.
            </summary>
            <param name="constructor"></param>
            <param name="ctorType"></param>
            <param name="ctorSignature"></param>
            <returns>True if the function successfully returns the type and signature.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetNameAndNamespaceFromTypeToken(System.UInt32,System.UInt32@,System.UInt32@)">
            <summary>
            Given a token for a type, return the type's name and namespace.  Only works for top level types. 
            </summary>
            <param name="ctorType"></param>
            <param name="ctorTypeNamespace"></param>
            <param name="ctorTypeName"></param>
            <returns>True if the function successfully returns the name and namespace.</returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.Module.GetGenericParamConstraints(System.UInt32)">
            <summary>
            Returns an array of tokens for type constraints. Null reference if none.
            </summary>
            <param name="paramRowId"></param>
            <returns>
            An array of tokens for type constraints. Null reference if none.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.PEFile.FieldLayoutTableReader.GetOffset(System.UInt32)">
            <summary>
            Returns field offset for given field RowId, or -1 if not available. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.PEFile.PEFileReader.ReadMetadataHeader(Roslyn.Compilers.MetadataReader.UtilityDataStructures.MemoryReader@)">
            <summary>
            Looks like this function reads beginning of the header described in
            Ecma-335 �24.2.1 Metadata root
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.PEFile.PEFileReader.ReadStorageHeader(Roslyn.Compilers.MetadataReader.UtilityDataStructures.MemoryReader@)">
            <summary>
            Looks like this function reads the end of the header described in
            Ecma-335 �24.2.1 Metadata root
            </summary>
            <param name="memReader"></param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.PEFile.PEFileReader.ReadStreamHeaders(Roslyn.Compilers.MetadataReader.UtilityDataStructures.MemoryReader@)">
            <summary>
            Looks like this function reads stream headers described in
            Ecma-335 �24.2.2 Stream header
            </summary>
            <param name="memReader"></param>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.PEFile.PEFileReader.ReadMetadataTableInformation(Roslyn.Compilers.MetadataReader.UtilityDataStructures.MemoryReader@)">
            <summary>
            Looks like this function reads stream header described in
            Ecma-335 �24.2.6 #~ stream
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.PEFileFlags.AssemblyFlags.PublicKey">
            <summary>
            The assembly reference holds the full (unhashed) public key.
            Not applicable on assembly definition.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.PEFileFlags.AssemblyFlags.Retargetable">
            <summary>
            The implementation of the referenced assembly used at runtime is not expected to match the version seen at compile time.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.MetadataReader.PEFileFlags.AssemblyFlags.ContentTypeMask">
            <summary>
            Content type mask. Masked bits correspond to values of <see cref="T:System.Reflection.AssemblyContentType"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.PEFileFlags.EnumConversions.ToCharSet(Roslyn.Compilers.MetadataReader.PEFileFlags.TypeDefFlags)">
            <summary>
            Extracts <see cref="T:System.Runtime.InteropServices.CharSet"/> information from TypeDef flags.
            Returns 0 if the value is invalid.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MetadataReader.MemoryMappedFile">
            <summary>
            Class representing the unmanaged memory mapped file. This can be used to open the file as memory mapped file and get the pointer to the buffer of file content.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MemoryMappedFile.CreateMemoryMappedFile(System.IO.FileStream,System.String)">
            <exception cref="T:System.IO.IOException">Unable to memory-map the file.</exception>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.MemoryMappedFile.OpenFileMemoryMap(System.IO.FileStream,System.Byte*@,System.UInt32@)">
            <exception cref="T:System.IO.IOException"/>
        </member>
        <member name="M:Roslyn.Compilers.MetadataReader.UtilityDataStructures.MemoryReader.ReadCompressedUInt32">
            <summary>
            Returns -1 if the first byte is 0xFF. This is used to represent the index for the null string.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Internal.MetadataHelpers.GetInfoForImmediateNamespaceMembers(System.Int32,System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}},System.StringComparer,System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}}@,System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.Collections.Generic.IEnumerable{System.Linq.IGrouping{System.String,System.UInt32}}}}@)">
            <summary>
            Calculates information about types and namespaces immediately contained within a namespace.
            </summary>
            <param name="namespaceNameLength">
            Length of the fully-qualified name of this namespace.
            </param>
            <param name="typesByNS">
            The sequence of groups of TypeDef row ids for types contained within the namespace, 
            recursively including those from nested namespaces. The row ids must be grouped by the 
            fully-qualified namespace name in case-sensitive manner. 
            Key of each IGrouping is a fully-qualified namespace name, which starts with the name of 
            this namespace. There could be multiple groups for each fully-qualified namespace name.
            
            The groups must be sorted by the keys in a manner consistent with comparer passed in as
            nameComparer. Therefore, all types immediately contained within THIS namespace, if any, 
            must be in several IGrouping at the very beginning of the sequence.
            </param>
            <param name="nameComparer">
            Equality comparer to compare namespace names.
            </param>
            <param name="types">
            Output parameter, never null:
            A sequence of groups of TypeDef row ids for types immediately contained within this namespace.
            </param>
            <param name="namespaces">
            Output parameter, never null:
            A sequence with information about namespaces immediately contained within this namespace.
            For each pair:
              Key - contains simple name of a child namespace.
              Value – contains a sequence similar to the one passed to this function, but
                      calculated for the child namespace. 
            </param>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.Internal.MetadataHelpers.ExtractSimpleNameOfChildNamespace(System.Int32,System.String)">
            <summary>
            Extract a simple name of a top level child namespace from potentially qualified namespace name.
            </summary>
            <param name="parentNamespaceNameLength">
            Parent namespace name length plus the dot.
            </param>
            <param name="fullName">
            Fully qualified namespace name.
            </param>
            <returns>
            Simple name of a top level child namespace, the left-most name following parent namespace name 
            in the fully qualified name.
            </returns>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.Internal.MetadataHelpers.IsValidMetadataIdentifier(System.String)">
            <summary>
            Determines whether given string can be used as a non-empty metadata identifier (a NUL-terminated UTF8 string).
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Internal.MetadataHelpers.IsValidUnicodeString(System.String)">
            <summary>
            True if the string doesn't contain incomplete surrogates.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.Internal.MetadataHelpers.SerializedTypeDecoder">
            <summary>
            Decodes a serialized type name in its canonical form. The canonical name is its full type name, followed
            optionally by the assembly where it is defined, its version, culture and public key token.  If the assembly
            name is omitted, the type name is in the current assembly otherwise it is in the referenced assembly. The
            full type name is the fully qualified metadata type name. 
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Internal.MetadataHelpers.SerializedTypeDecoder.DecodeTypeName(System.Boolean,System.Boolean)">
            <summary>
            Decodes a type name.  A type name is a string which is terminated by the end of the string or one of the
            delimiters '+', ',', '[', ']'. '+' separates nested classes. '[' and ']'
            enclosed generic type arguments.  ',' separates types.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.Internal.MetadataHelpers.SerializedTypeDecoder.DecodeGenericName(System.Int32)">
            <summary>
            Decodes a generic name.  This is a type name followed optionally by a type parameter count
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IAliasForType">
            <summary>
            Alias type to represent exported types and typedef.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAliasForType.AliasedType">
            <summary>
            Type reference of the type for which this is the alias
            </summary>
        </member>
        <member name="T:Microsoft.Cci.BaseMetadataTraverser">
            <summary>
            A visitor base class that traverses the object model in depth first, left to right order.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMetadataVisitor">
            <summary>
            Implemented by classes that visit nodes of object graphs via a double dispatch mechanism, usually performing some computation of a subset of the nodes in the graph.
            Contains a specialized Visit routine for each standard type of object defined in this object model. 
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IAliasForType)">
            <summary>
            Performs some computation with the alias for type.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Performs some computation with the given array type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IAssembly)">
            <summary>
            Performs some computation with the given assembly.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IAssemblyReference)">
            <summary>
            Performs some computation with the given assembly reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.ICustomAttribute)">
            <summary>
            Performs some computation with the given custom attribute.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.ICustomModifier)">
            <summary>
            Performs some computation with the given custom modifier.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IEventDefinition)">
            <summary>
            Performs some computation with the given event definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IFieldDefinition)">
            <summary>
            Performs some computation with the given field definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IFieldReference)">
            <summary>
            Performs some computation with the given field reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IFileReference)">
            <summary>
            Performs some computation with the given file reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IFunctionPointerTypeReference)">
            <summary>
            Performs some computation with the given function pointer type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGenericMethodInstanceReference)">
            <summary>
            Performs some computation with the given generic method instance reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGenericMethodParameter)">
            <summary>
            Performs some computation with the given generic method parameter.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGenericMethodParameterReference)">
            <summary>
            Performs some computation with the given generic method parameter reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGlobalFieldDefinition)">
            <summary>
            Performs some computation with the given global field definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGlobalMethodDefinition)">
            <summary>
            Performs some computation with the given global method definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGenericTypeInstanceReference)">
            <summary>
            Performs some computation with the given generic type instance reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGenericTypeParameter)">
            <summary>
            Performs some computation with the given generic parameter.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IGenericTypeParameterReference)">
            <summary>
            Performs some computation with the given generic type parameter reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IManagedPointerTypeReference)">
            <summary>
            Performs some computation with the given managed pointer type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMarshallingInformation)">
            <summary>
            Performs some computation with the given marshalling information.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMetadataConstant)">
            <summary>
            Performs some computation with the given metadata constant.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMetadataCreateArray)">
            <summary>
            Performs some computation with the given metadata array creation expression.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMetadataExpression)">
            <summary>
            Performs some computation with the given metadata expression.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMetadataNamedArgument)">
            <summary>
            Performs some computation with the given metadata named argument expression.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMetadataTypeOf)">
            <summary>
            Performs some computation with the given metadata typeof expression.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMethodBody)">
            <summary>
            Performs some computation with the given method body.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMethodDefinition)">
            <summary>
            Performs some computation with the given method definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMethodImplementation)">
            <summary>
            Performs some computation with the given method implementation.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IMethodReference)">
            <summary>
            Performs some computation with the given method reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IModifiedTypeReference)">
            <summary>
            Performs some computation with the given modified type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IModule)">
            <summary>
            Performs some computation with the given module.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IModuleReference)">
            <summary>
            Performs some computation with the given module reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.INamespaceTypeDefinition)">
            <summary>
            Performs some computation with the given namespace type definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.INamespaceTypeReference)">
            <summary>
            Performs some computation with the given namespace type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.INestedTypeDefinition)">
            <summary>
            Performs some computation with the given nested type definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.INestedTypeReference)">
            <summary>
            Performs some computation with the given nested type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IParameterDefinition)">
            <summary>
            Performs some computation with the given parameter definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IParameterTypeInformation)">
            <summary>
            Performs some computation with the given parameter type information.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IPointerTypeReference)">
            <summary>
            Performs some computation with the given pointer type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IPropertyDefinition)">
            <summary>
            Performs some computation with the given property definition.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IResourceReference)">
            <summary>
            Performs some computation with the given reference to a manifest resource.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.SecurityAttribute)">
            <summary>
            Performs some computation with the given security attribute.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMetadataVisitor.Visit(Microsoft.Cci.IWin32Resource)">
            <summary>
            Performs some computation with the given Win32 resource.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.#ctor">
            <summary>
            
            </summary>
        </member>
        <member name="F:Microsoft.Cci.BaseMetadataTraverser.path">
            <summary>
            
            </summary>
        </member>
        <member name="F:Microsoft.Cci.BaseMetadataTraverser.stopTraversal">
            <summary>
            
            </summary>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IAliasForType})">
            <summary>
            Visits the specified aliases for types.
            </summary>
            <param name="aliasesForTypes">The aliases for types.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IAliasForType)">
            <summary>
            Visits the specified alias for type.
            </summary>
            <param name="aliasForType">Type of the alias for.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IArrayTypeReference)">
            <summary>
            Performs some computation with the given array type reference.
            </summary>
            <param name="arrayTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IAssembly)">
            <summary>
            Performs some computation with the given assembly.
            </summary>
            <param name="assembly"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IAssemblyReference})">
            <summary>
            Visits the specified assembly references.
            </summary>
            <param name="assemblyReferences">The assembly references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IAssemblyReference)">
            <summary>
            Performs some computation with the given assembly reference.
            </summary>
            <param name="assemblyReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.ICustomAttribute})">
            <summary>
            Visits the specified custom attributes.
            </summary>
            <param name="customAttributes">The custom attributes.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ICustomAttribute)">
            <summary>
            Performs some computation with the given custom attribute.
            </summary>
            <param name="customAttribute"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.ICustomModifier})">
            <summary>
            Visits the specified custom modifiers.
            </summary>
            <param name="customModifiers">The custom modifiers.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ICustomModifier)">
            <summary>
            Performs some computation with the given custom modifier.
            </summary>
            <param name="customModifier"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IEventDefinition})">
            <summary>
            Visits the specified events.
            </summary>
            <param name="events">The events.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IEventDefinition)">
            <summary>
            Performs some computation with the given event definition.
            </summary>
            <param name="eventDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IFieldDefinition})">
            <summary>
            Visits the specified fields.
            </summary>
            <param name="fields">The fields.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IFieldDefinition)">
            <summary>
            Performs some computation with the given field definition.
            </summary>
            <param name="fieldDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IFieldReference)">
            <summary>
            Performs some computation with the given field reference.
            </summary>
            <param name="fieldReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IFileReference})">
            <summary>
            Visits the specified file references.
            </summary>
            <param name="fileReferences">The file references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IFileReference)">
            <summary>
            Performs some computation with the given file reference.
            </summary>
            <param name="fileReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IFunctionPointerTypeReference)">
            <summary>
            Performs some computation with the given function pointer type reference.
            </summary>
            <param name="functionPointerTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericMethodInstanceReference)">
            <summary>
            Performs some computation with the given generic method instance reference.
            </summary>
            <param name="genericMethodInstanceReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IGenericMethodParameter})">
            <summary>
            Visits the specified generic parameters.
            </summary>
            <param name="genericParameters">The generic parameters.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericMethodParameter)">
            <summary>
            Performs some computation with the given generic method parameter.
            </summary>
            <param name="genericMethodParameter"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericMethodParameterReference)">
            <summary>
            Performs some computation with the given generic method parameter reference.
            </summary>
            <param name="genericMethodParameterReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericParameter)">
            <summary>
            Visits the specified generic parameter.
            </summary>
            <param name="genericParameter">The generic parameter.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericTypeInstanceReference)">
            <summary>
            Performs some computation with the given generic type instance reference.
            </summary>
            <param name="genericTypeInstanceReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IGenericTypeParameter})">
            <summary>
            Visits the specified generic parameters.
            </summary>
            <param name="genericParameters">The generic parameters.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericTypeParameter)">
            <summary>
            Performs some computation with the given generic parameter.
            </summary>
            <param name="genericTypeParameter"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGenericTypeParameterReference)">
            <summary>
            Performs some computation with the given generic type parameter reference.
            </summary>
            <param name="genericTypeParameterReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGlobalFieldDefinition)">
            <summary>
            Performs some computation with the given global field definition.
            </summary>
            <param name="globalFieldDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IGlobalMethodDefinition)">
            <summary>
            Performs some computation with the given global method definition.
            </summary>
            <param name="globalMethodDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.ILocalDefinition})">
            <summary>
            Visits the specified local definitions.
            </summary>
            <param name="localDefinitions">The local definitions.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ILocalDefinition)">
            <summary>
            Visits the specified local definition.
            </summary>
            <param name="localDefinition">The local definition.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IManagedPointerTypeReference)">
            <summary>
            Performs some computation with the given managed pointer type reference.
            </summary>
            <param name="managedPointerTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMarshallingInformation)">
            <summary>
            Performs some computation with the given marshalling information.
            </summary>
            <param name="marshallingInformation"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMetadataConstant)">
            <summary>
            Performs some computation with the given metadata constant.
            </summary>
            <param name="constant"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMetadataCreateArray)">
            <summary>
            Performs some computation with the given metadata array creation expression.
            </summary>
            <param name="createArray"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IMetadataExpression})">
            <summary>
            Visits the specified expressions.
            </summary>
            <param name="expressions">The expressions.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMetadataExpression)">
            <summary>
            Performs some computation with the given metadata expression.
            </summary>
            <param name="expression"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IMetadataNamedArgument})">
            <summary>
            Visits the specified named arguments.
            </summary>
            <param name="namedArguments">The named arguments.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMetadataNamedArgument)">
            <summary>
            Performs some computation with the given metadata named argument expression.
            </summary>
            <param name="namedArgument"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMetadataTypeOf)">
            <summary>
            Performs some computation with the given metadata typeof expression.
            </summary>
            <param name="typeOf"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMethodBody)">
            <summary>
            Performs some computation with the given method body.
            </summary>
            <param name="methodBody"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IMethodDefinition})">
            <summary>
            Visits the specified methods.
            </summary>
            <param name="methods">The methods.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMethodDefinition)">
            <summary>
            Performs some computation with the given method definition.
            </summary>
            <param name="method"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IMethodImplementation})">
            <summary>
            Visits the specified method implementations.
            </summary>
            <param name="methodImplementations">The method implementations.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMethodImplementation)">
            <summary>
            Performs some computation with the given method implementation.
            </summary>
            <param name="methodImplementation"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IMethodReference})">
            <summary>
            Visits the specified method references.
            </summary>
            <param name="methodReferences">The method references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IMethodReference)">
            <summary>
            Performs some computation with the given method reference.
            </summary>
            <param name="methodReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IModifiedTypeReference)">
            <summary>
            Performs some computation with the given modified type reference.
            </summary>
            <param name="modifiedTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IModule)">
            <summary>
            Performs some computation with the given module.
            </summary>
            <param name="module"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IModuleReference})">
            <summary>
            Visits the specified module references.
            </summary>
            <param name="moduleReferences">The module references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IModuleReference)">
            <summary>
            Performs some computation with the given module reference.
            </summary>
            <param name="moduleReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.INamedTypeDefinition})">
            <summary>
            Visits the specified types.
            </summary>
            <param name="types">The types.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.INamespaceTypeDefinition)">
            <summary>
            Performs some computation with the given namespace type definition.
            </summary>
            <param name="namespaceTypeDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.INamespaceTypeReference)">
            <summary>
            Performs some computation with the given namespace type reference.
            </summary>
            <param name="namespaceTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.VisitNestedTypes(System.Collections.Generic.IEnumerable{Microsoft.Cci.INamedTypeDefinition})">
            <summary>
            Visits the specified nested types.
            </summary>
            <param name="nestedTypes">The nested types.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.INestedTypeDefinition)">
            <summary>
            Performs some computation with the given nested type definition.
            </summary>
            <param name="nestedTypeDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.INestedTypeReference)">
            <summary>
            Performs some computation with the given nested type reference.
            </summary>
            <param name="nestedTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IOperationExceptionInformation})">
            <summary>
            Visits the specified operation exception informations.
            </summary>
            <param name="operationExceptionInformations">The operation exception informations.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IOperationExceptionInformation)">
            <summary>
            Visits the specified operation exception information.
            </summary>
            <param name="operationExceptionInformation">The operation exception information.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IParameterDefinition})">
            <summary>
            Visits the specified parameters.
            </summary>
            <param name="parameters">The parameters.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IParameterDefinition)">
            <summary>
            Performs some computation with the given parameter definition.
            </summary>
            <param name="parameterDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IParameterTypeInformation})">
            <summary>
            Visits the specified parameter type informations.
            </summary>
            <param name="parameterTypeInformations">The parameter type informations.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IParameterTypeInformation)">
            <summary>
            Performs some computation with the given parameter type information.
            </summary>
            <param name="parameterTypeInformation"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IPlatformInvokeInformation)">
            <summary>
            Visits the specified platform invoke information.
            </summary>
            <param name="platformInvokeInformation">The platform invoke information.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IPointerTypeReference)">
            <summary>
            Performs some computation with the given pointer type reference.
            </summary>
            <param name="pointerTypeReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IPropertyDefinition})">
            <summary>
            Visits the specified properties.
            </summary>
            <param name="properties">The properties.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IPropertyDefinition)">
            <summary>
            Performs some computation with the given property definition.
            </summary>
            <param name="propertyDefinition"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IResourceReference})">
            <summary>
            Visits the specified resource references.
            </summary>
            <param name="resourceReferences">The resource references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IResourceReference)">
            <summary>
            Performs some computation with the given reference to a manifest resource.
            </summary>
            <param name="resourceReference"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.SecurityAttribute)">
            <summary>
            Performs some computation with the given security attribute.
            </summary>
            <param name="securityAttribute"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.SecurityAttribute})">
            <summary>
            Visits the specified security attributes.
            </summary>
            <param name="securityAttributes">The security attributes.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.ITypeDefinitionMember})">
            <summary>
            Visits the specified type members.
            </summary>
            <param name="typeMembers">The type members.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.ITypeDefinition})">
            <summary>
            Visits the specified types.
            </summary>
            <param name="types">The types.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ITypeDefinition)">
            <summary>
            Visits the specified type definition.
            </summary>
            <param name="typeDefinition">The type definition.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ITypeDefinitionMember)">
            <summary>
            Visits the specified type member.
            </summary>
            <param name="typeMember">The type member.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ITypeMemberReference)">
            <summary>
            Visits the specified type member reference.
            </summary>
            <param name="typeMemberReference">The type member reference.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.ITypeReference})">
            <summary>
            Visits the specified type references.
            </summary>
            <param name="typeReferences">The type references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.ITypeReference)">
            <summary>
            Visits the specified type reference.
            </summary>
            <param name="typeReference">The type reference.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.DispatchAsReference(Microsoft.Cci.ITypeReference)">
            <summary>
            Use this routine, rather than ITypeReference.Dispatch, to call the appropriate derived overload of an ITypeReference.
            The former routine will call Visit(INamespaceTypeDefinition) rather than Visit(INamespaceTypeReference), etc., 
            in the case where a definition is used as a reference to itself.
            </summary>
            <param name="typeReference">A reference to a type definition. Note that a type definition can serve as a reference to itself.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(System.Collections.Generic.IEnumerable{Microsoft.Cci.IUnitReference})">
            <summary>
            Visits the specified unit references.
            </summary>
            <param name="unitReferences">The unit references.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IUnitReference)">
            <summary>
            Visits the specified unit reference.
            </summary>
            <param name="unitReference">The unit reference.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.DispatchAsReference(Microsoft.Cci.IUnitReference)">
            <summary>
            Use this routine, rather than IUnitReference.Dispatch, to call the appropriate derived overload of an IUnitReference.
            The former routine will call Visit(IAssembly) rather than Visit(IAssemblyReference), etc.
            in the case where a definition is used as the reference to itself.
            </summary>
            <param name="unitReference">A reference to a unit. Note that a unit can serve as a reference to itself.</param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.Visit(Microsoft.Cci.IWin32Resource)">
            <summary>
            Performs some computation with the given Win32 resource.
            </summary>
            <param name="win32Resource"></param>
        </member>
        <member name="M:Microsoft.Cci.BaseMetadataTraverser.VisitMethodReturnAttributes(System.Collections.Generic.IEnumerable{Microsoft.Cci.ICustomAttribute})">
            <summary>
            Visits the method return attributes.
            </summary>
            <param name="customAttributes">The custom attributes.</param>
        </member>
        <member name="T:Microsoft.Cci.IDocument">
            <summary>
            An object that represents a document. This can be either source or binary or designer surface etc
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IDocument.Location">
            <summary>
            The location where this document was found, or where it should be stored.
            This will also uniquely identify the source document within an instance of compilation host.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IDocument.Name">
            <summary>
            The name of the document. For example the name of the file if the document corresponds to a file.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericTypeParameter">
            <summary>
            The definition of a type parameter of a generic type.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericParameter">
            <summary>
            The definition of a type parameter of a generic type or method.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericParameterReference">
            <summary>
            A reference to the definition of a type parameter of a generic type or method.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IGenericParameter.GetConstraints(System.Object)">
            <summary>
            A list of classes or interfaces. All type arguments matching this parameter must be derived from all of the classes and implement all of the interfaces.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericParameter.MustBeReferenceType">
            <summary>
            True if all type arguments matching this parameter are constrained to be reference types.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericParameter.MustBeValueType">
            <summary>
            True if all type arguments matching this parameter are constrained to be value types.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericParameter.MustHaveDefaultConstructor">
            <summary>
            True if all type arguments matching this parameter are constrained to be value types or concrete classes with visible default constructors.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericParameter.Variance">
            <summary>
            Indicates if the generic type or method with this type parameter is co-, contra-, or non variant with respect to this type parameter.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericTypeParameterReference">
            <summary>
            A reference to a type parameter of a generic type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericTypeParameterReference.DefiningType">
            <summary>
            A reference to the generic type that defines the referenced type parameter.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericTypeParameter.DefiningType">
            <summary>
            The generic type that defines this type parameter.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.CallingConvention">
            <summary>
            Specifies how the callee passes parameters to the callee and who cleans up the stack.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.C">
            <summary>
            C/C++ style calling convention for unmanaged methods. The call stack is cleaned up by the caller, 
            which makes this convention suitable for calling methods that accept extra arguments.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.Default">
            <summary>
            The convention for calling managed methods with a fixed number of arguments.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.ExtraArguments">
            <summary>
            The convention for calling managed methods that accept extra arguments.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.FastCall">
            <summary>
            Arguments are passed in registers when possible. This calling convention is not yet supported.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.Standard">
            <summary>
            Win32 API calling convention for calling unmanged methods via PlatformInvoke. The call stack is cleaned up by the callee.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.ThisCall">
            <summary>
            C++ member unmanaged method (non-vararg) calling convention. The callee cleans the stack and the this pointer is pushed on the stack last.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.Generic">
            <summary>
            The convention for calling a generic method.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.HasThis">
            <summary>
            The convention for calling an instance method with an implicit this parameter (the method does not have an explicit parameter definition for this).
            </summary>
        </member>
        <member name="F:Microsoft.Cci.CallingConvention.ExplicitThis">
            <summary>
            The convention for calling an instance method that explicitly declares its first parameter to correspond to the this instance.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IEventDefinition">
            <summary>
            An event is a member that enables an object or class to provide notifications. Clients can attach executable code for events by supplying event handlers.
            This interface models the metadata representation of an event.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IEventDefinition.GetType(System.Object)">
            <summary>
            The (delegate) type of the handlers that will handle the event.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IEventDefinition.Accessors">
            <summary>
            A list of methods that are associated with the event.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IEventDefinition.Adder">
            <summary>
            The method used to add a handler to the event.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IEventDefinition.Caller">
            <summary>
            The method used to call the event handlers when the event occurs. May be null.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IEventDefinition.IsRuntimeSpecial">
            <summary>
            True if the event gets special treatment from the runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IEventDefinition.IsSpecialName">
            <summary>
            This event is special in some way, as specified by the name.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IEventDefinition.Remover">
            <summary>
            The method used to add a handler to the event.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.HandlerKind">
            <summary>
            The kind of handler for the SEH
            </summary>
        </member>
        <member name="F:Microsoft.Cci.HandlerKind.Catch">
            <summary>
            Handler is for Catch
            </summary>
        </member>
        <member name="F:Microsoft.Cci.HandlerKind.Filter">
            <summary>
            Handler is filter
            </summary>
        </member>
        <member name="F:Microsoft.Cci.HandlerKind.Finally">
            <summary>
            Handler is finally
            </summary>
        </member>
        <member name="F:Microsoft.Cci.HandlerKind.Fault">
            <summary>
            Handler is Fault
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMethodBody">
            <summary>
            A metadata (IL) level represetation of the body of a method or of a property/event accessor.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMethodBody.Dispatch(Microsoft.Cci.IMetadataVisitor)">
            <summary>
            Calls the visitor.Visit(T) method where T is the most derived object model node interface type implemented by the concrete type
            of the object implementing IDoubleDispatcher. The dispatch method does not invoke Dispatch on any child objects. If child traversal
            is desired, the implementations of the Visit methods should do the subsequent dispatching.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.OperationExceptionInformation">
            <summary>
            A list exception data within the method body IL.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.LocalsAreZeroed">
            <summary>
            True if the locals are initialized by zeroeing the stack upon method entry.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.LocalVariables">
            <summary>
            The local variables of the method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.MethodDefinition">
            <summary>
            The definition of the method whose body this is.
            If this is the body of an event or property accessor, this will hold the corresponding adder/remover/setter or getter method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.MaxStack">
            <summary>
            The maximum number of elements on the evaluation stack during the execution of the method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.PrivateHelperTypes">
            <summary>
            Any types that are implicitly defined in order to implement the body semantics.
            In case of AST to instructions conversion this lists the types produced.
            In case of instructions to AST decompilation this should ideally be list of all types
            which are local to method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodBody.CustomDebugInfoKind">
            <summary>
            The PDB content for custom debug information is different between Visual Basic and CSharp.
            E.g. CS always includes a CustomMetadata Header (MD2) that contains the namespace scope counts, where 
            as VB only outputs namespace imports into the namespace scopes. CS defines forwards in that header, VB includes
            them into the scopes list.
            This enum is used to distinguish which style to pick while writing the PDB information.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.CustomDebugInfoKind">
            <summary>
            This enum is used to distinguish which style to pick while writing the PDB information.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMethodDefinition">
            <summary>
            This interface models the metadata representation of a method.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMethodDefinition.GetBody(System.Object)">
            <summary>
            A container for a list of IL instructions providing the implementation (if any) of this method.
            </summary>
            <remarks>
            When emitting metadata-only assemblies this returns null even if <see cref="M:Cci.Extensions.HasBody"/> returns true.
            </remarks>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.GenericParameters">
            <summary>
            If the method is generic then this list contains the type parameters.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.HasDeclarativeSecurity">
            <summary>
            True if this method has a non empty collection of SecurityAttributes or the System.Security.SuppressUnmanagedCodeSecurityAttribute.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsAbstract">
            <summary>
            True if the method does not provide an implementation.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsAccessCheckedOnOverride">
            <summary>
            True if the method can only be overridden when it is also accessible. 
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsConstructor">
            <summary>
            True if the method is a constructor.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsExternal">
            <summary>
            True if the method has an external implementation (i.e. not supplied by this definition).
            </summary>
            <remarks>
            If the method is not external and not abstract it has to provide an IL body.
            </remarks>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsHiddenBySignature">
            <summary>
            True if this method is hidden if a derived type declares a method with the same name and signature. 
            If false, any method with the same name hides this method. This flag is ignored by the runtime and is only used by compilers.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsNewSlot">
            <summary>
            The method always gets a new slot in the virtual method table. 
            This means the method will hide (not override) a base type method with the same name and signature.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsPlatformInvoke">
            <summary>
            True if the method is implemented via the invocation of an underlying platform method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsRuntimeSpecial">
            <summary>
            True if the method gets special treatment from the runtime. For example, it might be a constructor.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsSealed">
            <summary>
            True if the method may not be overridden.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsSpecialName">
            <summary>
            True if the method is special in some way for tools. For example, it might be a property getter or setter.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsStatic">
            <summary>
            True if the method does not require an instance of its declaring type as its first argument.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.IsVirtual">
            <summary>
            True if the method may be overridden (or if it is an override).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.ImplementationAttributes">
            <summary>
            Implementation flags.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.Parameters">
            <summary>
            The parameters forming part of this signature.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.PlatformInvokeData">
            <summary>
            Detailed information about the PInvoke stub. Identifies which method to call, which module has the method and the calling convention among other things.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.RequiresSecurityObject">
            <summary>
            True if the method calls another method containing security code. If this flag is set, the method
            should have System.Security.DynamicSecurityMethodAttribute present in its list of custom attributes.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.ReturnValueAttributes">
            <summary>
            Custom attributes associated with the method's return value.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.ReturnValueIsMarshalledExplicitly">
            <summary>
            The return value has associated marshalling information.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.ReturnValueMarshallingInformation">
            <summary>
            Specifies how the return value is marshalled when the method is called from unmanaged code.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodDefinition.SecurityAttributes">
            <summary>
            Declarative security actions for this method.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IParameterDefinition">
            <summary>
            This interface models the metadata representation of a method or property parameter.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IParameterDefinition.GetDefaultValue">
            <summary>
            A compile time constant value that should be supplied as the corresponding argument value by callers that do not explicitly specify an argument value for this parameter.
            Null if the parameter doesn't have default value.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IParameterDefinition.ParamArrayElementType(System.Object)">
            <summary>
            The element type of the parameter array.
            ^ requires this.IsParameterArray;
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.HasDefaultValue">
            <summary>
            True if the parameter has a default value that should be supplied as the argument value by a caller for which the argument value has not been explicitly specified.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.IsIn">
            <summary>
            True if the argument value must be included in the marshalled arguments passed to a remote callee.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.IsMarshalledExplicitly">
            <summary>
            This parameter has associated marshalling information.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.IsOptional">
            <summary>
            True if the argument value must be included in the marshalled arguments passed to a remote callee only if it is different from the default value (if there is one).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.IsOut">
            <summary>
            True if the final value assigned to the parameter will be marshalled with the return values passed back from a remote callee.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.IsParameterArray">
            <summary>
            True if the parameter has the ParamArrayAttribute custom attribute.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IParameterDefinition.MarshallingInformation">
            <summary>
            Specifies how this parameter is marshalled when it is accessed from unmanaged code.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IPropertyDefinition">
            <summary>
            A property is a member that provides access to an attribute of an object or a class.
            This interface models the metadata representation of a property.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.Accessors">
            <summary>
            A list of methods that are associated with the property.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.DefaultValue">
            <summary>
            A compile time constant value that provides the default value for the property. (Who uses this and why?)
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.Getter">
            <summary>
            The method used to get the value of this property. May be absent (null).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.HasDefaultValue">
            <summary>
            True if this property has a compile time constant associated with that serves as a default value for the property. (Who uses this and why?)
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.IsRuntimeSpecial">
            <summary>
            True if this property gets special treatment from the runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.IsSpecialName">
            <summary>
            True if this property is special in some way, as specified by the name.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.Parameters">
            <summary>
            The parameters forming part of this signature.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.ReturnValueAttributes">
            <summary>
            Custom attributes associated with the property's return value.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPropertyDefinition.Setter">
            <summary>
            The method used to set the value of this property. May be absent (null).
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISpecializedEventDefinition">
            <summary>
            Represents the specialized event definition.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISpecializedEventDefinition.UnspecializedVersion">
            <summary>
            The event that has been specialized to obtain this event. When the containing type is an instance of type which is itself a specialized member (i.e. it is a nested
            type of a generic type instance), then the unspecialized member refers to a member from the unspecialized containing type. (I.e. the unspecialized member always
            corresponds to a definition that is not obtained via specialization.)
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISpecializedFieldReference">
            <summary>
            Represents reference specialized field.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISpecializedFieldReference.UnspecializedVersion">
            <summary>
            A reference to the field definition that has been specialized to obtain the field definition referred to by this field reference. 
            When the containing type of the referenced specialized field definition is itself a specialized nested type of a generic type instance, 
            then the unspecialized field reference refers to the corresponding field definition from the unspecialized containing type definition.
            (I.e. the unspecialized field reference always refers to a field definition that is not obtained via specialization.)
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISpecializedMethodReference">
            <summary>
            Represents reference specialized method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISpecializedMethodReference.UnspecializedVersion">
            <summary>
            A reference to the method definition that has been specialized to obtain the method definition referred to by this method reference. 
            When the containing type of the referenced specialized method definition is itself a specialized nested type of a generic type instance, 
            then the unspecialized method reference refers to the corresponding method definition from the unspecialized containing type definition.
            (I.e. the unspecialized method reference always refers to a method definition that is not obtained via specialization.)
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISpecializedPropertyDefinition">
            <summary>
            Represents the specialized property definition.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISpecializedPropertyDefinition.UnspecializedVersion">
            <summary>
            The property that has been specialized to obtain this property. When the containing type is an instance of type which is itself a specialized member (i.e. it is a nested
            type of a generic type instance), then the unspecialized member refers to a member from the unspecialized containing type. (I.e. the unspecialized member always
            corresponds to a definition that is not obtained via specialization.)
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericMethodInstanceReference">
            <summary>
            A reference to generic method instantiated with a list of type arguments.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IGenericMethodInstanceReference.GetGenericArguments(System.Object)">
            <summary>
            The type arguments that were used to instantiate this.GenericMethod in order to create this method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericMethodInstanceReference.GenericMethod">
            <summary>
            Returns the generic method of which this method is an instance.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGlobalFieldDefinition">
            <summary>
            Represents a global field in symbol table.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGlobalMethodDefinition">
            <summary>
            Represents a global method in symbol table.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGlobalMethodDefinition.Name">
            <summary>
            The name of the method.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.MethodBody">
            <summary>
            Holds on to the method body data.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.MethodBody.NamespaceScopes">
            <summary>
            This is a list of the using directives that were in scope for this method body.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.Function`2">
            <summary>
            A Function that takes a single argument of type P and returns a value of type R.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IteratorHelper">
            <summary>
            A container for static helper methods that are used for manipulating and computing iterators.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IteratorHelper.GetEmptyEnumerable``1">
            <summary>
            Returns an enumerable containing no objects.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Microsoft.Cci.IteratorHelper.EnumerableIsNotEmpty``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            True if the given enumerable is not null and contains at least one element.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IteratorHelper.EnumerableIsEmpty``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            True if the given enumerable is null or contains no elements
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IteratorHelper.EnumerableCount``1(System.Collections.Generic.IEnumerable{``0})">
            <summary>
            Returns the number of elements in the given enumerable. A null enumerable is allowed and results in 0.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.SecurityAttribute">
            <summary>
            A declarative specification of a security action applied to a set of permissions. Used by the CLR loader to enforce security restrictions.
            Each security attribute represents a serialized permission or permission set for a specified security action.
            The union of the security attributes with identical security action, define the permission set to which the security action applies.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.PInvokeAttributes">
            <summary>
            This enum is used internally by BCL. It includes flags that are not in the metadata spec.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IWin32Resource">
            <summary>
            A resource file formatted according to Win32 API conventions and typically obtained from a Portable Executable (PE) file.
            See the Win32 UpdateResource method for more details.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.TypeName">
            <summary>
            A string that identifies what type of resource this is. Only valid if this.TypeId &lt; 0.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.TypeId">
            <summary>
            An integer tag that identifies what type of resource this is. If the value is less than 0, this.TypeName should be used instead.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.Name">
            <summary>
            The name of the resource. Only valid if this.Id &lt; 0.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.Id">
            <summary>
            An integer tag that identifies this resource. If the value is less than 0, this.Name should be used instead.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.LanguageId">
            <summary>
            The language for which this resource is appropriate.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.CodePage">
            <summary>
            The code page for which this resource is appropriate.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IWin32Resource.Data">
            <summary>
            The data of the resource.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.OperationCheckFlags">
            <summary>
            Flags for IL No Operation
            </summary>
        </member>
        <member name="F:Microsoft.Cci.OperationCheckFlags.NoTypeCheck">
            <summary>
            No type check needs to be performed for next operation
            </summary>
        </member>
        <member name="F:Microsoft.Cci.OperationCheckFlags.NoRangeCheck">
            <summary>
            No range check needs to be performed for next operation
            </summary>
        </member>
        <member name="F:Microsoft.Cci.OperationCheckFlags.NoNullCheck">
            <summary>
            No null check needs to be performed for next operation
            </summary>
        </member>
        <member name="T:Microsoft.Cci.PESectionKind">
            <summary>
            An enumeration indicating the section inside the PE File
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PESectionKind.Illegal">
            <summary>
            Section is unrecognized
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PESectionKind.ConstantData">
            <summary>
            Section for initialized constant data.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PESectionKind.CoverageData">
            <summary>
            Section for code coverage data.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PESectionKind.StaticData">
            <summary>
            Section for intialized writable data.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PESectionKind.Text">
            <summary>
            Section for IL and Metadata.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PESectionKind.ThreadLocalStorage">
            <summary>
            Section for initialized thread local storage.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IModifiedTypeReference">
            <summary>
            A type reference that has custom modifiers associated with it. For example a reference to the target type of a managed pointer to a constant.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModifiedTypeReference.CustomModifiers">
            <summary>
            Returns the list of custom modifiers associated with the type reference. Evaluate this property only if IsModified is true.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModifiedTypeReference.UnmodifiedType">
            <summary>
            An unmodified type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.PeWriter.FoldStrings">
            <summary>
            Fills in stringIndexMap with data from stringIndex and write to stringWriter.  
            Releases stringIndex as the stringTable is sealed after this point.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.PeWriter.UnwrapTypeReference(Microsoft.Cci.ITypeReference)">
            <summary>
            Strip off *, &amp;, and [].
            </summary>
        </member>
        <member name="T:Microsoft.Cci.PeWriter.StringIdx">
            <summary>
            Wraps a virtual string table index.
            An override to SerializeIndex does the resolving at the right time.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.PeWriter.SuffixSort">
            <summary>
            Sorts strings such that a string is followed immediately by all strings
            that are a suffix of it.  
            </summary>
        </member>
        <member name="T:Microsoft.Cci.PeWriter.AssemblyReferenceComparer">
            <summary>
            Compares quality of assembly references to achieve unique rows in AssemblyRef table.
            Metadata spec: "The AssemblyRef table shall contain no duplicates (where duplicate rows are deemd to 
            be those having the same MajorVersion, MinorVersion, BuildNumber, RevisionNumber, PublicKeyOrToken, 
            Name, and Culture)".
            </summary>
        </member>
        <member name="T:Microsoft.Cci.RootModuleType">
            <summary>
            Special type &lt;Module&gt;
            </summary>
        </member>
        <member name="T:Microsoft.Cci.UsedNamespaceOrTypeKind">
            <summary>
            
            </summary>
        </member>
        <member name="M:Microsoft.Cci.TypeHelper.GetDefiningUnitReference(Microsoft.Cci.ITypeReference,System.Object)">
            <summary>
            Returns a reference to the unit that defines the given referenced type. If the referenced type is a structural type, such as a pointer or a generic type instance,
            then the result is null.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.TypeHelper.TypesAreEquivalent(Microsoft.Cci.ITypeReference,Microsoft.Cci.ITypeReference)">
            <summary>
            Returns true if the given two types are to be considered equivalent for the purpose of signature matching and so on.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISourceLocation">
            <summary>
            A range of source text that corresponds to an identifiable entity.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceLocation.Contains(Microsoft.Cci.ISourceLocation)">
            <summary>
            True if the source at the given location is completely contained by the source at this location.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceLocation.CopyTo(System.Int32,System.Char[],System.Int32,System.Int32)">
            <summary>
            Copies the specified number of characters to the destination character array, starting
            at the specified offset from the start if the source location. Returns the number of
            characters actually copied. This number will be greater than zero as long as position is
            less than this.Length. The number will be precisely the number asked for unless there
            are not enough characters left in the document.
            </summary>
            <param name="offset">The starting index to copy from. Must be greater than zero and less than this.Length.</param>
            <param name="destination">The destination array. Must have at least destinationOffset+length elements.</param>
            <param name="destinationOffset">The starting index where the characters must be copied to in the destination array.</param>
            <param name="length">The maximum number of characters to copy.</param>
        </member>
        <member name="P:Microsoft.Cci.ISourceLocation.EndIndex">
            <summary>
            The character index after the last character of this location, when treating the source document as a single string.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceLocation.Length">
            <summary>
            The number of characters in this source location.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceLocation.SourceDocument">
            <summary>
            The document containing the source text of which this location is a subrange.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceLocation.Source">
            <summary>
            The source text corresponding to this location.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceLocation.StartIndex">
            <summary>
            The character index of the first character of this location, when treating the source document as a single string.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISourceDocument">
            <summary>
            An object that represents a source document, such as a text file containing C# source code.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceDocument.CopyTo(System.Int32,System.Char[],System.Int32,System.Int32)">
            <summary>
            Copies no more than the specified number of characters to the destination character array, starting at the specified position in the source document.
            Returns the actual number of characters that were copied. This number will be greater than zero as long as position is less than this.Length.
            The number will be precisely the number asked for unless there are not enough characters left in the document.
            </summary>
            <param name="position">The starting index to copy from. Must be greater than or equal to zero and position+length must be less than or equal to this.Length;</param>
            <param name="destination">The destination array.</param>
            <param name="destinationOffset">The starting index where the characters must be copied to in the destination array.</param>
            <param name="length">The maximum number of characters to copy. Must be greater than 0 and less than or equal to the number elements of the destination array.</param>
        </member>
        <member name="M:Microsoft.Cci.ISourceDocument.GetCorrespondingSourceLocation(Microsoft.Cci.ISourceLocation)">
            <summary>
            Returns a source location in this document that corresponds to the given source location from a previous version
            of this document.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceDocument.GetSourceLocation(System.Int32,System.Int32)">
            <summary>
            Obtains a source location instance that corresponds to the substring of the document specified by the given start position and length.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceDocument.GetText">
            <summary>
            Returns the source text of the document in string form. Each call may do significant work, so be sure to cache this.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.ISourceDocument.IsUpdatedVersionOf(Microsoft.Cci.ISourceDocument)">
            <summary>
            Returns true if this source document has been created by editing the given source document (or an updated
            version of the given source document).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceDocument.Length">
            <summary>
            The length of the source string.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceDocument.SourceLanguage">
            <summary>
            The language that determines how the document is parsed and what it means.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISourceDocument.SourceLocation">
            <summary>
            A source location corresponding to the entire document.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IPrimarySourceDocument">
            <summary>
            An object that represents a source document corresponding to a user accessible entity such as file.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IPrimarySourceDocument.GetPrimarySourceLocation(System.Int32,System.Int32)">
            <summary>
            Obtains a source location instance that corresponds to the substring of the document specified by the given start position and length.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IPrimarySourceDocument.ToLineColumn(System.Int32,System.Int32@,System.Int32@)">
            <summary>
            Maps the given (zero based) source position to a (one based) line and column, by scanning the source character by character, counting
            new lines until the given source position is reached. The source position and corresponding line+column are remembered and scanning carries
            on where it left off when this routine is called next. If the given position precedes the last given position, scanning restarts from the start.
            Optimal use of this method requires the client to sort calls in order of position.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPrimarySourceDocument.DocumentType">
            <summary>
            A Guid that identifies the kind of document to applications such as a debugger. Typically System.Diagnostics.SymbolStore.SymDocumentType.Text.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPrimarySourceDocument.Language">
            <summary>
            A Guid that identifies the programming language used in the source document. Typically used by a debugger to locate language specific logic.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPrimarySourceDocument.LanguageVendor">
            <summary>
            A Guid that identifies the compiler vendor programming language used in the source document. Typically used by a debugger to locate vendor specific logic.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IPrimarySourceDocument.PrimarySourceLocation">
            <summary>
            A source location corresponding to the entire document.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IArrayTypeReference">
            <summary>
            This interface models the metadata representation of an array type reference.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IArrayTypeReference.GetElementType(System.Object)">
            <summary>
            The type of the elements of this array.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IArrayTypeReference.IsVector">
            <summary>
            This type of array is a single dimensional array with zero lower bound for index values.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IArrayTypeReference.LowerBounds">
            <summary>
            A possibly empty list of lower bounds for dimension indices. When not explicitly specified, a lower bound defaults to zero.
            The first lower bound in the list corresponds to the first dimension. Dimensions cannot be skipped.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IArrayTypeReference.Rank">
            <summary>
            The number of array dimensions.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IArrayTypeReference.Sizes">
            <summary>
            A possible empty list of upper bounds for dimension indices.
            The first upper bound in the list corresponds to the first dimension. Dimensions cannot be skipped.
            An unspecified upper bound means that instances of this type can have an arbitrary upper bound for that dimension.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ICustomModifier">
            <summary>
            Modifies the set of allowed values for a type, or the semantics of operations allowed on those values. 
            Custom modifiers are not associated directly with types, but rather with typed storage locations for values.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ICustomModifier.IsOptional">
            <summary>
            If true, a language may use the modified storage location without being aware of the meaning of the modification.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ICustomModifier.Modifier">
            <summary>
            A type used as a tag that indicates which type of modification applies to the storage location.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IFunctionPointerTypeReference">
            <summary>
            This interface models the metadata representation of a function pointer type reference.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IFunctionPointerTypeReference.ExtraArgumentTypes">
            <summary>
            The types and modifiers of extra arguments that the caller will pass to the methods that are pointed to by this pointer.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericMethodParameter">
            <summary>
            The definition of a type parameter of a generic method.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericMethodParameterReference">
            <summary>
            A reference to a type parameter of a generic method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericMethodParameterReference.DefiningMethod">
            <summary>
            A reference to the generic method that defines the referenced type parameter.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericMethodParameter.DefiningMethod">
            <summary>
            The generic method that defines this type parameter.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IGenericTypeInstanceReference">
            <summary>
            A generic type instantiated with a list of type arguments
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IGenericTypeInstanceReference.GetGenericArguments(System.Object)">
            <summary>
            The type arguments that were used to instantiate this.GenericType in order to create this type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IGenericTypeInstanceReference.GenericType">
            <summary>
            Returns the generic type of which this type is an instance.
            Equivalent to Symbol.OriginalDefinition
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ISpecializedNestedTypeReference">
            <summary>
            A reference to a type definition that is a specialized nested type.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.ISpecializedNestedTypeReference.UnspecializedVersion">
            <summary>
            A reference to the nested type that has been specialized to obtain this nested type reference. When the containing type is an instance of type which is itself a specialized member (i.e. it is a nested
            type of a generic type instance), then the unspecialized member refers to a member from the unspecialized containing type. (I.e. the unspecialized member always
            corresponds to a definition that is not obtained via specialization.)
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IMethodImplementation">
            <summary>
            Models an explicit implemenation or override of a base class virtual method or an explicit implementation of an interface method.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IMethodImplementation.Dispatch(Microsoft.Cci.IMetadataVisitor)">
            <summary>
            Calls the visitor.Visit(T) method where T is the most derived object model node interface type implemented by the concrete type
            of the object implementing IDefinition. The dispatch method does not invoke Dispatch on any child objects. If child traversal
            is desired, the implementations of the Visit methods should do the subsequent dispatching.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodImplementation.ContainingType">
            <summary>
            The type that is explicitly implementing or overriding the base class virtual method or explicitly implementing an interface method.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodImplementation.ImplementedMethod">
            <summary>
            A reference to the method whose implementation is being provided or overridden.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IMethodImplementation.ImplementingMethod">
            <summary>
            A reference to the method that provides the implementation.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IPointerTypeReference">
            <summary>
            This interface models the metadata representation of a pointer to a location in unmanaged memory.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IPointerTypeReference.GetTargetType(System.Object)">
            <summary>
            The type of value stored at the target memory location.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IManagedPointerTypeReference">
            <summary>
            This interface models the metadata representation of a managed pointer.
            Remark: This should be only used in attributes. For other objects like Local variables etc
            there is explicit IsReference field that should be used.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IManagedPointerTypeReference.GetTargetType(System.Object)">
            <summary>
            The type of value stored at the target memory location.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.PrimitiveTypeCode">
            <summary>
            A enumeration of all of the value types that are built into the Runtime (and thus have specialized IL instructions that manipulate them).
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Boolean">
            <summary>
            A single bit.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Char">
            <summary>
            An usigned 16 bit integer representing a Unicode UTF16 code point.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Int8">
            <summary>
            A signed 8 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Float32">
            <summary>
            A 32 bit IEEE floating point number.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Float64">
            <summary>
            A 64 bit IEEE floating point number.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Int16">
            <summary>
            A signed 16 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Int32">
            <summary>
            A signed 32 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Int64">
            <summary>
            A signed 64 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.IntPtr">
            <summary>
            A signed 32 bit integer or 64 bit integer, depending on the native word size of the underlying processor.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Pointer">
            <summary>
            A pointer to fixed or unmanaged memory.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Reference">
            <summary>
            A reference to managed memory.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.String">
            <summary>
            A string.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.UInt8">
            <summary>
            An unsigned 8 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.UInt16">
            <summary>
            An unsigned 16 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.UInt32">
            <summary>
            An unsigned 32 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.UInt64">
            <summary>
            An unsigned 64 bit integer.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.UIntPtr">
            <summary>
            An unsigned 32 bit integer or 64 bit integer, depending on the native word size of the underlying processor.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Void">
            <summary>
            A type that denotes the absense of a value.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.NotPrimitive">
            <summary>
            Not a primitive type.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.PrimitiveTypeCode.Invalid">
            <summary>
            Type is a dummy type.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.TypeMemberVisibility">
            <summary>
            Enumerates the different kinds of levels of visibility a type member can have.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Default">
            <summary>
            The visibility has not been specified. Use the applicable default.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Assembly">
            <summary>
            The member is visible only within its own assembly.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Family">
            <summary>
            The member is visible only within its own type and any subtypes.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.FamilyAndAssembly">
            <summary>
            The member is visible only within the intersection of its family (its own type and any subtypes) and assembly. 
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.FamilyOrAssembly">
            <summary>
            The member is visible only within the union of its family and assembly. 
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Other">
            <summary>
            The member is visible only to the compiler producing its assembly.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Private">
            <summary>
            The member is visible only within its own type.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Public">
            <summary>
            The member is visible everywhere its declaring type is visible.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeMemberVisibility.Mask">
            <summary>
            A mask that can be used to mask out flag bits when the latter are stored in the same memory word as this enumeration.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.TypeParameterVariance">
            <summary>
            Enumerates the different kinds of variance a generic method or generic type parameter may have.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeParameterVariance.NonVariant">
            <summary>
            Two type or method instances are compatible only if they have exactly the same type argument for this parameter.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeParameterVariance.Covariant">
            <summary>
            A type or method instance will match another instance if it has a type for this parameter that is the same or a subtype of the type the
            other instance has for this parameter.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeParameterVariance.Contravariant">
            <summary>
            A type or method instance will match another instance if it has a type for this parameter that is the same or a supertype of the type the
            other instance has for this parameter.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.TypeParameterVariance.Mask">
            <summary>
            A mask that can be used to mask out flag bits when the latter are stored in the same memory word as the enumeration.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.UnitHelper">
            <summary>
            Class containing helper routines for Units
            </summary>
        </member>
        <member name="M:Microsoft.Cci.UnitHelper.StrongName(Microsoft.Cci.IAssemblyReference)">
            <summary>
            Computes the string representing the strong name of the given assembly reference.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.ModuleKind">
            <summary>
            The kind of metadata stored in the module. For example whether the module is an executable or a manifest resource file.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.ModuleKind.ConsoleApplication">
            <summary>
            The module is an executable with an entry point and has a console.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.ModuleKind.WindowsApplication">
            <summary>
            The module is an executable with an entry point and does not have a console.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.ModuleKind.DynamicallyLinkedLibrary">
            <summary>
            The module is a library of executable code that is dynamically linked into an application and called via the application.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.ModuleKind.ManifestResourceFile">
            <summary>
            The module contains no executable code. Its contents is a resource stream for the modules that reference it.
            </summary>
        </member>
        <member name="F:Microsoft.Cci.ModuleKind.UnmanagedDynamicallyLinkedLibrary">
            <summary>
            The module is a library of executable code but contains no .NET metadata and is specific to a processor instruction set.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IAssembly">
            <summary>
            Represents a .NET assembly.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IModule">
            <summary>
            An object that represents a .NET module.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IUnit">
            <summary>
            A unit of metadata stored as a single artifact and potentially produced and revised independently from other units.
            Examples of units include .NET assemblies and modules, as well C++ object files and compiled headers.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IUnitReference">
            <summary>
            A reference to a instance of <see cref="T:Microsoft.Cci.IUnit"/>.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IModuleReference">
            <summary>
            A reference to a .NET module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModuleReference.ContainingAssembly">
            <summary>
            The Assembly that contains this module. May be null if the module is not part of an assembly.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IModule.GetStrings">
            <summary>
            Returns zero or more strings used in the module. If the module is produced by reading in a CLR PE file, then this will be the contents
            of the user string heap. If the module is produced some other way, the method may return an empty enumeration or an enumeration that is a
            subset of the strings actually used in the module. The main purpose of this method is to provide a way to control the order of strings in a
            prefix of the user string heap when writing out a module as a PE file.
            </summary>
        </member>
        <member name="M:Microsoft.Cci.IModule.GetAllTypes">
            <summary>
            Returns all of the types defined in the current module. These are always named types, in other words: INamespaceTypeDefinition or INestedTypeDefinition instances.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.AssemblyAttributes">
            <summary>
            A list of objects representing persisted instances of types that extend System.Attribute. Provides an extensible way to associate metadata
            with this assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.AssemblySecurityAttributes">
            <summary>
            A list of objects representing persisted instances of pairs of security actions and sets of security permissions.
            These apply by default to every method reachable from the module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.AssemblyReferences">
            <summary>
            A list of the assemblies that are referenced by this module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.CorLibrary">
            <summary>
            CorLibrary assembly referenced by this module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.BaseAddress">
            <summary>
            The preferred memory address at which the module is to be loaded at runtime.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.ContainingAssembly">
            <summary>
            The Assembly that contains this module. If this module is main module then this returns this.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.DllCharacteristics">
            <summary>
            Flags that control the behavior of the target operating system. CLI implementations are supposed to ignore this, but some operating system pay attention.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.EntryPoint">
            <summary>
            The method that will be called to start execution of this executable module. 
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.FileAlignment">
            <summary>
            The alignment of sections in the module's image file.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.ILOnly">
            <summary>
            True if the module contains only IL and is processor independent.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.Kind">
            <summary>
            The kind of metadata stored in this module. For example whether this module is an executable or a manifest resource file.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.LinkerMajorVersion">
            <summary>
            The first part of a two part version number indicating the version of the linker that produced this module. For example, the 8 in 8.0.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.LinkerMinorVersion">
            <summary>
            The first part of a two part version number indicating the version of the linker that produced this module. For example, the 0 in 8.0.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.MetadataFormatMajorVersion">
            <summary>
            The first part of a two part version number indicating the version of the format used to persist this module. For example, the 1 in 1.0.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.MetadataFormatMinorVersion">
            <summary>
            The second part of a two part version number indicating the version of the format used to persist this module. For example, the 0 in 1.0.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.ModuleAttributes">
            <summary>
            A list of objects representing persisted instances of types that extend System.Attribute. Provides an extensible way to associate metadata
            with this module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.ModuleName">
            <summary>
            The name of the module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.ModuleReferences">
            <summary>
            A list of the modules that are referenced by this module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.PersistentIdentifier">
            <summary>
            A globally unique persistent identifier for this module.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.RequiresAmdInstructionSet">
            <summary>
            If set, the module contains instructions or assumptions that are specific to the AMD 64 bit instruction set. Setting this flag to
            true also sets Requires64bits to true.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.Requires32bits">
            <summary>
            If set, the module contains instructions that assume a 32 bit instruction set. For example it may depend on an address being 32 bits.
            This may be true even if the module contains only IL instructions because of PlatformInvoke and COM interop.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.Prefers32bits">
            <summary>
            True if the module contains only IL and is processor independent. Should there be a choice between launching as a 64-bit or 32-bit
            process, this setting will cause the host to launch it as a 32-bit process. 
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.Requires64bits">
            <summary>
            If set, the module contains instructions that assume a 64 bit instruction set. For example it may depend on an address being 64 bits.
            This may be true even if the module contains only IL instructions because of PlatformInvoke and COM interop.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.SizeOfHeapCommit">
            <summary>
            The size of the virtual memory initially committed for the initial process heap.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.SizeOfHeapReserve">
            <summary>
            The size of the virtual memory to reserve for the initial process heap.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.SizeOfStackCommit">
            <summary>
            The size of the virtual memory initially committed for the initial thread's stack.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.SizeOfStackReserve">
            <summary>
            The size of the virtual memory to reserve for the initial thread's stack.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.TargetRuntimeVersion">
            <summary>
            Identifies the version of the CLR that is required to load this module or assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.TrackDebugData">
            <summary>
            True if the instructions in this module must be compiled in such a way that the debugging experience is not compromised.
            To set the value of this property, add an instance of System.Diagnostics.DebuggableAttribute to the MetadataAttributes list.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IModule.Win32Resources">
            <summary>
            A list of named byte sequences persisted with the module and used during execution, typically via the Win32 API.
            A module will define Win32 resources rather than "managed" resources mainly to present metadata to legacy tools
            and not typically use the data in its own code. This list of IWin32Resources must be sorted first by type then
            by name.
            </summary>
        </member>
        <member name="T:Microsoft.Cci.IAssemblyReference">
            <summary>
            A reference to a .NET assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssemblyReference.Culture">
            <summary>
            Identifies the culture associated with the assembly reference. Typically specified for sattelite assemblies with localized resources.
            Empty or null if not specified.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssemblyReference.IsRetargetable">
            <summary>
            True if the implementation of the referenced assembly used at runtime is not expected to match the version seen at compile time.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssemblyReference.ContentType">
            <summary>
            Type of code contained in an assembly. Determines assembly binding model.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssemblyReference.PublicKeyToken">
            <summary>
            The hashed 8 bytes of the public key of the referenced assembly. This is empty or null if the referenced assembly does not have a public key.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssemblyReference.Version">
            <summary>
            The version of the assembly reference. Null means Version(0, 0, 0, 0).
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssemblyReference.Location">
            <summary>
            Full path to assembly file or null if not specified.
            </summary>
            <remarks>
            The location is available when full path to the reference was provided in addition to an assembly name.
            </remarks>
        </member>
        <member name="P:Microsoft.Cci.IAssembly.ExportedTypes">
            <summary>
            Public types defined in other modules making up this assembly and to which other assemblies may refer to via this assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssembly.Files">
            <summary>
            A list of the files that constitute the assembly. These are not the source language files that may have been
            used to compile the assembly, but the files that contain constituent modules of a multi-module assembly as well
            as any external resources. It corresonds to the File table of the .NET assembly file format.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssembly.Flags">
            <summary>
            A set of bits and bit ranges representing properties of the assembly. The value of <see cref="P:Microsoft.Cci.IAssembly.Flags"/> can be set
            from source code via the AssemblyFlags assembly custom attribute. The interpretation of the property depends on the target platform.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssembly.PublicKey">
            <summary>
            The public part of the key used to encrypt the SHA1 hash over the persisted form of this assembly. Empty or null if not specified.
            This value is used by the loader to decrypt an encrypted hash value stored in the assembly, which it then compares with a freshly computed hash value
            in order to verify the integrity of the assembly.
            </summary>
        </member>
        <member name="P:Microsoft.Cci.IAssembly.Resources">
            <summary>
            A list of named byte sequences persisted with the assembly and used during execution, typically via .NET Framework helper classes.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.RuntimeMembers.MemberDescriptor">
            <summary>
            Structure that describes a member of a type.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.RuntimeMembers.MemberDescriptor.DeclaringTypeId">
            <summary>
            Id/token of containing type, usually value from some enum.
            For example from SpecialType enum.
            I am not using SpecialType as the type for this field because
            VB runtime types are not part of SpecialType.
            
            So, the implication is that any type ids we use outside of the SpecialType 
            (either for the VB runtime classes, or types like System.Task etc.) will need 
            to use IDs that are all mutually disjoint. 
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.RuntimeMembers.MemberDescriptor.Signature">
            <summary>
            Signature of the field or method, similar to metadata signature, 
            but with the following exceptions:
               1) Truncated on the left, for methods starts at [ParamCount], for fields at [Type]
               2) Type tokens are not compressed
               3) BOOLEAN | CHAR | I1 | U1 | I2 | U2 | I4 | U4 | I8 | U8 | R4 | R8 | I | U | Void types are encoded by 
                  using VALUETYPE+typeId notation.
               4) array bounds are not included.
               5) modifiers are not included.
               6) (CLASS | VALUETYPE) are omitted after GENERICINST
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5">
            <summary>
            Helper class to match signatures in format of 
            MemberDescriptor.Signature to members.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.MatchFieldSignature(`1,Roslyn.Compilers.ReadOnlyArray{System.Int32})">
            <summary>
            Returns true if signature matches signature of the field.
            Signature should be in format described in MemberDescriptor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.MatchPropertySignature(`2,Roslyn.Compilers.ReadOnlyArray{System.Int32})">
            <summary>
            Returns true if signature matches signature of the property.
            Signature should be in format described in MemberDescriptor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.MatchMethodSignature(`0,Roslyn.Compilers.ReadOnlyArray{System.Int32})">
            <summary>
            Returns true if signature matches signature of the method.
            Signature should be in format described in MemberDescriptor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.MatchType(`3,Roslyn.Compilers.ReadOnlyArray{System.Int32},System.Int32@)">
            <summary>
            Does pretty much the same thing as MetadataDecoder.DecodeType only instead of 
            producing a type symbol it compares encoded type to the target.
            
            Signature should be in format described in MemberDescriptor.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.GetGenericTypeArgument(`3,System.Int32)">
            <summary>
            Should return null in case of error.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.GetGenericTypeDefinition(`3)">
            <summary>
            Should return null in case of error.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.GetPointedToType(`3)">
            <summary>
            Should only accept Pointer types.
            Should return null in case of error.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.GetSZArrayElementType(`3)">
            <summary>
            Should return null in case of error.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.MatchArrayRank(`3,System.Int32)">
            <summary>
            Should only accept multi-dimansional arrays.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.RuntimeMembers.SignatureComparer`5.GetArrayElementType(`3)">
            <summary>
            Should only accept multi-dimansional arrays.
            Should return null in case of error.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.SpecialTypes.emittedNames">
            <summary>
            Array of names for types from Cor Libraray.
            The names should correspond to ids from TypeId enum so
            that we could use ids to index into the array
            </summary>
            <remarks></remarks>
        </member>
        <member name="M:Roslyn.Compilers.SpecialTypes.GetMetadataName(Roslyn.Compilers.SpecialType)">
            <summary>
            Gets the name of the special type as it would appear in metadata.
            </summary>
        </member>
        <member name="T:Roslyn.Utilities.StringTable">
            <summary>
            This is basically a hash-set of strings that is searchable by
            strings, string sub ranges, character array ranges or string-builder.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.WithAdditionalAnnotations``1(``0,Roslyn.Compilers.SyntaxAnnotation[])">
            <summary>
            Creates a new node identical to this node with the specified annotations attached.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotatedNodesAndTokens``1(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets all nodes or tokens with annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotatedNodesAndTokens(Roslyn.Compilers.Common.CommonSyntaxNode,Roslyn.Compilers.SyntaxAnnotation)">
            <summary>
            Gets all nodes or tokens with this specific annotation attached.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotatedTrivia``1(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets all trivia with annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.HasAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Determines if the node as annotations of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxNode)">
            <summary>
            Gets all annotations of the specific type attached to the node.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.HasAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Determines if this token or any of its trivia has an annotation of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxToken)">
            <summary>
            Gets all the annotations of the specified type on this token or any of its trivia.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.HasAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Determines whether this trivia or its sub structure has an annotation of the specified type.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxTrivia)">
            <summary>
            Get all the annotations of the specified type on this trivia or any of its sub structure.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.HasAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Determines if this node or token has any annotation of the specified type attached.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.CommonAnnotationExtensions.GetAnnotations``1(Roslyn.Compilers.Common.CommonSyntaxNodeOrToken)">
            <summary>
            Gets all the annotations of the specified type attached to this node or token (or any sub  node).
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.IText">
            <summary>
            Represents an immutable snapshot of text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.GetLineFromLineNumber(System.Int32)">
            <summary>
            Gets the line corresponding to the provided line number.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.GetLineFromPosition(System.Int32)">
            <summary>
            Gets the line which encompasses the provided position.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.GetLineNumberFromPosition(System.Int32)">
            <summary>
            Gets the number of the line that contains the character at the specified position.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.GetLinePosition(System.Int32)">
            <summary>
            Gets a line number, and position within that line, for the character at the 
            specified position
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.ToString">
            <summary>
            Returns a string representation of the contents of this IText.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.ToString(Roslyn.Compilers.TextSpan)">
            <summary>
            Returns a string representation of the contents of this IText within the given span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.GetSubText(Roslyn.Compilers.TextSpan)">
            <summary>
            Gets the a new IText that corresponds to the contents of this IText for the given span.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.CopyTo(System.Int32,System.Char[],System.Int32,System.Int32)">
            <summary>
            Copy the count contents of IText starting from sourceIndex to destination starting at
            destinationIndex.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.Write(System.IO.TextWriter)">
            <summary>
            Write the text to the specified TextWriter.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.IText.GetChangeRanges(Roslyn.Compilers.IText)">
            <summary>
            Gets the set of TextChangeRanges that describe how the text changed between this text and
            the old version. Some texts keep track of changes between themselves and previous instances
            and may report detailed changes. Others many simply report a single change encompassing the
            entire text.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.IText.Container">
            <summary>
            The container for the text.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.IText.Length">
            <summary>
            Total number of characters in the text source.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.IText.LineCount">
            <summary>
            Total number of lines in the text.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.IText.Lines">
            <summary>
            Returns the collection of line information for the <see cref="T:IText"/> instance.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.IText.Item(System.Int32)">
            <summary>
            Return the char at position in the IText.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ITextContainer">
            <summary>
            An object that contains an instance of an IText and raises events when its current instance
            changes.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextContainer.CurrentText">
            <summary>
            The current text instance.
            </summary>
        </member>
        <member name="E:Roslyn.Compilers.ITextContainer.TextChanged">
            <summary>
            Raised when the current text instance changes.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.TextBase.lazyLineStarts">
            <summary>
            The line start position of each line.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextBase.ToString">
            <summary>
            Provides a string representation of the TextBase.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextBase.ToString(Roslyn.Compilers.TextSpan)">
            <summary>
            Provides a string representation of the StringText located within given span.
            </summary>
            <exception cref="T:ArgumentOutOfRangeException">When given span is outside of the text range.</exception>
        </member>
        <member name="M:Roslyn.Compilers.TextBase.CopyTo(System.Int32,System.Char[],System.Int32,System.Int32)">
            <summary>
            Copy a range of characters from this IText to a destination array.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextBase.Write(System.IO.TextWriter)">
            <summary>
            Write this IText to a text writer.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextBase.Write(System.IO.TextWriter,Roslyn.Compilers.TextSpan)">
            <summary>
            Write a span of text to a text writer.
            </summary>
            <param name="writer"></param>
            <param name="span"></param>
        </member>
        <member name="P:Roslyn.Compilers.TextBase.Length">
            <summary>
            The length of the text represented by <see cref="T:StringText"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextBase.Item(System.Int32)">
            <summary>
            Returns a character at given position.
            </summary>
            <param name="position">The position to get the character from.</param>
            <returns>The character.</returns>
            <exception cref="T:ArgumentOutOfRangeException">When position is negative or 
            greater than <see cref="T:"/> length.</exception>
        </member>
        <member name="P:Roslyn.Compilers.TextBase.Container">
            <summary>
            The container of this IText
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextBase.LineCount">
            <summary>
            The length of the text represented by <see cref="T:StringText"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextBase.Roslyn#Compilers#IText#Lines">
            <summary>
            The sequence of lines represented by <see cref="T:StringText"/>.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.CompositeText">
            <summary>
            An IText that is a composite of a sequence of ITexts
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.SubText">
            <summary>
            An IText that represents a subrange of another IText.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextExtensions.WithChanges(Roslyn.Compilers.IText,System.Collections.Generic.IEnumerable{Roslyn.Compilers.TextChange})">
            <summary>
            Construct a new IText with the specified changes.
            The changes must be ordered and not overlapping.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextExtensions.WithChanges(Roslyn.Compilers.IText,Roslyn.Compilers.TextChange[])">
            <summary>
            Construct a new IText with the specified changes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextExtensions.GetSubText(Roslyn.Compilers.IText,System.Int32)">
            <summary>
            Constructs a new text that has the contents of this text including and after the start position.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextExtensions.GetTextChanges(Roslyn.Compilers.IText,Roslyn.Compilers.IText)">
            <summary>
            Gets the set of TextChanges that describe how the text changed
            between old and new versions. Some containers keep track of changes between
            text instances and may report multiple detailed changes. Others many simply report
            a single change from old to new encompassing the entire text.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TextLine">
            <summary>
            StringText implementation of ITextLine
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.ITextLine">
            <summary>
            Immutable representation of a line in an IText instance
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.ITextLine.ToString">
            <summary>
            Gets the text of the line 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextLine.Start">
            <summary>
            Start of the line
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextLine.End">
            <summary>
            End of the line not including the line break
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextLine.EndIncludingLineBreak">
            <summary>
            End of the line including the line break
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextLine.Extent">
            <summary>
            Extent of the line not incluing the line break
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextLine.ExtentIncludingLineBreak">
            <summary>
            Extent of the line including the line break
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.ITextLine.LineNumber">
            <summary>
            Gets the line number for this line.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextLine.#ctor(Roslyn.Compilers.IText,System.Int32,System.Int32,System.Int32,System.Int32)">
            <summary>
            Create a new TextLineSpan from the given parameters
            </summary>
            <param name="text">StringText this Line is a part of</param>
            <param name="start">Start position of the TextLineSpan</param>
            <param name="length">Length of the span not including the line break</param>
            <param name="lineBreakLength">Length of the line break section of the line</param>
            <param name="lineNumber">Line number of this line.</param>
        </member>
        <member name="T:Roslyn.Compilers.LinePosition">
            <summary>
            Immutable representation of a line number and position within a IText instance.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.#ctor(System.Int32,System.Int32)">
            <summary>
            Initializes a new instance of a <see cref="T:Roslyn.Compilers.LinePosition"/> with the given line and character.
            </summary>
            <param name="line">
            The line of the line position. The first line in a file is defined as line 0 (zero based line numbering).
            </param>
            <param name="character">
            The character position in the line.
            </param>
            <exception cref="T:System.ArgumentOutOfRangeException"><paramref name="line"/> or <paramref name="character"/> is less than zero. </exception>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.op_Equality(Roslyn.Compilers.LinePosition,Roslyn.Compilers.LinePosition)">
            <summary>
            Determines whether two <see cref="T:LinePositions"/> are the same.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.op_Inequality(Roslyn.Compilers.LinePosition,Roslyn.Compilers.LinePosition)">
            <summary>
            Determines whether two <see cref="T:LinePositions"/> are different.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.Equals(Roslyn.Compilers.LinePosition)">
            <summary>
            Determines whether two <see cref="T:LinePositions"/> are the same.
            </summary>
            <param name="other">The object to compare.</param>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.Equals(System.Object)">
            <summary>
            Determines whether two <see cref="T:LinePositions"/> are the same.
            </summary>
            <param name="obj">The object to compare.</param>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.GetHashCode">
            <summary>
            Provides a hash function for <see cref="T:LinePositions"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.LinePosition.ToString">
            <summary>
            Provides a string representation for <see cref="T:LinePositions"/>.
            </summary>
            <example>0,10</example>
        </member>
        <member name="F:Roslyn.Compilers.LinePosition.Zero">
            <summary>
            A <see cref="T:LinePositions"/> that represents position 0 at line 0.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.LinePosition.Line">
            <summary>
            The line number. The first line in a file is defined as line 0 (zero based line numbering).
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.LinePosition.Character">
            <summary>
            The character position within the line.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.StringBuilderText">
            <summary>
            Implementation of IText based on a <see cref="T:System.String"/> input
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.StringBuilderText.builder">
            <summary>
            Underlying string on which this IText instance is based
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.StringBuilderText.#ctor(System.Text.StringBuilder)">
            <summary>
            Initializes an instance of <see cref="T:StringText"/> with provided data.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.StringBuilderText.ToString(Roslyn.Compilers.TextSpan)">
            <summary>
            Provides a string representation of the StringBuilderText located within given span.
            </summary>
            <exception cref="T:ArgumentOutOfRangeException">When given span is outside of the text range.</exception>
        </member>
        <member name="P:Roslyn.Compilers.StringBuilderText.Builder">
            <summary>
            Underlying string which is the source of this IText instance
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.StringBuilderText.Length">
            <summary>
            The length of the text represented by <see cref="T:StringText"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.StringBuilderText.Item(System.Int32)">
            <summary>
            Returns a character at given position.
            </summary>
            <param name="position">The position to get the character from.</param>
            <returns>The character.</returns>
            <exception cref="T:ArgumentOutOfRangeException">When position is negative or 
            greater than <see cref="T:"/> length.</exception>
        </member>
        <member name="T:Roslyn.Compilers.StringText">
            <summary>
            Implementation of IText based on a <see cref="T:System.String"/> input
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.StringText.source">
            <summary>
            Underlying string on which this IText instance is based
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.StringText.#ctor(System.String)">
            <summary>
            Initializes an instance of <see cref="T:StringText"/> with provided data.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.StringText.#ctor(System.IO.Stream)">
            <summary>
            Initializes an instance of <see cref="T:StringText"/> with provided bytes.
            The following encodings will be automatically detected: BigEndianUnicode, Unicode, UTF8
            (with or without byte order mark).  The default windows codepage will be used as a fallback.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.StringText.#ctor(System.IO.Stream,System.Text.Encoding)">
            <summary>
            Initializes an instance of <see cref="T:StringText"/> with provided bytes.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.StringText.ToString(Roslyn.Compilers.TextSpan)">
            <summary>
            Provides a string representation of the StringText located within given span.
            </summary>
            <exception cref="T:ArgumentOutOfRangeException">When given span is outside of the text range.</exception>
        </member>
        <member name="P:Roslyn.Compilers.StringText.Source">
            <summary>
            Underlying string which is the source of this IText instance
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.StringText.Length">
            <summary>
            The length of the text represented by <see cref="T:StringText"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.StringText.Item(System.Int32)">
            <summary>
            Returns a character at given position.
            </summary>
            <param name="position">The position to get the character from.</param>
            <returns>The character.</returns>
            <exception cref="T:ArgumentOutOfRangeException">When position is negative or 
            greater than <see cref="T:"/> length.</exception>
        </member>
        <member name="T:Roslyn.Compilers.TextChange">
            <summary>
            Describes a single change when a particular span is replaced with a new text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextChange.#ctor(Roslyn.Compilers.TextSpan,System.String)">
            <summary>
            Initializes a new instance of <see cref="T:TextChange"/>
            </summary>
            <param name="span">The original span of the changed text.</param>
            <param name="newText">The new text.</param>
        </member>
        <member name="M:Roslyn.Compilers.TextChange.ToString">
            <summary>
            Provides a string representation for <see cref="T:TextChange"/>.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextChange.Span">
            <summary>
            The original span of the changed text. 
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextChange.NewText">
            <summary>
            The new text.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TextChangeRange">
            <summary>
            Represents the change to a span of text.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextChangeRange.#ctor(Roslyn.Compilers.TextSpan,System.Int32)">
            <summary>
            Initializes a new instance of <see cref="T:TextChangeRange"/>.
            </summary>
            <param name="span"></param>
            <param name="newLength"></param>
        </member>
        <member name="M:Roslyn.Compilers.TextChangeRange.Equals(Roslyn.Compilers.TextChangeRange)">
            <summary>
            Compares current instance of <see cref="T:TextChangeRange"/> to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextChangeRange.Equals(System.Object)">
            <summary>
            Compares current instance of <see cref="T:TextChangeRange"/> to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextChangeRange.GetHashCode">
            <summary>
            Provides hash code for current instnce of <see cref="T:TextChangeRange"/>.
            </summary>
            <returns></returns>
        </member>
        <member name="M:Roslyn.Compilers.TextChangeRange.op_Equality(Roslyn.Compilers.TextChangeRange,Roslyn.Compilers.TextChangeRange)">
            <summary>
            Determines if two instances of <see cref="T:TextChangeRange"/> are same.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextChangeRange.op_Inequality(Roslyn.Compilers.TextChangeRange,Roslyn.Compilers.TextChangeRange)">
            <summary>
            Determines if two instances of <see cref="T:TextChangeRange"/> are different.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextChangeRange.Span">
            <summary>
            The span of text before the edit which is being changed
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextChangeRange.NewLength">
            <summary>
            Width of the span after the edit.  A 0 here would represent a delete
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TextSpan">
            <summary>
            Immutable abstract representation of a span of text.  For example, in an error diagnostic that reports a
            location, it could come from a parsed string, text from a tool editor buffer, etc.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.#ctor(System.Int32,System.Int32)">
            <summary>
            Creates a TextSpan instance beginning with the position Start and having the Length specified 
            with length
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.Contains(System.Int32)">
            <summary>
            Determines whether the position lies within the span.
            </summary>
            <param name="position">
            The position to check.
            </param>
            <returns>
            <c>true</c> if the position is greater than or equal to Start and strictly less 
            than End, otherwise <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.Contains(Roslyn.Compilers.TextSpan)">
            <summary>
            Determines whether <paramref name="span"/> falls completely within this span.
            </summary>
            <param name="span">
            The span to check.
            </param>
            <returns>
            <c>true</c> if the specified span falls completely within this span, otherwise <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.OverlapsWith(Roslyn.Compilers.TextSpan)">
            <summary>
            Determines whether <paramref name="span"/> overlaps this span. Two spans are considered to overlap 
            if they have positions in common and neither is empty. Empty spans do not overlap with any 
            other span.
            </summary>
            <param name="span">
            The span to check.
            </param>
            <returns>
            <c>true</c> if the spans overlap, otherwise <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.Overlap(Roslyn.Compilers.TextSpan)">
            <summary>
            Returns the overlap with the given span, or null if there is no overlap.
            </summary>
            <param name="span">
            The span to check.
            </param>
            <returns>
            The overlap of the spans, or null if the overlap is empty.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.IntersectsWith(Roslyn.Compilers.TextSpan)">
            <summary>
            Determines whether <paramref name="span"/> intersects this span. Two spans are considered to 
            intersect if they have positions in common or the end of one span 
            coincides with the start of the other span.
            </summary>
            <param name="span">
            The span to check.
            </param>
            <returns>
            <c>true</c> if the spans intersect, otherwise <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.IntersectsWith(System.Int32)">
            <summary>
            Determines whether <paramref name="position"/> intersects this span. 
            A position is considered to intersect if it is between the start and
            end positions (inclusive) of this span.
            </summary>
            <param name="position">
            The position to check.
            </param>
            <returns>
            <c>true</c> if the position intersects, otherwise <c>false</c>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.Intersection(Roslyn.Compilers.TextSpan)">
            <summary>
            Returns the intersection with the given span, or null if there is no intersection.
            </summary>
            <param name="span">
            The span to check.
            </param>
            <returns>
            The intersection of the spans, or null if the intersection is empty.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.FromBounds(System.Int32,System.Int32)">
            <summary>
            Creates a new <see cref="T:TextSpan"/> from <param name="start" /> and <param
            name="end"/> positions as opposed to a position and length.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.op_Equality(Roslyn.Compilers.TextSpan,Roslyn.Compilers.TextSpan)">
            <summary>
            Determines if two instances of <see cref="T:TextSpan"/> are the same.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.op_Inequality(Roslyn.Compilers.TextSpan,Roslyn.Compilers.TextSpan)">
            <summary>
            Determines if two instances of <see cref="T:TextSpan"/> are different.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.Equals(Roslyn.Compilers.TextSpan)">
            <summary>
            Determines if current instance of <see cref="T:TextSpan"/> is equal to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.Equals(System.Object)">
            <summary>
            Determines if current instance of <see cref="T:TextSpan"/> is equal to another.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.GetHashCode">
            <summary>
            Produces a hash code for <see cref="T:TextSpan"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.ToString">
            <summary>
            Provides a string representation for <see cref="T:TextSpan"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextSpan.CompareTo(Roslyn.Compilers.TextSpan)">
            <summary>
            Compares current instance of <see cref="T:TextSpan"/> with another.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextSpan.Start">
            <summary>
            Start point of the Span
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextSpan.End">
            <summary>
            End of the span
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextSpan.Length">
            <summary>
            Length of the span
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.TextSpan.IsEmpty">
            <summary>
            Determines whether or not the span is empty
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TextUtilities">
            <summary>
            Holder for common Text Utility functions and values
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextUtilities.Create(System.Action{System.IO.TextWriter})">
            <summary>
            Create a new IText instance from a function that writes to a TextWriter
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextUtilities.GetStartAndLengthOfLineBreakEndingAt(Roslyn.Compilers.IText,System.Int32,System.Int32@,System.Int32@)">
            <summary>
            Return startLineBreak = index-1, lengthLineBreak = 2   if there is a \r\n at index-1
            Return startLineBreak = index,   lengthLineBreak = 1   if there is a 1-char newline at index
            Return startLineBreak = index+1, lengthLineBreak = 0   if there is no newline at index.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextUtilities.IsAnyLineBreakCharacter(System.Char)">
            <summary>
            Determine if the character in question is any line break character
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.TextUtilities.DetectEncodingAndDecode(System.IO.Stream)">
            The following encodings will be automatically detected: BigEndianUnicode, Unicode, UTF8
            (with or without byte order mark).  The default windows codepage will be used as a fallback.
        </member>
        <member name="F:Roslyn.Compilers.TextUtilities.NoEncoderFallback">
            <summary>
            We never indent to encode anything with this, but we need some value to pass to GetEncoding in TryDecodeUTF8NoBOM.
            All instances can share this object.
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TextUtilities.SimpleEncoderFallback">
            <summary>
            We never encode anything, but we need something to pass to GetEncoding
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TextUtilities.SimpleDecoderFallback">
            <summary>
            Simple decoder fallback (just used to detect if there was an error while decoding)
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TreeDumper">
            <summary>
            This is ONLY used id BoundNode.cs Debug method - Dump()
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.TreeDumperNode">
            <summary>
            This is ONLY used for debugging purpose
            </summary>
        </member>
        <member name="T:Roslyn.Compilers.AssemblyIdentity">
            <summary>
            Represents an identity of an assembly as defined by CLI metadata specification.
            </summary>
            <remarks>
            May represent assembly definition or assembly reference identity.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.GetDisplayName(System.Boolean)">
            <summary>
            Returns the display name of the assembly identity.
            </summary>
            <param name="fullKey">True if the full public key should be included in the name. Otherwise public key token is used.</param>
            <returns>The display name.</returns>
            <remarks>
            Characters ',', '=', '"', '\'', '\' occuring in the simple name is escaped by backslash in the display name.
            Any character '\t' is replaced by two characters '\' and 't',
            Any character '\n' is replaced by two characters '\' and 'n',
            Any character '\r' is replaced by two characters '\' and 'r',
            The assembly name in the display name is enclosed in double qoutes if it starts or ends with 
            a whitespace character (' ', '\t', '\r', '\n').
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.TryParseDisplayName(System.String,Roslyn.Compilers.AssemblyIdentity@)">
            <summary>
            Parses display name filling defaults for any basic properties that are missing (and thus ever producing a partial name).
            </summary>
            <param name="displayName">Display name.</param>
            <param name="identity">A full assembly identity.</param>
            <returns>True if display name parsed correctly.</returns>
            <exception cref="T:System.ArgumentNullException"><paramref name="displayName"/> is null.</exception>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.TryParseSimpleName(System.String,System.String@)">
            <summary>
            Parses simple name out of an assembly display name.
            </summary>
            <param name="displayName">Display name.</param>
            <param name="simpleName">Simple name.</param>
            <returns>True if successful.</returns>
            <exception cref="T:System.ArgumentNullException"><paramref name="displayName"/> is null.</exception>
            <remarks>
            The result is not equivalent to calling <see cref="M:TryParseDisplayName"/> and retrieving <see cref="P:Roslyn.Compilers.AssemblyIdentity.Name"/> property.
            This method might succeed even if the name is not well formed as it only parses a part of it.
            This method also succeeds in parsing some simple names that <see cref="M:TryParseDisplayName"/> rejects,
            for example a whitespace only name.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.FromAssemblyDefinition(System.String)">
            <summary>
            Reads assembly definition identity from given assembly file.
            </summary>
            <param name="path">Path to the assembly file.</param>
            <returns>Assembly definition identity.</returns>
            <remarks>
            Uses current working directory of the process if path is relative.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.FromAssemblyDefinition(System.Reflection.Assembly)">
            <summary>
            Retrieves assembly definition identity from given runtime assembly.
            </summary>
            <param name="assembly">The runtime assembly.</param>
            <returns>Assembly definition identity.</returns>
            <exception cref="T:System.ArgumentNullException"><paramref name="assembly"/> is null.</exception>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ToAssemblyName(System.Boolean)">
            <summary>
            Converts this identity to <see cref="T:System.Reflection.AssemblyName"/>.
            </summary>
            <param name="setCodeBase">
            True if the <see cref="P:System.Reflection.AssemblyName.CodeBase"/> property should be set based upon the value of <see cref="P:Roslyn.Compilers.AssemblyIdentity.Location"/>.
            </param>
            <returns>A new instance of <see cref="T:System.Reflection.AssemblyName"/>.</returns>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.MatchDefinition(Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Matches assembly reference identity against definition identity.
            </summary>
            <param name="definition">Definition identity.</param>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ReferenceMatchesDefinition(System.String,Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Compares assembly reference (partial) name with definition identity.
            </summary>
            <param name="referenceDisplayName">Partial or full assembly display name.</param>
            <param name="definition">Definition identity.</param>
            <returns>True if the reference name matches the definition name.</returns>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ReferenceMatchesDefinition(System.String,System.String)">
            <summary>
            Compares assembly reference (partial) name with definition name.
            </summary>
            <param name="referenceDisplayName">Partial or full assembly display name.</param>
            <param name="definitionFullDisplayName">Full assembly display name.</param>
            <returns>True if the reference name matches the definition name.</returns>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.IsEquivalent(Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Compares two assembly identities for equivalence.
            </summary>
            <param name="other">Assembly identitity.</param>
            <returns>True if this identity is equivalent to the <paramref name="other"/>.</returns>
            <remarks>
            Unifies Framework assemblies, doesn't unify versions of non-Framework assemblies.
            </remarks>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.MemberwiseEqual(Roslyn.Compilers.AssemblyIdentity,Roslyn.Compilers.AssemblyIdentity)">
            <summary>
            Returns true (false) if specified assembly identities are (not) equal 
            regardless of unification, retargeting or other assembly binding policies. 
            Returns null if these policies must be consulted to determine name equivalence.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.GetBestMatch(Roslyn.Compilers.AssemblyIdentity.IAssemblyName,System.Collections.Generic.IEnumerable{Roslyn.Compilers.AssemblyIdentity.IAssemblyName},System.String)">
            <summary>
            Selects the candidate assembly name that best matches given name and optionally culture.
            All candidate names must include versions and cultures.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ToAssemblyName(Roslyn.Compilers.AssemblyIdentity.IAssemblyName)">
            <summary>
            Converts <see cref="T:Roslyn.Compilers.AssemblyIdentity.IAssemblyName"/> to <see cref="T:System.Reflection.AssemblyName"/> with possibly missing name components.
            </summary>
            <returns>
            An <see cref="T:System.Reflection.AssemblyName"/> whose fields are be null if not present in <paramref name="nameObject"/>.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ToAssemblyIdentity(Roslyn.Compilers.AssemblyIdentity.IAssemblyName,System.String)">
            <summary>
            Converts <see cref="T:Roslyn.Compilers.AssemblyIdentity.IAssemblyName"/> to <see cref="T:System.Reflection.AssemblyName"/> with all metadata fields filled.
            </summary>
            <returns>
            Assembly name with Version, Culture and PublicKeyToken components filled in:
            "SimpleName, Version=#.#.#.#, Culture=XXX, PublicKeyToken=XXXXXXXXXXXXXXXX".
            In addition Retargetable flag and ContentType are set.
            </returns>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ToAssemblyNameObject(System.Reflection.AssemblyName)">
            <summary>
            Converts <see cref="T:System.Reflection.AssemblyName"/> to an equivalent <see cref="T:Roslyn.Compilers.AssemblyIdentity.IAssemblyName"/>.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.AssemblyIdentity.ToAssemblyNameObject(System.String)">
            <summary>
            Creates <see cref="T:Roslyn.Compilers.AssemblyIdentity.IAssemblyName"/> object by parsing given display name.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyIdentity.ContentType">
            <summary>
            Specifies assembly binding model for the assembly definition or reference, 
            that is how assembly references are matched to assembly definitions.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyIdentity.HasPublicKey">
            <summary>
            True if the assembly identity includes full public key.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyIdentity.PublicKey">
            <summary>
            Full public key or empty.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyIdentity.PublicKeyToken">
            <summary>
            Low 8 bytes of SHA1 hash of the public key, or empty.
            </summary>
        </member>
        <member name="P:Roslyn.Compilers.AssemblyIdentity.IsStrongName">
            <summary>
            True if the assembly identity has a strong name, ie. either a full public key or a token.
            False if <see cref="P:Roslyn.Compilers.AssemblyIdentity.ContentType"/> is <see cref="F:System.Reflection.AssemblyContentType.WindowsRuntime"/> regardless of key presence.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.AssemblyIdentity.MatchResult.NotEquivalent">
            <summary>
            Reference doesn't match definition.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.AssemblyIdentity.MatchResult.Equivalent">
            <summary>
            Strongly named reference matches strongly named definition (strong identity is identity with public key or token),
            Or weak reference matches weak definition.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.AssemblyIdentity.MatchResult.EquivalentAfterFrameworkUnification">
            <summary>
            Definition is a Framework assembly and the reference matches it after version unification.
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.AssemblyIdentity.MatchResult.EquivalentIgnoringVersion">
            <summary>
            Reference matches definition except for version (reference version is lower or higher than definition version).
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.Contract.Requires(System.Boolean,System.String)">
             <summary>
             Equivalent to Debug.Assert.  
            
             DevDiv 867813 covers removing this completely at a future date
             </summary>
        </member>
        <member name="M:Roslyn.Utilities.Contract.Assert(System.Boolean,System.String)">
             <summary>
             Equivalent to Debug.Assert.  
            
             DevDiv 867813 covers removing this completely at a future date
             </summary>
        </member>
        <member name="M:Roslyn.Utilities.Contract.Assume(System.Boolean,System.String)">
             <summary>
             Equivalent to Debug.Assert.  
            
             DevDiv 867813 covers removing this completely at a future date
             </summary>
        </member>
        <member name="M:Roslyn.Utilities.Contract.ThrowIfNull``1(``0,System.String)">
            <summary>
            Throws a non-accessible exception if the provided value is null.  This method executes in
            all builds
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.Contract.ThrowIfFalse(System.Boolean,System.String)">
            <summary>
            Throws a non-accessible exception if the provided value is false.  This method executes
            in all builds
            </summary>
        </member>
        <member name="M:Roslyn.Utilities.Contract.ThrowIfTrue(System.Boolean,System.String)">
            <summary>
            Throws a non-accessible exception if the provided value is true. This method executes in
            all builds.
            </summary>
        </member>
        <member name="M:Roslyn.Compilers.VersionHelper.TryParse(System.String,System.Version@)">
            <summary>
            sets as many fields as it can.
            </summary>
            <param name="s"></param>
            <param name="version"></param>
            <returns>True when the input was entirely parsable.</returns>
        </member>
        <member name="M:Roslyn.Compilers.WellKnownMembers.IsSynthesizedAttributeOptional(Roslyn.Compilers.WellKnownMember)">
            <summary>
            This function defines whether an attribute is optional or not.
            </summary>
            <param name="attributeMember">The attribute member.</param>
        </member>
        <member name="T:Roslyn.Compilers.WellKnownType">
            <summary>
            Ids of well known runtime types.
            Values should not intersect with SpecialType enum!
            </summary>
            <remarks></remarks>
        </member>
        <member name="F:Roslyn.Compilers.WellKnownTypes.First">
            <summary>
            First well known type in WellKnownType enum
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.WellKnownTypes.Count">
            <summary>
            Number of well known types in WellKnownType enum
            </summary>
        </member>
        <member name="F:Roslyn.Compilers.WellKnownTypes.metadataNames">
            <summary>
            Array of names for types.
            The names should correspond to ids from WellKnownType enum so
            that we could use ids to index into the array
            </summary>
            <remarks></remarks>
        </member>
    </members>
</doc>
tools\icsharp\ScriptCs.Contracts.dll
 
tools\icsharp\ScriptCs.Contracts.pdb
 
tools\icsharp\ScriptCs.Core.dll
 
tools\icsharp\ScriptCs.Core.pdb
 
tools\icsharp\ScriptCs.Engine.Mono.dll
 
tools\icsharp\ScriptCs.Engine.Mono.pdb
 
tools\icsharp\ScriptCs.Engine.Roslyn.dll
 
tools\icsharp\ScriptCs.Engine.Roslyn.pdb
 
tools\icsharp\scriptcs.exe
 
tools\icsharp\ScriptCs.Hosting.dll
 
tools\icsharp\ScriptCs.Hosting.pdb
 
tools\icsharp\scriptcs.pdb
 

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