diff --git a/.gitignore b/.gitignore
index 3e7c3d1..34c8dee 100644
--- a/.gitignore
+++ b/.gitignore
@@ -1,14 +1,388 @@
-obj
-bin
-_ReSharper.*
-csproj.user
-*.resharper.user
-*.resharper
+## Ignore Visual Studio temporary files, build results, and
+## files generated by popular Visual Studio add-ons.
+##
+## Get latest from https://github.com/github/gitignore/blob/master/VisualStudio.gitignore
+
+# User-specific files
+*.rsuser
 *.suo
-*.cache
-*~
-*.swp
-TestResults
-LocalTestRun.testrunconfig
-AutoMoq/TestResult
 *.user
+*.userosscache
+*.sln.docstates
+
+# User-specific files (MonoDevelop/Xamarin Studio)
+*.userprefs
+
+# Mono auto generated files
+mono_crash.*
+
+# Build results
+[Dd]ebug/
+[Dd]ebugPublic/
+[Rr]elease/
+[Rr]eleases/
+x64/
+x86/
+[Ww][Ii][Nn]32/
+[Aa][Rr][Mm]/
+[Aa][Rr][Mm]64/
+bld/
+[Bb]in/
+[Oo]bj/
+[Ll]og/
+[Ll]ogs/
+
+# Visual Studio 2015/2017 cache/options directory
+.vs/
+# Uncomment if you have tasks that create the project's static files in wwwroot
+#wwwroot/
+
+# Visual Studio 2017 auto generated files
+Generated\ Files/
+
+# MSTest test Results
+[Tt]est[Rr]esult*/
+[Bb]uild[Ll]og.*
+
+# NUnit
+*.VisualState.xml
+TestResult.xml
+nunit-*.xml
+
+# Build Results of an ATL Project
+[Dd]ebugPS/
+[Rr]eleasePS/
+dlldata.c
+
+# Benchmark Results
+BenchmarkDotNet.Artifacts/
+
+# .NET Core
+project.lock.json
+project.fragment.lock.json
+artifacts/
+
+# ASP.NET Scaffolding
+ScaffoldingReadMe.txt
+
+# StyleCop
+StyleCopReport.xml
+
+# Files built by Visual Studio
+*_i.c
+*_p.c
+*_h.h
+*.ilk
+*.meta
+*.obj
+*.iobj
+*.pch
+*.pdb
+*.ipdb
+*.pgc
+*.pgd
+*.rsp
+*.sbr
+*.tlb
+*.tli
+*.tlh
+*.tmp
+*.tmp_proj
+*_wpftmp.csproj
+*.log
+*.tlog
+*.vspscc
+*.vssscc
+.builds
+*.pidb
+*.svclog
+*.scc
+
+# Chutzpah Test files
+_Chutzpah*
+
+# Visual C++ cache files
+ipch/
+*.aps
+*.ncb
+*.opendb
+*.opensdf
+*.sdf
+*.cachefile
+*.VC.db
+*.VC.VC.opendb
+
+# Visual Studio profiler
+*.psess
+*.vsp
+*.vspx
+*.sap
+
+# Visual Studio Trace Files
+*.e2e
+
+# TFS 2012 Local Workspace
+$tf/
+
+# Guidance Automation Toolkit
+*.gpState
+
+# ReSharper is a .NET coding add-in
+_ReSharper*/
+*.[Rr]e[Ss]harper
+*.DotSettings.user
+
+# TeamCity is a build add-in
+_TeamCity*
+
+# DotCover is a Code Coverage Tool
+*.dotCover
+
+# AxoCover is a Code Coverage Tool
+.axoCover/*
+!.axoCover/settings.json
+
+# Coverlet is a free, cross platform Code Coverage Tool
+coverage*.json
+coverage*.xml
+coverage*.info
+
+# Visual Studio code coverage results
+*.coverage
+*.coveragexml
+
+# NCrunch
+_NCrunch_*
+.*crunch*.local.xml
+nCrunchTemp_*
+
+# MightyMoose
+*.mm.*
+AutoTest.Net/
+
+# Web workbench (sass)
+.sass-cache/
+
+# Installshield output folder
+[Ee]xpress/
+
+# DocProject is a documentation generator add-in
+DocProject/buildhelp/
+DocProject/Help/*.HxT
+DocProject/Help/*.HxC
+DocProject/Help/*.hhc
+DocProject/Help/*.hhk
+DocProject/Help/*.hhp
+DocProject/Help/Html2
+DocProject/Help/html
+
+# Click-Once directory
+publish/
+
+# Publish Web Output
+*.[Pp]ublish.xml
+*.azurePubxml
+# Note: Comment the next line if you want to checkin your web deploy settings,
+# but database connection strings (with potential passwords) will be unencrypted
+*.pubxml
+*.publishproj
+
+# Microsoft Azure Web App publish settings. Comment the next line if you want to
+# checkin your Azure Web App publish settings, but sensitive information contained
+# in these scripts will be unencrypted
+PublishScripts/
+
+# NuGet Packages
+*.nupkg
+# NuGet Symbol Packages
+*.snupkg
+# The packages folder can be ignored because of Package Restore
+**/[Pp]ackages/*
+# except build/, which is used as an MSBuild target.
+!**/[Pp]ackages/build/
+# Uncomment if necessary however generally it will be regenerated when needed
+#!**/[Pp]ackages/repositories.config
+# NuGet v3's project.json files produces more ignorable files
+*.nuget.props
+*.nuget.targets
+
+# Nuget personal access tokens and Credentials
+nuget.config
+
+# Microsoft Azure Build Output
+csx/
+*.build.csdef
+
+# Microsoft Azure Emulator
+ecf/
+rcf/
+
+# Windows Store app package directories and files
+AppPackages/
+BundleArtifacts/
+Package.StoreAssociation.xml
+_pkginfo.txt
+*.appx
+*.appxbundle
+*.appxupload
+
+# Visual Studio cache files
+# files ending in .cache can be ignored
+*.[Cc]ache
+# but keep track of directories ending in .cache
+!?*.[Cc]ache/
+
+# Others
+ClientBin/
+~$*
+*~
+*.dbmdl
+*.dbproj.schemaview
+*.jfm
+*.pfx
+*.publishsettings
+orleans.codegen.cs
+
+# Including strong name files can present a security risk
+# (https://github.com/github/gitignore/pull/2483#issue-259490424)
+#*.snk
+
+# Since there are multiple workflows, uncomment next line to ignore bower_components
+# (https://github.com/github/gitignore/pull/1529#issuecomment-104372622)
+#bower_components/
+
+# RIA/Silverlight projects
+Generated_Code/
+
+# Backup & report files from converting an old project file
+# to a newer Visual Studio version. Backup files are not needed,
+# because we have git ;-)
+_UpgradeReport_Files/
+Backup*/
+UpgradeLog*.XML
+UpgradeLog*.htm
+ServiceFabricBackup/
+*.rptproj.bak
+
+# SQL Server files
+*.mdf
+*.ldf
+*.ndf
+
+# Business Intelligence projects
+*.rdl.data
+*.bim.layout
+*.bim_*.settings
+*.rptproj.rsuser
+*- [Bb]ackup.rdl
+*- [Bb]ackup ([0-9]).rdl
+*- [Bb]ackup ([0-9][0-9]).rdl
+
+# Microsoft Fakes
+FakesAssemblies/
+
+# GhostDoc plugin setting file
+*.GhostDoc.xml
+
+# Node.js Tools for Visual Studio
+.ntvs_analysis.dat
+node_modules/
+
+# Visual Studio 6 build log
+*.plg
+
+# Visual Studio 6 workspace options file
+*.opt
+
+# Visual Studio 6 auto-generated workspace file (contains which files were open etc.)
+*.vbw
+
+# Visual Studio LightSwitch build output
+**/*.HTMLClient/GeneratedArtifacts
+**/*.DesktopClient/GeneratedArtifacts
+**/*.DesktopClient/ModelManifest.xml
+**/*.Server/GeneratedArtifacts
+**/*.Server/ModelManifest.xml
+_Pvt_Extensions
+
+# Paket dependency manager
+.paket/paket.exe
+paket-files/
+
+# FAKE - F# Make
+.fake/
+
+# CodeRush personal settings
+.cr/personal
+
+# Python Tools for Visual Studio (PTVS)
+__pycache__/
+*.pyc
+
+# Cake - Uncomment if you are using it
+# tools/**
+# !tools/packages.config
+
+# Tabs Studio
+*.tss
+
+# Telerik's JustMock configuration file
+*.jmconfig
+
+# BizTalk build output
+*.btp.cs
+*.btm.cs
+*.odx.cs
+*.xsd.cs
+
+# OpenCover UI analysis results
+OpenCover/
+
+# Azure Stream Analytics local run output
+ASALocalRun/
+
+# MSBuild Binary and Structured Log
+*.binlog
+
+# NVidia Nsight GPU debugger configuration file
+*.nvuser
+
+# MFractors (Xamarin productivity tool) working folder
+.mfractor/
+
+# Local History for Visual Studio
+.localhistory/
+
+# BeatPulse healthcheck temp database
+healthchecksdb
+
+# Backup folder for Package Reference Convert tool in Visual Studio 2017
+MigrationBackup/
+
+# Ionide (cross platform F# VS Code tools) working folder
+.ionide/
+
+# Fody - auto-generated XML schema
+FodyWeavers.xsd
+
+# VS Code files for those working on multiple tools
+.vscode/*
+!.vscode/settings.json
+!.vscode/tasks.json
+!.vscode/launch.json
+!.vscode/extensions.json
+*.code-workspace
+
+# Local History for Visual Studio Code
+.history/
+
+# Windows Installer files from build outputs
+*.cab
+*.msi
+*.msix
+*.msm
+*.msp
+
+# JetBrains Rider
+.idea/
+*.sln.iml
diff --git a/nuget_notes.txt b/nuget_notes.txt
index c26dc31..19c9fcf 100644
--- a/nuget_notes.txt
+++ b/nuget_notes.txt
@@ -11,4 +11,4 @@ Open Visual Studio, clean the solution, then build a new Release Build.
 
 Build the nuget package:
 
-nuget pack src/AutoMoq/AutoMoq.csproj -Prop Configuration=Release
+nuget pack src/AutoMoq/AutoMoq.csproj
diff --git a/readme.md b/readme.md
index 6122b59..7d073c3 100644
--- a/readme.md
+++ b/readme.md
@@ -1,5 +1,12 @@
+Fork of the AutoMoqer that has updated dependencies (such as Moq).
+
+Available at Nuget (fork): [![NuGet](https://buildstats.info/nuget/dariusz-wozniak.AutoMoq)](https://www.nuget.org/packages/dariusz-wozniak.AutoMoq/)
+
+Original readme just below the line 👇
+
+---
+
 # AutoMoq
-[![Build Status](https://travis-ci.org/darrencauthon/AutoMoq.svg?branch=master)](https://travis-ci.org/darrencauthon/AutoMoq)
 
 AutoMoqer is an "auto-mocking" container that creates objects for you. Just tell it what class to create and it will create it.
 
diff --git a/src/AutoMoq.TestFixture.Samples/AutoMoq.TestFixture.Samples.csproj b/src/AutoMoq.TestFixture.Samples/AutoMoq.TestFixture.Samples.csproj
index 4300a94..90e1914 100644
--- a/src/AutoMoq.TestFixture.Samples/AutoMoq.TestFixture.Samples.csproj
+++ b/src/AutoMoq.TestFixture.Samples/AutoMoq.TestFixture.Samples.csproj
@@ -1,5 +1,6 @@
 <?xml version="1.0" encoding="utf-8"?>
 <Project ToolsVersion="12.0" DefaultTargets="Build" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
+  <Import Project="..\packages\NUnit.3.13.2\build\NUnit.props" Condition="Exists('..\packages\NUnit.3.13.2\build\NUnit.props')" />
   <PropertyGroup>
     <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration>
     <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform>
@@ -10,9 +11,11 @@
     <AppDesignerFolder>Properties</AppDesignerFolder>
     <RootNamespace>AutoMoq.TestFixture.Samples</RootNamespace>
     <AssemblyName>AutoMoq.TestFixture.Samples</AssemblyName>
-    <TargetFrameworkVersion>v4.5</TargetFrameworkVersion>
+    <TargetFrameworkVersion>v4.6</TargetFrameworkVersion>
     <FileAlignment>512</FileAlignment>
     <TargetFrameworkProfile />
+    <NuGetPackageImportStamp>
+    </NuGetPackageImportStamp>
   </PropertyGroup>
   <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' ">
     <DebugSymbols>true</DebugSymbols>
@@ -34,20 +37,24 @@
     <Prefer32Bit>false</Prefer32Bit>
   </PropertyGroup>
   <ItemGroup>
-    <Reference Include="Moq, Version=4.0.10827.0, Culture=neutral, PublicKeyToken=69f491c39445e920, processorArchitecture=MSIL">
-      <HintPath>..\packages\Moq.4.0.10827\lib\NET35\Moq.dll</HintPath>
+    <Reference Include="Castle.Core, Version=4.0.0.0, Culture=neutral, PublicKeyToken=407dd0808d44fbdc, processorArchitecture=MSIL">
+      <HintPath>..\packages\Castle.Core.4.4.1\lib\net45\Castle.Core.dll</HintPath>
     </Reference>
-    <Reference Include="nunit.framework">
-      <HintPath>..\packages\NUnit.2.5.9.10348\lib\nunit.framework.dll</HintPath>
+    <Reference Include="Moq, Version=4.16.0.0, Culture=neutral, PublicKeyToken=69f491c39445e920, processorArchitecture=MSIL">
+      <HintPath>..\packages\Moq.4.16.1\lib\net45\Moq.dll</HintPath>
     </Reference>
-    <Reference Include="nunit.mocks">
-      <HintPath>..\packages\NUnit.2.5.9.10348\lib\nunit.mocks.dll</HintPath>
-    </Reference>
-    <Reference Include="pnunit.framework">
-      <HintPath>..\packages\NUnit.2.5.9.10348\lib\pnunit.framework.dll</HintPath>
+    <Reference Include="nunit.framework, Version=3.13.2.0, Culture=neutral, PublicKeyToken=2638cd05610744eb, processorArchitecture=MSIL">
+      <HintPath>..\packages\NUnit.3.13.2\lib\net45\nunit.framework.dll</HintPath>
     </Reference>
     <Reference Include="System" />
+    <Reference Include="System.Configuration" />
     <Reference Include="System.Core" />
+    <Reference Include="System.Runtime.CompilerServices.Unsafe, Version=5.0.0.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a, processorArchitecture=MSIL">
+      <HintPath>..\packages\System.Runtime.CompilerServices.Unsafe.5.0.0\lib\net45\System.Runtime.CompilerServices.Unsafe.dll</HintPath>
+    </Reference>
+    <Reference Include="System.Threading.Tasks.Extensions, Version=4.2.0.1, Culture=neutral, PublicKeyToken=cc7b13ffcd2ddd51, processorArchitecture=MSIL">
+      <HintPath>..\packages\System.Threading.Tasks.Extensions.4.5.4\lib\portable-net45+win8+wp8+wpa81\System.Threading.Tasks.Extensions.dll</HintPath>
+    </Reference>
     <Reference Include="System.Web.Mvc, Version=2.0.0.0, Culture=neutral, PublicKeyToken=31bf3856ad364e35, processorArchitecture=MSIL">
       <SpecificVersion>False</SpecificVersion>
       <HintPath>..\..\lib\System.Web.Mvc.dll</HintPath>
@@ -62,9 +69,6 @@
     <Compile Include="Properties\AssemblyInfo.cs" />
     <Compile Include="Tests\AccountControllerTests.cs" />
   </ItemGroup>
-  <ItemGroup>
-    <None Include="packages.config" />
-  </ItemGroup>
   <ItemGroup>
     <ProjectReference Include="..\AutoMoq\AutoMoq.csproj">
       <Project>{9A4C2524-6E70-4937-BF27-2A449F51D7E9}</Project>
@@ -76,7 +80,17 @@
       <SubType>ASPXCodeBehind</SubType>
     </Content>
   </ItemGroup>
+  <ItemGroup>
+    <None Include="app.config" />
+    <None Include="packages.config" />
+  </ItemGroup>
   <Import Project="$(MSBuildToolsPath)\Microsoft.CSharp.targets" />
+  <Target Name="EnsureNuGetPackageBuildImports" BeforeTargets="PrepareForBuild">
+    <PropertyGroup>
+      <ErrorText>This project references NuGet package(s) that are missing on this computer. Use NuGet Package Restore to download them.  For more information, see http://go.microsoft.com/fwlink/?LinkID=322105. The missing file is {0}.</ErrorText>
+    </PropertyGroup>
+    <Error Condition="!Exists('..\packages\NUnit.3.13.2\build\NUnit.props')" Text="$([System.String]::Format('$(ErrorText)', '..\packages\NUnit.3.13.2\build\NUnit.props'))" />
+  </Target>
   <!-- To modify your build process, add your task inside one of the targets below and uncomment it. 
        Other similar extension points exist, see Microsoft.Common.targets.
   <Target Name="BeforeBuild">
diff --git a/src/AutoMoq.TestFixture.Samples/app.config b/src/AutoMoq.TestFixture.Samples/app.config
new file mode 100644
index 0000000..5cc03ca
--- /dev/null
+++ b/src/AutoMoq.TestFixture.Samples/app.config
@@ -0,0 +1,15 @@
+<?xml version="1.0" encoding="utf-8"?>
+<configuration>
+  <runtime>
+    <assemblyBinding xmlns="urn:schemas-microsoft-com:asm.v1">
+      <dependentAssembly>
+        <assemblyIdentity name="System.Threading.Tasks.Extensions" publicKeyToken="cc7b13ffcd2ddd51" culture="neutral"/>
+        <bindingRedirect oldVersion="0.0.0.0-4.2.0.1" newVersion="4.2.0.1"/>
+      </dependentAssembly>
+      <dependentAssembly>
+        <assemblyIdentity name="System.Runtime.CompilerServices.Unsafe" publicKeyToken="b03f5f7f11d50a3a" culture="neutral"/>
+        <bindingRedirect oldVersion="0.0.0.0-5.0.0.0" newVersion="5.0.0.0"/>
+      </dependentAssembly>
+    </assemblyBinding>
+  </runtime>
+<startup><supportedRuntime version="v4.0" sku=".NETFramework,Version=v4.6"/></startup></configuration>
diff --git a/src/AutoMoq.TestFixture.Samples/packages.config b/src/AutoMoq.TestFixture.Samples/packages.config
index 2f534ee..aac9a61 100644
--- a/src/AutoMoq.TestFixture.Samples/packages.config
+++ b/src/AutoMoq.TestFixture.Samples/packages.config
@@ -1,5 +1,8 @@
 <?xml version="1.0" encoding="utf-8"?>
 <packages>
-  <package id="NUnit" version="2.5.9.10348" />
-  <package id="Moq" version="4.0.10827" requireReinstallation="true" />
+  <package id="Castle.Core" version="4.4.1" targetFramework="net46" />
+  <package id="Moq" version="4.16.1" targetFramework="net46" />
+  <package id="NUnit" version="3.13.2" targetFramework="net46" />
+  <package id="System.Runtime.CompilerServices.Unsafe" version="5.0.0" targetFramework="net46" />
+  <package id="System.Threading.Tasks.Extensions" version="4.5.4" targetFramework="net46" />
 </packages>
\ No newline at end of file
diff --git a/src/AutoMoq.Tests/AutoMoq.Tests.csproj b/src/AutoMoq.Tests/AutoMoq.Tests.csproj
index 4cb2e8b..6ff0785 100644
--- a/src/AutoMoq.Tests/AutoMoq.Tests.csproj
+++ b/src/AutoMoq.Tests/AutoMoq.Tests.csproj
@@ -1,5 +1,6 @@
 <?xml version="1.0" encoding="utf-8"?>
 <Project ToolsVersion="12.0" DefaultTargets="Build" xmlns="http://schemas.microsoft.com/developer/msbuild/2003">
+  <Import Project="..\packages\NUnit.3.13.2\build\NUnit.props" Condition="Exists('..\packages\NUnit.3.13.2\build\NUnit.props')" />
   <PropertyGroup>
     <Configuration Condition=" '$(Configuration)' == '' ">Debug</Configuration>
     <Platform Condition=" '$(Platform)' == '' ">AnyCPU</Platform>
@@ -10,13 +11,15 @@
     <AppDesignerFolder>Properties</AppDesignerFolder>
     <RootNamespace>AutoMoq.Tests</RootNamespace>
     <AssemblyName>AutoMoq.Tests</AssemblyName>
-    <TargetFrameworkVersion>v4.5</TargetFrameworkVersion>
+    <TargetFrameworkVersion>v4.6</TargetFrameworkVersion>
     <FileAlignment>512</FileAlignment>
     <FileUpgradeFlags>
     </FileUpgradeFlags>
     <OldToolsVersion>3.5</OldToolsVersion>
     <UpgradeBackupLocation />
     <TargetFrameworkProfile />
+    <NuGetPackageImportStamp>
+    </NuGetPackageImportStamp>
   </PropertyGroup>
   <PropertyGroup Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' ">
     <DebugSymbols>true</DebugSymbols>
@@ -38,44 +41,42 @@
     <Prefer32Bit>false</Prefer32Bit>
   </PropertyGroup>
   <ItemGroup>
-    <Reference Include="Microsoft.Practices.ServiceLocation, Version=1.3.0.0, Culture=neutral, PublicKeyToken=31bf3856ad364e35, processorArchitecture=MSIL">
-      <HintPath>..\packages\CommonServiceLocator.1.3\lib\portable-net4+sl5+netcore45+wpa81+wp8\Microsoft.Practices.ServiceLocation.dll</HintPath>
-      <Private>True</Private>
+    <Reference Include="Castle.Core, Version=4.0.0.0, Culture=neutral, PublicKeyToken=407dd0808d44fbdc, processorArchitecture=MSIL">
+      <HintPath>..\packages\Castle.Core.4.4.1\lib\net45\Castle.Core.dll</HintPath>
+    </Reference>
+    <Reference Include="CommonServiceLocator, Version=2.0.6.0, Culture=neutral, PublicKeyToken=489b6accfaf20ef0, processorArchitecture=MSIL">
+      <HintPath>..\packages\CommonServiceLocator.2.0.6\lib\net45\CommonServiceLocator.dll</HintPath>
     </Reference>
     <Reference Include="Microsoft.Practices.Unity, Version=4.0.0.0, Culture=neutral, PublicKeyToken=6d32ff45e0ccc69f, processorArchitecture=MSIL">
       <HintPath>..\packages\Unity.4.0.1\lib\net45\Microsoft.Practices.Unity.dll</HintPath>
-      <Private>True</Private>
     </Reference>
     <Reference Include="Microsoft.Practices.Unity.Configuration, Version=4.0.0.0, Culture=neutral, PublicKeyToken=6d32ff45e0ccc69f, processorArchitecture=MSIL">
       <HintPath>..\packages\Unity.4.0.1\lib\net45\Microsoft.Practices.Unity.Configuration.dll</HintPath>
-      <Private>True</Private>
     </Reference>
     <Reference Include="Microsoft.Practices.Unity.RegistrationByConvention, Version=4.0.0.0, Culture=neutral, PublicKeyToken=6d32ff45e0ccc69f, processorArchitecture=MSIL">
       <HintPath>..\packages\Unity.4.0.1\lib\net45\Microsoft.Practices.Unity.RegistrationByConvention.dll</HintPath>
-      <Private>True</Private>
-    </Reference>
-    <Reference Include="Moq">
-      <HintPath>..\packages\Moq.4.0.10827\lib\NET40\Moq.dll</HintPath>
     </Reference>
-    <Reference Include="nunit.framework, Version=2.5.9.10348, Culture=neutral, PublicKeyToken=96d09a1eb7f44a77, processorArchitecture=MSIL">
-      <SpecificVersion>False</SpecificVersion>
-      <HintPath>..\packages\NUnit.2.5.9.10348\lib\nunit.framework.dll</HintPath>
+    <Reference Include="Moq, Version=4.16.0.0, Culture=neutral, PublicKeyToken=69f491c39445e920, processorArchitecture=MSIL">
+      <HintPath>..\packages\Moq.4.16.1\lib\net45\Moq.dll</HintPath>
     </Reference>
-    <Reference Include="nunit.mocks, Version=2.5.9.10348, Culture=neutral, PublicKeyToken=96d09a1eb7f44a77, processorArchitecture=MSIL">
-      <SpecificVersion>False</SpecificVersion>
-      <HintPath>..\packages\NUnit.2.5.9.10348\lib\nunit.mocks.dll</HintPath>
+    <Reference Include="nunit.framework, Version=3.13.2.0, Culture=neutral, PublicKeyToken=2638cd05610744eb, processorArchitecture=MSIL">
+      <HintPath>..\packages\NUnit.3.13.2\lib\net45\nunit.framework.dll</HintPath>
     </Reference>
-    <Reference Include="pnunit.framework">
-      <HintPath>..\packages\NUnit.2.5.9.10348\lib\pnunit.framework.dll</HintPath>
-    </Reference>
-    <Reference Include="Should">
-      <HintPath>..\packages\Should.1.1.12.0\lib\Should.dll</HintPath>
+    <Reference Include="Should, Version=1.0.0.0, Culture=neutral, processorArchitecture=MSIL">
+      <HintPath>..\packages\Should.1.1.20\lib\Should.dll</HintPath>
     </Reference>
     <Reference Include="System" />
+    <Reference Include="System.Configuration" />
     <Reference Include="System.Core">
       <RequiredTargetFramework>3.5</RequiredTargetFramework>
     </Reference>
     <Reference Include="System.Data" />
+    <Reference Include="System.Runtime.CompilerServices.Unsafe, Version=5.0.0.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a, processorArchitecture=MSIL">
+      <HintPath>..\packages\System.Runtime.CompilerServices.Unsafe.5.0.0\lib\net45\System.Runtime.CompilerServices.Unsafe.dll</HintPath>
+    </Reference>
+    <Reference Include="System.Threading.Tasks.Extensions, Version=4.2.0.1, Culture=neutral, PublicKeyToken=cc7b13ffcd2ddd51, processorArchitecture=MSIL">
+      <HintPath>..\packages\System.Threading.Tasks.Extensions.4.5.4\lib\portable-net45+win8+wp8+wpa81\System.Threading.Tasks.Extensions.dll</HintPath>
+    </Reference>
     <Reference Include="System.Web" />
     <Reference Include="System.Web.Abstractions" />
     <Reference Include="System.Xml" />
@@ -101,14 +102,19 @@
     </ProjectReference>
   </ItemGroup>
   <ItemGroup>
-    <None Include="packages.config">
-      <SubType>Designer</SubType>
-    </None>
+    <Service Include="{82A7F48D-3B50-4B1E-B82E-3ADA8210C358}" />
   </ItemGroup>
   <ItemGroup>
-    <Service Include="{82A7F48D-3B50-4B1E-B82E-3ADA8210C358}" />
+    <None Include="app.config" />
+    <None Include="packages.config" />
   </ItemGroup>
   <Import Project="$(MSBuildBinPath)\Microsoft.CSharp.targets" />
+  <Target Name="EnsureNuGetPackageBuildImports" BeforeTargets="PrepareForBuild">
+    <PropertyGroup>
+      <ErrorText>This project references NuGet package(s) that are missing on this computer. Use NuGet Package Restore to download them.  For more information, see http://go.microsoft.com/fwlink/?LinkID=322105. The missing file is {0}.</ErrorText>
+    </PropertyGroup>
+    <Error Condition="!Exists('..\packages\NUnit.3.13.2\build\NUnit.props')" Text="$([System.String]::Format('$(ErrorText)', '..\packages\NUnit.3.13.2\build\NUnit.props'))" />
+  </Target>
   <!-- To modify your build process, add your task inside one of the targets below and uncomment it. 
        Other similar extension points exist, see Microsoft.Common.targets.
   <Target Name="BeforeBuild">
diff --git a/src/AutoMoq.Tests/app.config b/src/AutoMoq.Tests/app.config
new file mode 100644
index 0000000..5cc03ca
--- /dev/null
+++ b/src/AutoMoq.Tests/app.config
@@ -0,0 +1,15 @@
+<?xml version="1.0" encoding="utf-8"?>
+<configuration>
+  <runtime>
+    <assemblyBinding xmlns="urn:schemas-microsoft-com:asm.v1">
+      <dependentAssembly>
+        <assemblyIdentity name="System.Threading.Tasks.Extensions" publicKeyToken="cc7b13ffcd2ddd51" culture="neutral"/>
+        <bindingRedirect oldVersion="0.0.0.0-4.2.0.1" newVersion="4.2.0.1"/>
+      </dependentAssembly>
+      <dependentAssembly>
+        <assemblyIdentity name="System.Runtime.CompilerServices.Unsafe" publicKeyToken="b03f5f7f11d50a3a" culture="neutral"/>
+        <bindingRedirect oldVersion="0.0.0.0-5.0.0.0" newVersion="5.0.0.0"/>
+      </dependentAssembly>
+    </assemblyBinding>
+  </runtime>
+<startup><supportedRuntime version="v4.0" sku=".NETFramework,Version=v4.6"/></startup></configuration>
diff --git a/src/AutoMoq.Tests/packages.config b/src/AutoMoq.Tests/packages.config
index 6e2b72f..2851d7c 100644
--- a/src/AutoMoq.Tests/packages.config
+++ b/src/AutoMoq.Tests/packages.config
@@ -1,8 +1,11 @@
 <?xml version="1.0" encoding="utf-8"?>
 <packages>
-  <package id="CommonServiceLocator" version="1.3" targetFramework="net45" />
-  <package id="Moq" version="4.0.10827" requireReinstallation="true" />
-  <package id="NUnit" version="2.5.9.10348" />
-  <package id="Should" version="1.1.12.0" />
-  <package id="Unity" version="4.0.1" targetFramework="net45" />
+  <package id="Castle.Core" version="4.4.1" targetFramework="net46" />
+  <package id="CommonServiceLocator" version="2.0.6" targetFramework="net46" requireReinstallation="true" />
+  <package id="Moq" version="4.16.1" targetFramework="net46" />
+  <package id="NUnit" version="3.13.2" targetFramework="net46" />
+  <package id="Should" version="1.1.20" targetFramework="net46" />
+  <package id="System.Runtime.CompilerServices.Unsafe" version="5.0.0" targetFramework="net46" />
+  <package id="System.Threading.Tasks.Extensions" version="4.5.4" targetFramework="net46" />
+  <package id="Unity" version="4.0.1" targetFramework="net46" />
 </packages>
\ No newline at end of file
diff --git a/src/AutoMoq/AutoMoq.csproj b/src/AutoMoq/AutoMoq.csproj
index c1afa92..87fc9e4 100644
--- a/src/AutoMoq/AutoMoq.csproj
+++ b/src/AutoMoq/AutoMoq.csproj
@@ -10,7 +10,7 @@
     <AppDesignerFolder>Properties</AppDesignerFolder>
     <RootNamespace>AutoMoq</RootNamespace>
     <AssemblyName>AutoMoq</AssemblyName>
-    <TargetFrameworkVersion>v4.5</TargetFrameworkVersion>
+    <TargetFrameworkVersion>v4.6</TargetFrameworkVersion>
     <FileAlignment>512</FileAlignment>
     <FileUpgradeFlags>
     </FileUpgradeFlags>
@@ -38,30 +38,35 @@
     <Prefer32Bit>false</Prefer32Bit>
   </PropertyGroup>
   <ItemGroup>
-    <Reference Include="Microsoft.CSharp" />
-    <Reference Include="Microsoft.Practices.ServiceLocation, Version=1.3.0.0, Culture=neutral, PublicKeyToken=31bf3856ad364e35, processorArchitecture=MSIL">
-      <HintPath>..\packages\CommonServiceLocator.1.3\lib\portable-net4+sl5+netcore45+wpa81+wp8\Microsoft.Practices.ServiceLocation.dll</HintPath>
-      <Private>True</Private>
+    <Reference Include="Castle.Core, Version=4.0.0.0, Culture=neutral, PublicKeyToken=407dd0808d44fbdc, processorArchitecture=MSIL">
+      <HintPath>..\packages\Castle.Core.4.4.1\lib\net45\Castle.Core.dll</HintPath>
+    </Reference>
+    <Reference Include="CommonServiceLocator, Version=2.0.6.0, Culture=neutral, PublicKeyToken=489b6accfaf20ef0, processorArchitecture=MSIL">
+      <HintPath>..\packages\CommonServiceLocator.2.0.6\lib\net45\CommonServiceLocator.dll</HintPath>
     </Reference>
     <Reference Include="Microsoft.Practices.Unity, Version=4.0.0.0, Culture=neutral, PublicKeyToken=6d32ff45e0ccc69f, processorArchitecture=MSIL">
       <HintPath>..\packages\Unity.4.0.1\lib\net45\Microsoft.Practices.Unity.dll</HintPath>
-      <Private>True</Private>
     </Reference>
     <Reference Include="Microsoft.Practices.Unity.Configuration, Version=4.0.0.0, Culture=neutral, PublicKeyToken=6d32ff45e0ccc69f, processorArchitecture=MSIL">
       <HintPath>..\packages\Unity.4.0.1\lib\net45\Microsoft.Practices.Unity.Configuration.dll</HintPath>
-      <Private>True</Private>
     </Reference>
     <Reference Include="Microsoft.Practices.Unity.RegistrationByConvention, Version=4.0.0.0, Culture=neutral, PublicKeyToken=6d32ff45e0ccc69f, processorArchitecture=MSIL">
       <HintPath>..\packages\Unity.4.0.1\lib\net45\Microsoft.Practices.Unity.RegistrationByConvention.dll</HintPath>
-      <Private>True</Private>
     </Reference>
-    <Reference Include="Moq">
-      <HintPath>..\packages\Moq.4.0.10827\lib\NET35\Moq.dll</HintPath>
+    <Reference Include="Moq, Version=4.16.0.0, Culture=neutral, PublicKeyToken=69f491c39445e920, processorArchitecture=MSIL">
+      <HintPath>..\packages\Moq.4.16.1\lib\net45\Moq.dll</HintPath>
     </Reference>
     <Reference Include="System" />
+    <Reference Include="System.Configuration" />
     <Reference Include="System.Core">
       <RequiredTargetFramework>3.5</RequiredTargetFramework>
     </Reference>
+    <Reference Include="System.Runtime.CompilerServices.Unsafe, Version=5.0.0.0, Culture=neutral, PublicKeyToken=b03f5f7f11d50a3a, processorArchitecture=MSIL">
+      <HintPath>..\packages\System.Runtime.CompilerServices.Unsafe.5.0.0\lib\net45\System.Runtime.CompilerServices.Unsafe.dll</HintPath>
+    </Reference>
+    <Reference Include="System.Threading.Tasks.Extensions, Version=4.2.0.1, Culture=neutral, PublicKeyToken=cc7b13ffcd2ddd51, processorArchitecture=MSIL">
+      <HintPath>..\packages\System.Threading.Tasks.Extensions.4.5.4\lib\portable-net45+win8+wp8+wpa81\System.Threading.Tasks.Extensions.dll</HintPath>
+    </Reference>
     <Reference Include="System.Xml.Linq">
       <RequiredTargetFramework>3.5</RequiredTargetFramework>
     </Reference>
@@ -87,9 +92,9 @@
     <Content Include="License.txt" />
   </ItemGroup>
   <ItemGroup>
-    <None Include="packages.config">
-      <SubType>Designer</SubType>
-    </None>
+    <None Include="app.config" />
+    <None Include="AutoMoq.nuspec" />
+    <None Include="packages.config" />
   </ItemGroup>
   <Import Project="$(MSBuildToolsPath)\Microsoft.CSharp.targets" />
   <!-- To modify your build process, add your task inside one of the targets below and uncomment it. 
diff --git a/src/AutoMoq/AutoMoq.nuspec b/src/AutoMoq/AutoMoq.nuspec
index a2fef61..4552298 100644
--- a/src/AutoMoq/AutoMoq.nuspec
+++ b/src/AutoMoq/AutoMoq.nuspec
@@ -1,21 +1,17 @@
 <?xml version="1.0"?>
 <package >
   <metadata>
-    <id>AutoMoq</id>
-    <version>2.0.0.0</version>
-    <title>AutoMoq</title>
+    <id>dariusz-wozniak.AutoMoq</id>
+    <version>2.1.1.0</version>
+    <title>dariusz-wozniak.AutoMoq</title>
     <authors>Darren Cauthon</authors>
     <owners>Darren Cauthon</owners>
     <licenseUrl>https://github.com/darrencauthon/AutoMoq/blob/master/license.txt</licenseUrl>
-    <projectUrl>https://github.com/darrencauthon/AutoMoq</projectUrl>
+    <projectUrl>https://github.com/dariusz-wozniak/AutoMoq</projectUrl>
     <requireLicenseAcceptance>false</requireLicenseAcceptance>
-    <description>Auto-mocking container</description>
-    <releaseNotes>Upgraded Unity to 4.</releaseNotes>
-    <copyright>Copyright 2010-2016</copyright>
+    <description>Fork of AutoMoq (with updated packages)</description>
+    <releaseNotes>Updated project URL in NuGet specification</releaseNotes>
+    <copyright>Copyright 2010-2021</copyright>
     <tags>moq unity tdd testing test</tags>
-    <dependencies>
-        <dependency id="Unity" version="(4.0,)" />
-        <dependency id="Moq" version="(4.0,)" />
-    </dependencies>
   </metadata>
 </package>
diff --git a/src/AutoMoq/Properties/AssemblyInfo.cs b/src/AutoMoq/Properties/AssemblyInfo.cs
index f626de8..a45afe5 100644
--- a/src/AutoMoq/Properties/AssemblyInfo.cs
+++ b/src/AutoMoq/Properties/AssemblyInfo.cs
@@ -5,11 +5,11 @@
 // set of attributes. Change these attribute values to modify the information
 // associated with an assembly.
 
-[assembly: AssemblyTitle("AutoMoq")]
-[assembly: AssemblyDescription("Automocker for Moq.")]
+[assembly: AssemblyTitle("dariusz-wozniak.AutoMoq")]
+[assembly: AssemblyDescription("Fork of AutoMoq (with updated packages)")]
 [assembly: AssemblyConfiguration("")]
 [assembly: AssemblyCompany("")]
-[assembly: AssemblyProduct("AutoMoq")]
+[assembly: AssemblyProduct("dariusz-wozniak.AutoMoq")]
 [assembly: AssemblyCopyright("Copyright © Darren Cauthon 2016")]
 [assembly: AssemblyTrademark("")]
 [assembly: AssemblyCulture("")]
@@ -22,7 +22,7 @@
 
 // The following GUID is for the ID of the typelib if this project is exposed to COM
 
-[assembly: Guid("e6f813c5-0225-4f79-824c-ac21b49decc9")]
+[assembly: Guid("ab516e1f-f86f-46e4-8fab-87fad3b58d39")]
 
 // Version information for an assembly consists of the following four values:
 //
@@ -35,5 +35,5 @@
 // by using the '*' as shown below:
 // [assembly: AssemblyVersion("1.0.*")]
 
-[assembly: AssemblyVersion("2.0.0.0")]
-[assembly: AssemblyFileVersion("2.0.0.0")]
+[assembly: AssemblyVersion("2.1.1.0")]
+[assembly: AssemblyFileVersion("2.1.1.0")]
diff --git a/src/AutoMoq/app.config b/src/AutoMoq/app.config
new file mode 100644
index 0000000..5cc03ca
--- /dev/null
+++ b/src/AutoMoq/app.config
@@ -0,0 +1,15 @@
+<?xml version="1.0" encoding="utf-8"?>
+<configuration>
+  <runtime>
+    <assemblyBinding xmlns="urn:schemas-microsoft-com:asm.v1">
+      <dependentAssembly>
+        <assemblyIdentity name="System.Threading.Tasks.Extensions" publicKeyToken="cc7b13ffcd2ddd51" culture="neutral"/>
+        <bindingRedirect oldVersion="0.0.0.0-4.2.0.1" newVersion="4.2.0.1"/>
+      </dependentAssembly>
+      <dependentAssembly>
+        <assemblyIdentity name="System.Runtime.CompilerServices.Unsafe" publicKeyToken="b03f5f7f11d50a3a" culture="neutral"/>
+        <bindingRedirect oldVersion="0.0.0.0-5.0.0.0" newVersion="5.0.0.0"/>
+      </dependentAssembly>
+    </assemblyBinding>
+  </runtime>
+<startup><supportedRuntime version="v4.0" sku=".NETFramework,Version=v4.6"/></startup></configuration>
diff --git a/src/AutoMoq/packages.config b/src/AutoMoq/packages.config
index f2ca748..e0fd340 100644
--- a/src/AutoMoq/packages.config
+++ b/src/AutoMoq/packages.config
@@ -1,6 +1,9 @@
 <?xml version="1.0" encoding="utf-8"?>
 <packages>
-  <package id="CommonServiceLocator" version="1.3" targetFramework="net45" />
-  <package id="Moq" version="4.0.10827" requireReinstallation="true" />
-  <package id="Unity" version="4.0.1" targetFramework="net45" />
+  <package id="Castle.Core" version="4.4.1" targetFramework="net46" />
+  <package id="CommonServiceLocator" version="2.0.6" targetFramework="net46" requireReinstallation="true" />
+  <package id="Moq" version="4.16.1" targetFramework="net46" />
+  <package id="System.Runtime.CompilerServices.Unsafe" version="5.0.0" targetFramework="net46" />
+  <package id="System.Threading.Tasks.Extensions" version="4.5.4" targetFramework="net46" />
+  <package id="Unity" version="4.0.1" targetFramework="net46" />
 </packages>
\ No newline at end of file
diff --git a/src/packages/CommonServiceLocator.1.3/CommonServiceLocator.1.3.nupkg b/src/packages/CommonServiceLocator.1.3/CommonServiceLocator.1.3.nupkg
deleted file mode 100644
index 8cdb1fd..0000000
Binary files a/src/packages/CommonServiceLocator.1.3/CommonServiceLocator.1.3.nupkg and /dev/null differ
diff --git a/src/packages/CommonServiceLocator.1.3/lib/portable-net4+sl5+netcore45+wpa81+wp8/Microsoft.Practices.ServiceLocation.XML b/src/packages/CommonServiceLocator.1.3/lib/portable-net4+sl5+netcore45+wpa81+wp8/Microsoft.Practices.ServiceLocation.XML
deleted file mode 100644
index dbfa9ae..0000000
--- a/src/packages/CommonServiceLocator.1.3/lib/portable-net4+sl5+netcore45+wpa81+wp8/Microsoft.Practices.ServiceLocation.XML
+++ /dev/null
@@ -1,268 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Microsoft.Practices.ServiceLocation</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.ServiceLocation.ActivationException">
-            <summary>
-            The standard exception thrown when a ServiceLocator has an error in resolving an object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ActivationException.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Exception" /> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ActivationException.#ctor(System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Exception" /> class with a specified error message.
-            </summary>
-            <param name="message">
-            The message that describes the error. 
-             </param>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ActivationException.#ctor(System.String,System.Exception)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Exception" /> 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="T:Microsoft.Practices.ServiceLocation.IServiceLocator">
-            <summary>
-            The generic Service Locator interface. This interface is used
-            to retrieve services (instances identified by type and optional
-            name) from a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.IServiceLocator.GetInstance(System.Type)">
-            <summary>
-            Get an instance of the given <paramref name="serviceType"/>.
-            </summary>
-            <param name="serviceType">Type of object requested.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is an error resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.IServiceLocator.GetInstance(System.Type,System.String)">
-            <summary>
-            Get an instance of the given named <paramref name="serviceType"/>.
-            </summary>
-            <param name="serviceType">Type of object requested.</param>
-            <param name="key">Name the object was registered with.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is an error resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.IServiceLocator.GetAllInstances(System.Type)">
-            <summary>
-            Get all instances of the given <paramref name="serviceType"/> currently
-            registered in the container.
-            </summary>
-            <param name="serviceType">Type of object requested.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>A sequence of instances of the requested <paramref name="serviceType"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.IServiceLocator.GetInstance``1">
-            <summary>
-            Get an instance of the given <typeparamref name="TService"/>.
-            </summary>
-            <typeparam name="TService">Type of object requested.</typeparam>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.IServiceLocator.GetInstance``1(System.String)">
-            <summary>
-            Get an instance of the given named <typeparamref name="TService"/>.
-            </summary>
-            <typeparam name="TService">Type of object requested.</typeparam>
-            <param name="key">Name the object was registered with.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.IServiceLocator.GetAllInstances``1">
-            <summary>
-            Get all instances of the given <typeparamref name="TService"/> currently
-            registered in the container.
-            </summary>
-            <typeparam name="TService">Type of object requested.</typeparam>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>A sequence of instances of the requested <typeparamref name="TService"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ServiceLocation.ServiceLocator">
-            <summary>
-            This class provides the ambient container for this application. If your
-            framework defines such an ambient container, use ServiceLocator.Current
-            to get it.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocator.SetLocatorProvider(Microsoft.Practices.ServiceLocation.ServiceLocatorProvider)">
-            <summary>
-            Set the delegate that is used to retrieve the current container.
-            </summary>
-            <param name="newProvider">Delegate that, when called, will return
-            the current ambient container.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ServiceLocation.ServiceLocator.Current">
-            <summary>
-            The current ambient container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase">
-            <summary>
-            This class is a helper that provides a default implementation
-            for most of the methods of <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetService(System.Type)">
-            <summary>
-            Implementation of <see cref="M:System.IServiceProvider.GetService(System.Type)"/>.
-            </summary>
-            <param name="serviceType">The requested service.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is an error in resolving the service instance.</exception>
-            <returns>The requested object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetInstance(System.Type)">
-            <summary>
-            Get an instance of the given <paramref name="serviceType"/>.
-            </summary>
-            <param name="serviceType">Type of object requested.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is an error resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetInstance(System.Type,System.String)">
-            <summary>
-            Get an instance of the given named <paramref name="serviceType"/>.
-            </summary>
-            <param name="serviceType">Type of object requested.</param>
-            <param name="key">Name the object was registered with.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is an error resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetAllInstances(System.Type)">
-            <summary>
-            Get all instances of the given <paramref name="serviceType"/> currently
-            registered in the container.
-            </summary>
-            <param name="serviceType">Type of object requested.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>A sequence of instances of the requested <paramref name="serviceType"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetInstance``1">
-            <summary>
-            Get an instance of the given <typeparamref name="TService"/>.
-            </summary>
-            <typeparam name="TService">Type of object requested.</typeparam>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetInstance``1(System.String)">
-            <summary>
-            Get an instance of the given named <typeparamref name="TService"/>.
-            </summary>
-            <typeparam name="TService">Type of object requested.</typeparam>
-            <param name="key">Name the object was registered with.</param>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.GetAllInstances``1">
-            <summary>
-            Get all instances of the given <typeparamref name="TService"/> currently
-            registered in the container.
-            </summary>
-            <typeparam name="TService">Type of object requested.</typeparam>
-            <exception cref="T:Microsoft.Practices.ServiceLocation.ActivationException">if there is are errors resolving
-            the service instance.</exception>
-            <returns>A sequence of instances of the requested <typeparamref name="TService"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.DoGetInstance(System.Type,System.String)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of resolving
-            the requested service instance.
-            </summary>
-            <param name="serviceType">Type of instance requested.</param>
-            <param name="key">Name of registered service you want. May be null.</param>
-            <returns>The requested service instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.DoGetAllInstances(System.Type)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of
-            resolving all the requested service instances.
-            </summary>
-            <param name="serviceType">Type of service requested.</param>
-            <returns>Sequence of service instance objects.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.FormatActivationExceptionMessage(System.Exception,System.Type,System.String)">
-            <summary>
-            Format the exception message for use in an <see cref="T:Microsoft.Practices.ServiceLocation.ActivationException"/>
-            that occurs while resolving a single service.
-            </summary>
-            <param name="actualException">The actual exception thrown by the implementation.</param>
-            <param name="serviceType">Type of service requested.</param>
-            <param name="key">Name requested.</param>
-            <returns>The formatted exception message string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ServiceLocation.ServiceLocatorImplBase.FormatActivateAllExceptionMessage(System.Exception,System.Type)">
-            <summary>
-            Format the exception message for use in an <see cref="T:Microsoft.Practices.ServiceLocation.ActivationException"/>
-            that occurs while resolving multiple service instances.
-            </summary>
-            <param name="actualException">The actual exception thrown by the implementation.</param>
-            <param name="serviceType">Type of service requested.</param>
-            <returns>The formatted exception message string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ServiceLocation.ServiceLocatorProvider">
-            <summary>
-            This delegate type is used to provide a method that will
-            return the current container. Used with the <see cref="T:Microsoft.Practices.ServiceLocation.ServiceLocator"/>
-            static accessor class.
-            </summary>
-            <returns>An <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ServiceLocation.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ServiceLocation.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ServiceLocation.Properties.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:Microsoft.Practices.ServiceLocation.Properties.Resources.ActivateAllExceptionMessage">
-            <summary>
-              Looks up a localized string similar to Activation error occurred while trying to get all instances of type {0}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ServiceLocation.Properties.Resources.ActivationExceptionMessage">
-            <summary>
-              Looks up a localized string similar to Activation error occurred while trying to get instance of type {0}, key &quot;{1}&quot;.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ServiceLocation.Properties.Resources.ServiceLocationProviderNotSetMessage">
-            <summary>
-              Looks up a localized string similar to ServiceLocationProvider must be set..
-            </summary>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/CommonServiceLocator.1.3/lib/portable-net4+sl5+netcore45+wpa81+wp8/Microsoft.Practices.ServiceLocation.dll b/src/packages/CommonServiceLocator.1.3/lib/portable-net4+sl5+netcore45+wpa81+wp8/Microsoft.Practices.ServiceLocation.dll
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diff --git a/src/packages/Moq.4.0.10827/License.txt b/src/packages/Moq.4.0.10827/License.txt
deleted file mode 100644
index 8b6bcf8..0000000
--- a/src/packages/Moq.4.0.10827/License.txt
+++ /dev/null
@@ -1,39 +0,0 @@
-Copyright (c) 2007. Clarius Consulting, Manas Technology Solutions, InSTEDD
-http://code.google.com/p/moq/
-All rights reserved.
-
-Redistribution and use in source and binary forms, 
-with or without modification, are permitted provided 
-that the following conditions are met:
-
-    * Redistributions of source code must retain the 
-    above copyright notice, this list of conditions and 
-    the following disclaimer.
-    
-    * Redistributions in binary form must reproduce 
-    the above copyright notice, this list of conditions 
-    and the following disclaimer in the documentation 
-    and/or other materials provided with the distribution.
-    
-    * Neither the name of Clarius Consulting, Manas Technology Solutions or InSTEDD nor the 
-    names of its contributors may be used to endorse 
-    or promote products derived from this software 
-    without specific prior written permission.
-
-THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND 
-CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, 
-INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 
-MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 
-DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR 
-CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 
-SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 
-BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 
-SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 
-INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, 
-WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING 
-NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 
-OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 
-SUCH DAMAGE.
-
-[This is the BSD license, see
- http://www.opensource.org/licenses/bsd-license.php]
\ No newline at end of file
diff --git a/src/packages/Moq.4.0.10827/Moq.4.0.10827.nupkg b/src/packages/Moq.4.0.10827/Moq.4.0.10827.nupkg
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diff --git a/src/packages/Moq.4.0.10827/lib/NET35/Moq.dll b/src/packages/Moq.4.0.10827/lib/NET35/Moq.dll
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diff --git a/src/packages/Moq.4.0.10827/lib/NET35/Moq.pdb b/src/packages/Moq.4.0.10827/lib/NET35/Moq.pdb
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diff --git a/src/packages/Moq.4.0.10827/lib/NET35/Moq.xml b/src/packages/Moq.4.0.10827/lib/NET35/Moq.xml
deleted file mode 100644
index 4320775..0000000
--- a/src/packages/Moq.4.0.10827/lib/NET35/Moq.xml
+++ /dev/null
@@ -1,5768 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Moq</name>
-    </assembly>
-    <members>
-        <member name="T:Moq.Language.ISetupConditionResult`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.Setup(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-            The expectation will be considered only in the former condition.
-            </summary>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.Setup``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            The expectation will be considered only in the former condition.
-            </summary>
-            <typeparam name="TResult"></typeparam>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Setups the get.
-            </summary>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-            <param name="expression">The expression.</param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupSet``1(System.Action{`0})">
-            <summary>
-            Setups the set.
-            </summary>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-            <param name="setterExpression">The setter expression.</param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupSet(System.Action{`0})">
-            <summary>
-            Setups the set.
-            </summary>
-            <param name="setterExpression">The setter expression.</param>
-            <returns></returns>
-        </member>
-        <member name="T:Moq.Language.ICallback">
-            <summary>
-            Defines the <c>Callback</c> verb and overloads.
-            </summary>
-        </member>
-        <member name="T:Moq.IHideObjectMembers">
-            <summary>
-            Helper interface used to hide the base <see cref="T:System.Object"/> 
-            members from the fluent API to make it much cleaner 
-            in Visual Studio intellisense.
-            </summary>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.GetType">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.GetHashCode">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.ToString">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.Equals(System.Object)">
-            <summary/>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the method is called.
-            </summary>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            The following example specifies a callback to set a boolean 
-            value that can be used later:
-            <code>
-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``1(System.Action{``0})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T">The argument type of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the concrete invocation argument value. 
-            <para>
-            Notice how the specific string argument is retrieved by simply declaring 
-            it as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Callback((string command) => Console.WriteLine(command));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``2(System.Action{``0,``1})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2) =&gt; Console.WriteLine(arg1 + arg2));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``3(System.Action{``0,``1,``2})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3) =&gt; Console.WriteLine(arg1 + arg2 + arg3));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``4(System.Action{``0,``1,``2,``3})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``5(System.Action{``0,``1,``2,``3,``4})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``6(System.Action{``0,``1,``2,``3,``4,``5})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``7(System.Action{``0,``1,``2,``3,``4,``5,``6})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``8(System.Action{``0,``1,``2,``3,``4,``5,``6,``7})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``9(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``10(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``11(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``12(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``13(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``14(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``15(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``16(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.ICallback`2">
-            <summary>
-            Defines the <c>Callback</c> verb and overloads for callbacks on
-            setups that return a value.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TResult">Type of the return value of the setup.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the method is called.
-            </summary>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            The following example specifies a callback to set a boolean value that can be used later:
-            <code>
-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true)
-                .Returns(true);
-            </code>
-            Note that in the case of value-returning methods, after the <c>Callback</c>
-            call you can still specify the return value.
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``1(System.Action{``0})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T">The type of the argument of the invoked method.</typeparam>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the concrete invocation argument value.
-            <para>
-            Notice how the specific string argument is retrieved by simply declaring
-            it as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Callback(command => Console.WriteLine(command))
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``2(System.Action{``0,``1})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2) =&gt; Console.WriteLine(arg1 + arg2));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``3(System.Action{``0,``1,``2})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3) =&gt; Console.WriteLine(arg1 + arg2 + arg3));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``4(System.Action{``0,``1,``2,``3})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``5(System.Action{``0,``1,``2,``3,``4})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``6(System.Action{``0,``1,``2,``3,``4,``5})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``7(System.Action{``0,``1,``2,``3,``4,``5,``6})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``8(System.Action{``0,``1,``2,``3,``4,``5,``6,``7})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``9(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``10(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``11(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``12(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``13(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``14(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``15(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``16(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.IRaise`1">
-            <summary>
-            Defines the <c>Raises</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)">
-            <summary>
-            Specifies the event that will be raised 
-            when the setup is met.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="args">The event arguments to pass for the raised event.</param>
-            <example>
-            The following example shows how to raise an event when 
-            the setup is met:
-            <code>
-            var mock = new Mock&lt;IContainer&gt;();
-            
-            mock.Setup(add => add.Add(It.IsAny&lt;string&gt;(), It.IsAny&lt;object&gt;()))
-                .Raises(add => add.Added += null, EventArgs.Empty);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.Func{System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised 
-            when the setup is matched.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="func">A function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.Object[])">
-            <summary>
-            Specifies the custom event that will be raised 
-            when the setup is matched.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="args">The arguments to pass to the custom delegate (non EventHandler-compatible).</param>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``1(System.Action{`0},System.Func{``0,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``2(System.Action{`0},System.Func{``0,``1,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``3(System.Action{`0},System.Func{``0,``1,``2,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``4(System.Action{`0},System.Func{``0,``1,``2,``3,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``5(System.Action{`0},System.Func{``0,``1,``2,``3,``4,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``6(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``7(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``8(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``9(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``10(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``11(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``12(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``13(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``14(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``15(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``16(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="T:Moq.Language.IReturns`2">
-            <summary>
-            Defines the <c>Returns</c> verb.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TResult">Type of the return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns(`1)">
-            <summary>
-            Specifies the value to return.
-            </summary>
-            <param name="value">The value to return, or <see langword="null"/>.</param>
-            <example>
-            Return a <c>true</c> value from the method call:
-            <code>
-            mock.Setup(x => x.Execute("ping"))
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns(System.Func{`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method.
-            </summary>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example group="returns">
-            Return a calculated value when the method is called:
-            <code>
-            mock.Setup(x => x.Execute("ping"))
-                .Returns(() => returnValues[0]);
-            </code>
-            The lambda expression to retrieve the return value is lazy-executed, 
-            meaning that its value may change depending on the moment the method 
-            is executed and the value the <c>returnValues</c> array has at 
-            that moment.
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``1(System.Func{``0,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T">The type of the argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example group="returns">
-            Return a calculated value which is evaluated lazily at the time of the invocation.
-            <para>
-            The lookup list can change between invocations and the setup 
-            will return different values accordingly. Also, notice how the specific 
-            string argument is retrieved by simply declaring it as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Returns((string command) => returnValues[command]);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``2(System.Func{``0,``1,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2) => arg1 + arg2);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``3(System.Func{``0,``1,``2,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``4(System.Func{``0,``1,``2,``3,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``5(System.Func{``0,``1,``2,``3,``4,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``6(System.Func{``0,``1,``2,``3,``4,``5,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``7(System.Func{``0,``1,``2,``3,``4,``5,``6,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``8(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``9(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``10(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``11(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``12(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``13(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``14(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``15(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``16(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.ISetupSequentialResult`1">
-            <summary>
-            Language for ReturnSequence
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Returns(`0)">
-            <summary>
-            Returns value
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Throws(System.Exception)">
-            <summary>
-            Throws an exception
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Throws``1">
-            <summary>
-            Throws an exception
-            </summary>
-        </member>
-        <member name="F:Moq.Linq.FluentMockVisitor.isFirst">
-            <summary>
-            The first method call or member access will be the 
-            last segment of the expression (depth-first traversal), 
-            which is the one we have to Setup rather than FluentMock.
-            And the last one is the one we have to Mock.Get rather 
-            than FluentMock.
-            </summary>
-        </member>
-        <member name="T:Moq.Mock">
-            <summary>
-			Base class for mocks and static helper class with methods that
-			apply to mocked objects, such as <see cref="M:Moq.Mock.Get``1(``0)"/> to
-			retrieve a <see cref="T:Moq.Mock`1"/> from an object instance.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Of``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mock.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="predicate">The predicate with the specification of how the mocked object should behave.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mock.#ctor">
-            <summary>
-			Initializes a new instance of the <see cref="T:Moq.Mock"/> class.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Get``1(``0)">
-            <summary>
-			Retrieves the mock object for the given object instance.
-		</summary><typeparam name="T">
-			Type of the mock to retrieve. Can be omitted as it's inferred
-			from the object instance passed in as the <paramref name="mocked"/> instance.
-		</typeparam><param name="mocked">The instance of the mocked object.</param><returns>The mock associated with the mocked object.</returns><exception cref="T:System.ArgumentException">
-			The received <paramref name="mocked"/> instance
-			was not created by Moq.
-		</exception><example group="advanced">
-			The following example shows how to add a new setup to an object
-			instance which is not the original <see cref="T:Moq.Mock`1"/> but rather
-			the object associated with it:
-			<code>
-				// Typed instance, not the mock, is retrieved from some test API.
-				HttpContextBase context = GetMockContext();
-
-				// context.Request is the typed object from the "real" API
-				// so in order to add a setup to it, we need to get
-				// the mock that "owns" it
-				Mock&lt;HttpRequestBase&gt; request = Mock.Get(context.Request);
-				mock.Setup(req =&gt; req.AppRelativeCurrentExecutionFilePath)
-					 .Returns(tempUrl);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock.OnGetObject">
-            <summary>
-			Returns the mocked object value.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Verify">
-            <summary>
-			Verifies that all verifiable expectations have been met.
-		</summary><example group="verification">
-			This example sets up an expectation and marks it as verifiable. After
-			the mock is used, a <c>Verify()</c> call is issued on the mock
-			to ensure the method in the setup was invoked:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				this.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Verifiable().Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory.
-				this.Verify();
-			</code>
-		</example><exception cref="T:Moq.MockException">Not all verifiable expectations were met.</exception>
-        </member>
-        <member name="M:Moq.Mock.VerifyAll">
-            <summary>
-			Verifies all expectations regardless of whether they have
-			been flagged as verifiable.
-		</summary><example group="verification">
-			This example sets up an expectation without marking it as verifiable. After
-			the mock is used, a <see cref="M:Moq.Mock.VerifyAll"/> call is issued on the mock
-			to ensure that all expectations are met:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				this.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory, even
-				// that expectation was not marked as verifiable.
-				this.VerifyAll();
-			</code>
-		</example><exception cref="T:Moq.MockException">At least one expectation was not met.</exception>		
-        </member>
-        <member name="M:Moq.Mock.GetInterceptor(System.Linq.Expressions.Expression,Moq.Mock)">
-            <summary>
-            Gets the interceptor target for the given expression and root mock, 
-            building the intermediate hierarchy of mock objects if necessary.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.DoRaise(System.Reflection.EventInfo,System.EventArgs)">
-            <summary>
-            Raises the associated event with the given 
-            event argument data.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.DoRaise(System.Reflection.EventInfo,System.Object[])">
-            <summary>
-            Raises the associated event with the given 
-            event argument data.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.As``1">
-            <summary>
-			Adds an interface implementation to the mock,
-			allowing setups to be specified for it.
-		</summary><remarks>
-			This method can only be called before the first use
-			of the mock <see cref="P:Moq.Mock.Object"/> property, at which
-			point the runtime type has already been generated
-			and no more interfaces can be added to it.
-			<para>
-				Also, <typeparamref name="TInterface"/> must be an
-				interface and not a class, which must be specified
-				when creating the mock instead.
-			</para>
-		</remarks><exception cref="T:System.InvalidOperationException">
-			The mock type
-			has already been generated by accessing the <see cref="P:Moq.Mock.Object"/> property.
-		</exception><exception cref="T:System.ArgumentException">
-			The <typeparamref name="TInterface"/> specified
-			is not an interface.
-		</exception><example>
-			The following example creates a mock for the main interface
-			and later adds <see cref="T:System.IDisposable"/> to it to verify
-			it's called by the consumer code:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				mock.Setup(x =&gt; x.Execute("ping"));
-
-				// add IDisposable interface
-				var disposable = mock.As&lt;IDisposable&gt;();
-				disposable.Setup(d =&gt; d.Dispose()).Verifiable();
-			</code>
-		</example><typeparam name="TInterface">Type of interface to cast the mock to.</typeparam>
-        </member>
-        <member name="M:Moq.Mock.SetReturnsDefault``1(``0)">
-            <!-- No matching elements were found for the following include tag --><include file="Mock.Generic.xdoc" path="docs/doc[@for=&quot;Mock.SetReturnDefault{TReturn}&quot;]/*"/>
-        </member>
-        <member name="P:Moq.Mock.Behavior">
-            <summary>
-			Behavior of the mock, according to the value set in the constructor.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.CallBase">
-            <summary>
-			Whether the base member virtual implementation will be called
-			for mocked classes if no setup is matched. Defaults to <see langword="false"/>.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.DefaultValue">
-            <summary>
-			Specifies the behavior to use when returning default values for
-			unexpected invocations on loose mocks.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.Object">
-            <summary>
-			Gets the mocked object instance.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.MockedType">
-            <summary>
-            Retrieves the type of the mocked object, its generic type argument.
-            This is used in the auto-mocking of hierarchy access.
-            </summary>
-        </member>
-        <member name="P:Moq.Mock.DefaultValueProvider">
-            <summary>
-            Specifies the class that will determine the default 
-            value to return when invocations are made that 
-            have no setups and need to return a default 
-            value (for loose mocks).
-            </summary>
-        </member>
-        <member name="P:Moq.Mock.ImplementedInterfaces">
-            <summary>
-            Exposes the list of extra interfaces implemented by the mock.
-            </summary>
-        </member>
-        <member name="T:Moq.MockRepository">
-            <summary>
-            Utility repository class to use to construct multiple 
-            mocks when consistent verification is 
-            desired for all of them.
-            </summary>
-            <remarks>
-            If multiple mocks will be created during a test, passing 
-            the desired <see cref="T:Moq.MockBehavior"/> (if different than the 
-            <see cref="F:Moq.MockBehavior.Default"/> or the one 
-            passed to the repository constructor) and later verifying each
-            mock can become repetitive and tedious.
-            <para>
-            This repository class helps in that scenario by providing a 
-            simplified creation of multiple mocks with a default 
-            <see cref="T:Moq.MockBehavior"/> (unless overriden by calling 
-            <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/>) and posterior verification.
-            </para>
-            </remarks>
-            <example group="repository">
-            The following is a straightforward example on how to 
-            create and automatically verify strict mocks using a <see cref="T:Moq.MockRepository"/>:
-            <code>
-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            var foo = repository.Create&lt;IFoo&gt;();
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f =&gt; f.Do());
-            bar.Setup(b =&gt; b.Redo());
-            
-            // exercise the mocks here
-            
-            repository.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-            </code>
-            The following examples shows how to setup the repository 
-            to create loose mocks and later verify only verifiable setups:
-            <code>
-            var repository = new MockRepository(MockBehavior.Loose);
-            
-            var foo = repository.Create&lt;IFoo&gt;();
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // this setup will be verified when we verify the repository
-            foo.Setup(f =&gt; f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f =&gt; f.Calculate());
-            	
-            // this setup will be verified when we verify the repository
-            bar.Setup(b =&gt; b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            repository.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-            </code>
-            The following examples shows how to setup the repository with a 
-            default strict behavior, overriding that default for a 
-            specific mock:
-            <code>
-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = repository.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            repository.Verify();
-            </code>
-            </example>
-            <seealso cref="T:Moq.MockBehavior"/>
-        </member>
-        <member name="T:Moq.MockFactory">
-            <summary>
-            Utility factory class to use to construct multiple 
-            mocks when consistent verification is 
-            desired for all of them.
-            </summary>
-            <remarks>
-            If multiple mocks will be created during a test, passing 
-            the desired <see cref="T:Moq.MockBehavior"/> (if different than the 
-            <see cref="F:Moq.MockBehavior.Default"/> or the one 
-            passed to the factory constructor) and later verifying each
-            mock can become repetitive and tedious.
-            <para>
-            This factory class helps in that scenario by providing a 
-            simplified creation of multiple mocks with a default 
-            <see cref="T:Moq.MockBehavior"/> (unless overriden by calling 
-            <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/>) and posterior verification.
-            </para>
-            </remarks>
-            <example group="factory">
-            The following is a straightforward example on how to 
-            create and automatically verify strict mocks using a <see cref="T:Moq.MockFactory"/>:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f =&gt; f.Do());
-            bar.Setup(b =&gt; b.Redo());
-            
-            // exercise the mocks here
-            
-            factory.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-            </code>
-            The following examples shows how to setup the factory 
-            to create loose mocks and later verify only verifiable setups:
-            <code>
-            var factory = new MockFactory(MockBehavior.Loose);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // this setup will be verified when we verify the factory
-            foo.Setup(f =&gt; f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f =&gt; f.Calculate());
-            	
-            // this setup will be verified when we verify the factory
-            bar.Setup(b =&gt; b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            factory.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-            </code>
-            The following examples shows how to setup the factory with a 
-            default strict behavior, overriding that default for a 
-            specific mock:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = factory.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            factory.Verify();
-            </code>
-            </example>
-            <seealso cref="T:Moq.MockBehavior"/>
-        </member>
-        <member name="M:Moq.MockFactory.#ctor(Moq.MockBehavior)">
-            <summary>
-            Initializes the factory with the given <paramref name="defaultBehavior"/> 
-            for newly created mocks from the factory.
-            </summary>
-            <param name="defaultBehavior">The behavior to use for mocks created 
-            using the <see cref="M:Moq.MockFactory.Create``1"/> factory method if not overriden 
-            by using the <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/> overload.</param>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1">
-            <summary>
-            Creates a new mock with the default <see cref="T:Moq.MockBehavior"/> 
-            specified at factory construction time.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example ignore="true">
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            // use mock on tests
-            
-            factory.VerifyAll();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(System.Object[])">
-            <summary>
-            Creates a new mock with the default <see cref="T:Moq.MockBehavior"/> 
-            specified at factory construction time and with the 
-            the given constructor arguments for the class.
-            </summary>
-            <remarks>
-            The mock will try to find the best match constructor given the 
-            constructor arguments, and invoke that to initialize the instance. 
-            This applies only to classes, not interfaces.
-            </remarks>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="args">Constructor arguments for mocked classes.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example ignore="true">
-            <code>
-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create&lt;MyBase&gt;("Foo", 25, true);
-            // use mock on tests
-            
-            factory.Verify();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(Moq.MockBehavior)">
-            <summary>
-            Creates a new mock with the given <paramref name="behavior"/>.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">Behavior to use for the mock, which overrides 
-            the default behavior specified at factory construction time.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example group="factory">
-            The following example shows how to create a mock with a different 
-            behavior to that specified as the default for the factory:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(Moq.MockBehavior,System.Object[])">
-            <summary>
-            Creates a new mock with the given <paramref name="behavior"/> 
-            and with the the given constructor arguments for the class.
-            </summary>
-            <remarks>
-            The mock will try to find the best match constructor given the 
-            constructor arguments, and invoke that to initialize the instance. 
-            This applies only to classes, not interfaces.
-            </remarks>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">Behavior to use for the mock, which overrides 
-            the default behavior specified at factory construction time.</param>
-            <param name="args">Constructor arguments for mocked classes.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example group="factory">
-            The following example shows how to create a mock with a different 
-            behavior to that specified as the default for the factory, passing 
-            constructor arguments:
-            <code>
-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create&lt;MyBase&gt;(MockBehavior.Strict, "Foo", 25, true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.CreateMock``1(Moq.MockBehavior,System.Object[])">
-            <summary>
-            Implements creation of a new mock within the factory.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">The behavior for the new mock.</param>
-            <param name="args">Optional arguments for the construction of the mock.</param>
-        </member>
-        <member name="M:Moq.MockFactory.Verify">
-            <summary>
-            Verifies all verifiable expectations on all mocks created 
-            by this factory.
-            </summary>
-            <seealso cref="M:Moq.Mock.Verify"/>
-            <exception cref="T:Moq.MockException">One or more mocks had expectations that were not satisfied.</exception>
-        </member>
-        <member name="M:Moq.MockFactory.VerifyAll">
-            <summary>
-            Verifies all verifiable expectations on all mocks created 
-            by this factory.
-            </summary>
-            <seealso cref="M:Moq.Mock.Verify"/>
-            <exception cref="T:Moq.MockException">One or more mocks had expectations that were not satisfied.</exception>
-        </member>
-        <member name="M:Moq.MockFactory.VerifyMocks(System.Action{Moq.Mock})">
-            <summary>
-            Invokes <paramref name="verifyAction"/> for each mock 
-            in <see cref="P:Moq.MockFactory.Mocks"/>, and accumulates the resulting 
-            <see cref="T:Moq.MockVerificationException"/> that might be 
-            thrown from the action.
-            </summary>
-            <param name="verifyAction">The action to execute against 
-            each mock.</param>
-        </member>
-        <member name="P:Moq.MockFactory.CallBase">
-            <summary>
-            Whether the base member virtual implementation will be called 
-            for mocked classes if no setup is matched. Defaults to <see langword="false"/>.
-            </summary>
-        </member>
-        <member name="P:Moq.MockFactory.DefaultValue">
-            <summary>
-            Specifies the behavior to use when returning default values for 
-            unexpected invocations on loose mocks.
-            </summary>
-        </member>
-        <member name="P:Moq.MockFactory.Mocks">
-            <summary>
-            Gets the mocks that have been created by this factory and 
-            that will get verified together.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.Of``1">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.MockRepository.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.MockRepository.OneOf``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.MockRepository.OneOf``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.MockRepository.CreateMockQuery``1">
-            <summary>
-            Creates the mock query with the underlying queriable implementation.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.CreateQueryable``1">
-            <summary>
-            Wraps the enumerator inside a queryable.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.CreateMocks``1">
-            <summary>
-            Method that is turned into the actual call from .Query{T}, to 
-            transform the queryable query into a normal enumerable query.
-            This method is never used directly by consumers.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.#ctor(Moq.MockBehavior)">
-            <summary>
-            Initializes the repository with the given <paramref name="defaultBehavior"/> 
-            for newly created mocks from the repository.
-            </summary>
-            <param name="defaultBehavior">The behavior to use for mocks created 
-            using the <see cref="M:Moq.MockFactory.Create``1"/> repository method if not overriden 
-            by using the <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/> overload.</param>
-        </member>
-        <member name="T:Moq.EmptyDefaultValueProvider">
-            <summary>
-            A <see cref="T:Moq.IDefaultValueProvider"/> that returns an empty default value 
-            for invocations that do not have setups or return values, with loose mocks.
-            This is the default behavior for a mock.
-            </summary>
-        </member>
-        <member name="T:Moq.IDefaultValueProvider">
-            <summary>
-			Interface to be implemented by classes that determine the
-			default value of non-expected invocations.
-		</summary>
-        </member>
-        <member name="M:Moq.IDefaultValueProvider.DefineDefault``1(``0)">
-            <summary>
-			Defines the default value to return in all the methods returning <typeparamref name="T"/>.
-		</summary><typeparam name="T">The type of the return value.</typeparam><param name="value">The value to set as default.</param>
-        </member>
-        <member name="M:Moq.IDefaultValueProvider.ProvideDefault(System.Reflection.MethodInfo)">
-            <summary>
-			Provides a value for the given member and arguments.
-		</summary><param name="member">
-			The member to provide a default	value for.
-		</param>
-        </member>
-        <member name="T:Moq.ExpressionStringBuilder">
-            <summary>
-            The intention of <see cref="T:Moq.ExpressionStringBuilder"/> is to create a more readable 
-            string representation for the failure message.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.ICallbackResult">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IThrows">
-            <summary>
-            Defines the <c>Throws</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IThrows.Throws(System.Exception)">
-            <summary>
-            Specifies the exception to throw when the method is invoked.
-            </summary>
-            <param name="exception">Exception instance to throw.</param>
-            <example>
-            This example shows how to throw an exception when the method is 
-            invoked with an empty string argument:
-            <code>
-            mock.Setup(x =&gt; x.Execute(""))
-                .Throws(new ArgumentException());
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IThrows.Throws``1">
-            <summary>
-            Specifies the type of exception to throw when the method is invoked.
-            </summary>
-            <typeparam name="TException">Type of exception to instantiate and throw when the setup is matched.</typeparam>
-            <example>
-            This example shows how to throw an exception when the method is 
-            invoked with an empty string argument:
-            <code>
-            mock.Setup(x =&gt; x.Execute(""))
-                .Throws&lt;ArgumentException&gt;();
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IThrowsResult">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IOccurrence">
-            <summary>
-            Defines occurrence members to constraint setups.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IOccurrence.AtMostOnce">
-            <summary>
-            The expected invocation can happen at most once.
-            </summary>
-            <example>
-            <code>
-            var mock = new Mock&lt;ICommand&gt;();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMostOnce();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IOccurrence.AtMost(System.Int32)">
-            <summary>
-            The expected invocation can happen at most specified number of times.
-            </summary>
-            <param name="callCount">The number of times to accept calls.</param>
-            <example>
-            <code>
-            var mock = new Mock&lt;ICommand&gt;();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMost( 5 );
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.IVerifies">
-            <summary>
-            Defines the <c>Verifiable</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IVerifies.Verifiable">
-            <summary>
-            Marks the expectation as verifiable, meaning that a call 
-            to <see cref="M:Moq.Mock.Verify"/> will check if this particular 
-            expectation was met.
-            </summary>
-            <example>
-            The following example marks the expectation as verifiable:
-            <code>
-            mock.Expect(x =&gt; x.Execute("ping"))
-                .Returns(true)
-                .Verifiable();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IVerifies.Verifiable(System.String)">
-            <summary>
-            Marks the expectation as verifiable, meaning that a call 
-            to <see cref="M:Moq.Mock.Verify"/> will check if this particular 
-            expectation was met, and specifies a message for failures.
-            </summary>
-            <example>
-            The following example marks the expectation as verifiable:
-            <code>
-            mock.Expect(x =&gt; x.Execute("ping"))
-                .Returns(true)
-                .Verifiable("Ping should be executed always!");
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetup`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.MethodCallReturn">
-            <devdoc>
-            We need this non-generics base class so that 
-            we can use <see cref="P:Moq.MethodCallReturn.HasReturnValue"/> from 
-            generic code.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetup`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsThrows`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetupGetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallbackGetter`2">
-            <summary>
-            Defines the <c>Callback</c> verb for property getter setups.
-            </summary>
-            <seealso cref="M:Moq.Mock`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})"/>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallbackGetter`2.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the property is retrieved.
-            </summary>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the property value being set. 
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Callback(() => called = true)
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsThrowsGetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IReturnsGetter`2">
-            <summary>
-            Defines the <c>Returns</c> verb for property get setups.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.IReturnsGetter`2.Returns(`1)">
-            <summary>
-            Specifies the value to return.
-            </summary>
-            <param name="value">The value to return, or <see langword="null"/>.</param>
-            <example>
-            Return a <c>true</c> value from the property getter call:
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturnsGetter`2.Returns(System.Func{`1})">
-            <summary>
-            Specifies a function that will calculate the value to return for the property.
-            </summary>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example>
-            Return a calculated value when the property is retrieved:
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Returns(() => returnValues[0]);
-            </code>
-            The lambda expression to retrieve the return value is lazy-executed, 
-            meaning that its value may change depending on the moment the property  
-            is retrieved and the value the <c>returnValues</c> array has at 
-            that moment.
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsResult`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:System.Action`5">
-            <summary>
-            Encapsulates a method that has five parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`6">
-            <summary>
-            Encapsulates a method that has five parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`6">
-            <summary>
-            Encapsulates a method that has six parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`7">
-            <summary>
-            Encapsulates a method that has six parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`7">
-            <summary>
-            Encapsulates a method that has seven parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`8">
-            <summary>
-            Encapsulates a method that has seven parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`8">
-            <summary>
-            Encapsulates a method that has eight parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`9">
-            <summary>
-            Encapsulates a method that has eight parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`9">
-            <summary>
-            Encapsulates a method that has nine parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`10">
-            <summary>
-            Encapsulates a method that has nine parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`10">
-            <summary>
-            Encapsulates a method that has ten parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`11">
-            <summary>
-            Encapsulates a method that has ten parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`11">
-            <summary>
-            Encapsulates a method that has eleven parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`12">
-            <summary>
-            Encapsulates a method that has eleven parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`12">
-            <summary>
-            Encapsulates a method that has twelve parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`13">
-            <summary>
-            Encapsulates a method that has twelve parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`13">
-            <summary>
-            Encapsulates a method that has thirteen parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`14">
-            <summary>
-            Encapsulates a method that has thirteen parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`14">
-            <summary>
-            Encapsulates a method that has fourteen parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T14">The type of the fourteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg14">The fourteenth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`15">
-            <summary>
-            Encapsulates a method that has fourteen parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T14">The type of the fourteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg14">The fourteenth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`15">
-            <summary>
-            Encapsulates a method that has fifteen parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T14">The type of the fourteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T15">The type of the fifteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg14">The fourteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg15">The fifteenth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`16">
-            <summary>
-            Encapsulates a method that has fifteen parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T14">The type of the fourteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T15">The type of the fifteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg14">The fourteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg15">The fifteenth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:System.Action`16">
-            <summary>
-            Encapsulates a method that has sixteen parameters and does not return a value.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T14">The type of the fourteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T15">The type of the fifteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T16">The type of the sixteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg14">The fourteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg15">The fifteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg16">The sixteenth parameter of the method that this delegate encapsulates.</param>
-        </member>
-        <member name="T:System.Func`17">
-            <summary>
-            Encapsulates a method that has sixteen parameters and returns a value of the type specified by the <typeparamref name="TResult" /> parameter.
-            </summary>
-            <typeparam name="T1">The type of the first parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T2">The type of the second parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T3">The type of the third parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T4">The type of the fourth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T5">The type of the fifth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T6">The type of the sixth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T7">The type of the seventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T8">The type of the eighth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T9">The type of the nineth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T10">The type of the tenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T11">The type of the eleventh parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T12">The type of the twelfth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T13">The type of the thirteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T14">The type of the fourteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T15">The type of the fifteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="T16">The type of the sixteenth parameter of the method that this delegate encapsulates.</typeparam>
-            <typeparam name="TResult">The type of the return value of the method that this delegate encapsulates.</typeparam>
-            <param name="arg1">The first parameter of the method that this delegate encapsulates.</param>
-            <param name="arg2">The second parameter of the method that this delegate encapsulates.</param>
-            <param name="arg3">The third parameter of the method that this delegate encapsulates.</param>
-            <param name="arg4">The fourth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg5">The fifth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg6">The sixth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg7">The seventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg8">The eighth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg9">The nineth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg10">The tenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg11">The eleventh parameter of the method that this delegate encapsulates.</param>
-            <param name="arg12">The twelfth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg13">The thirteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg14">The fourteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg15">The fifteenth parameter of the method that this delegate encapsulates.</param>
-            <param name="arg16">The sixteenth parameter of the method that this delegate encapsulates.</param>
-            <return>The return value of the method that this delegate encapsulates.</return>
-        </member>
-        <member name="T:Moq.MockSequence">
-            <summary>
-            Helper class to setup a full trace between many mocks
-            </summary>
-        </member>
-        <member name="M:Moq.MockSequence.#ctor">
-            <summary>
-            Initialize a trace setup
-            </summary>
-        </member>
-        <member name="P:Moq.MockSequence.Cyclic">
-            <summary>
-            Allow sequence to be repeated
-            </summary>
-        </member>
-        <member name="T:Moq.MockSequenceHelper">
-            <summary>
-            define nice api
-            </summary>
-        </member>
-        <member name="M:Moq.MockSequenceHelper.InSequence``1(Moq.Mock{``0},Moq.MockSequence)">
-            <summary>
-            Perform an expectation in the trace.
-            </summary>
-        </member>
-        <member name="T:Moq.MatcherAttribute">
-            <summary>
-            Marks a method as a matcher, which allows complete replacement 
-            of the built-in <see cref="T:Moq.It"/> class with your own argument 
-            matching rules.
-            </summary>
-            <remarks>
-            <b>This feature has been deprecated in favor of the new 
-            and simpler <see cref="T:Moq.Match`1"/>.
-            </b>
-            <para>
-            The argument matching is used to determine whether a concrete 
-            invocation in the mock matches a given setup. This 
-            matching mechanism is fully extensible. 
-            </para>
-            <para>
-            There are two parts of a matcher: the compiler matcher 
-            and the runtime matcher.
-            <list type="bullet">
-            <item>
-            <term>Compiler matcher</term>
-            <description>Used to satisfy the compiler requirements for the 
-            argument. Needs to be a method optionally receiving any arguments 
-            you might need for the matching, but with a return type that 
-            matches that of the argument. 
-            <para>
-            Let's say I want to match a lists of orders that contains 
-            a particular one. I might create a compiler matcher like the following:
-            </para>
-            <code>
-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable&lt;Order&gt; Contains(Order order)
-              {
-                return null;
-              }
-            }
-            </code>
-            Now we can invoke this static method instead of an argument in an 
-            invocation:
-            <code>
-            var order = new Order { ... };
-            var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-            
-            mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-                .Throws&lt;ArgumentException&gt;();
-            </code>
-            Note that the return value from the compiler matcher is irrelevant. 
-            This method will never be called, and is just used to satisfy the 
-            compiler and to signal Moq that this is not a method that we want 
-            to be invoked at runtime.
-            </description>
-            </item>
-            <item>
-            <term>Runtime matcher</term>
-            <description>
-            The runtime matcher is the one that will actually perform evaluation 
-            when the test is run, and is defined by convention to have the 
-            same signature as the compiler matcher, but where the return 
-            value is the first argument to the call, which contains the 
-            object received by the actual invocation at runtime:
-            <code>
-              public static bool Contains(IEnumerable&lt;Order&gt; orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            </code>
-            At runtime, the mocked method will be invoked with a specific 
-            list of orders. This value will be passed to this runtime 
-            matcher as the first argument, while the second argument is the 
-            one specified in the setup (<c>x.Save(Orders.Contains(order))</c>).
-            <para>
-            The boolean returned determines whether the given argument has been 
-            matched. If all arguments to the expected method are matched, then 
-            the setup matches and is evaluated.
-            </para>
-            </description>
-            </item>
-            </list>
-            </para>
-            Using this extensible infrastructure, you can easily replace the entire 
-            <see cref="T:Moq.It"/> set of matchers with your own. You can also avoid the 
-            typical (and annoying) lengthy expressions that result when you have 
-            multiple arguments that use generics.
-            </remarks>
-            <example>
-            The following is the complete example explained above:
-            <code>
-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable&lt;Order&gt; Contains(Order order)
-              {
-                return null;
-              }
-              
-              public static bool Contains(IEnumerable&lt;Order&gt; orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            }
-            </code>
-            And the concrete test using this matcher:
-            <code>
-            var order = new Order { ... };
-            var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-            
-            mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-                .Throws&lt;ArgumentException&gt;();
-                
-            // use mock, invoke Save, and have the matcher filter.
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Mock`1">
-            <summary>
-			Provides a mock implementation of <typeparamref name="T"/>.
-		</summary><remarks>
-			Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked.
-			<para>
-				The behavior of the mock with regards to the setups and the actual calls is determined
-				by the optional <see cref="T:Moq.MockBehavior"/> that can be passed to the <see cref="M:Moq.Mock`1.#ctor(Moq.MockBehavior)"/>
-				constructor.
-			</para>
-		</remarks><typeparam name="T">Type to mock, which can be an interface or a class.</typeparam><example group="overview" order="0">
-			The following example shows establishing setups with specific values
-			for method invocations:
-			<code>
-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock&lt;IWarehouse&gt;();
-
-				mock.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Returns(true);
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.True(order.IsFilled);
-			</code>
-			The following example shows how to use the <see cref="T:Moq.It"/> class
-			to specify conditions for arguments instead of specific values:
-			<code>
-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock&lt;IWarehouse&gt;();
-
-				// shows how to expect a value within a range
-				mock.Setup(x =&gt; x.HasInventory(
-							It.IsAny&lt;string&gt;(),
-							It.IsInRange(0, 100, Range.Inclusive)))
-					 .Returns(false);
-
-				// shows how to throw for unexpected calls.
-				mock.Setup(x =&gt; x.Remove(
-							It.IsAny&lt;string&gt;(),
-							It.IsAny&lt;int&gt;()))
-					 .Throws(new InvalidOperationException());
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.False(order.IsFilled);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Expect(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.Expect``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectSet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectSet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(System.Boolean)">
-            <summary>
-            Ctor invoked by AsTInterface exclusively.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor">
-            <summary>
-			Initializes an instance of the mock with <see cref="F:Moq.MockBehavior.Default">default behavior</see>.
-		</summary><example>
-			<code>var mock = new Mock&lt;IFormatProvider&gt;();</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(System.Object[])">
-            <summary>
-			Initializes an instance of the mock with <see cref="F:Moq.MockBehavior.Default">default behavior</see> and with
-			the given constructor arguments for the class. (Only valid when <typeparamref name="T"/> is a class)
-		</summary><remarks>
-			The mock will try to find the best match constructor given the constructor arguments, and invoke that
-			to initialize the instance. This applies only for classes, not interfaces.
-		</remarks><example>
-			<code>var mock = new Mock&lt;MyProvider&gt;(someArgument, 25);</code>
-		</example><param name="args">Optional constructor arguments if the mocked type is a class.</param>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(Moq.MockBehavior)">
-            <summary>
-			Initializes an instance of the mock with the specified <see cref="T:Moq.MockBehavior">behavior</see>.
-		</summary><example>
-			<code>var mock = new Mock&lt;IFormatProvider&gt;(MockBehavior.Relaxed);</code>
-		</example><param name="behavior">Behavior of the mock.</param>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(Moq.MockBehavior,System.Object[])">
-            <summary>
-			Initializes an instance of the mock with a specific <see cref="T:Moq.MockBehavior">behavior</see> with
-			the given constructor arguments for the class.
-		</summary><remarks>
-			The mock will try to find the best match constructor given the constructor arguments, and invoke that
-			to initialize the instance. This applies only to classes, not interfaces.
-		</remarks><example>
-			<code>var mock = new Mock&lt;MyProvider&gt;(someArgument, 25);</code>
-		</example><param name="behavior">Behavior of the mock.</param><param name="args">Optional constructor arguments if the mocked type is a class.</param>
-        </member>
-        <member name="M:Moq.Mock`1.OnGetObject">
-            <summary>
-            Returns the mocked object value.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.Setup(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a void method.
-		</summary><remarks>
-			If more than one setup is specified for the same method or property,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="expression">Lambda expression that specifies the expected method invocation.</param><example group="setups">
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				mock.Setup(x =&gt; x.Execute("ping"));
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Setup``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a value returning method.
-		</summary><typeparam name="TResult">Type of the return value. Typically omitted as it can be inferred from the expression.</typeparam><remarks>
-			If more than one setup is specified for the same method or property,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="expression">Lambda expression that specifies the method invocation.</param><example group="setups">
-			<code>
-				mock.Setup(x =&gt; x.HasInventory("Talisker", 50)).Returns(true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property getter.
-		</summary><remarks>
-			If more than one setup is set for the same property getter,
-			the latest one wins and is the one that will be executed.
-		</remarks><typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam><param name="expression">Lambda expression that specifies the property getter.</param><example group="setups">
-			<code>
-				mock.SetupGet(x =&gt; x.Suspended)
-					 .Returns(true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupSet``1(System.Action{`0})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property setter.
-		</summary><remarks>
-			If more than one setup is set for the same property setter,
-			the latest one wins and is the one that will be executed.
-			<para>
-				This overloads allows the use of a callback already
-				typed for the property type.
-			</para>
-		</remarks><typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam><param name="setterExpression">The Lambda expression that sets a property to a value.</param><example group="setups">
-			<code>
-				mock.SetupSet(x =&gt; x.Suspended = true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupSet(System.Action{`0})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property setter.
-		</summary><remarks>
-			If more than one setup is set for the same property setter,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="setterExpression">Lambda expression that sets a property to a value.</param><example group="setups">
-			<code>
-				mock.SetupSet(x =&gt; x.Suspended = true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupProperty``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies that the given property should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. (this is also
-			known as "stubbing").
-		</summary><typeparam name="TProperty">
-			Type of the property, inferred from the property
-			expression (does not need to be specified).
-		</typeparam><param name="property">Property expression to stub.</param><example>
-			If you have an interface with an int property <c>Value</c>, you might
-			stub it using the following straightforward call:
-			<code>
-				var mock = new Mock&lt;IHaveValue&gt;();
-				mock.Stub(v =&gt; v.Value);
-			</code>
-			After the <c>Stub</c> call has been issued, setting and
-			retrieving the object value will behave as expected:
-			<code>
-				IHaveValue v = mock.Object;
-
-				v.Value = 5;
-				Assert.Equal(5, v.Value);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupProperty``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
-            <summary>
-			Specifies that the given property should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. This overload
-			allows setting the initial value for the property. (this is also
-			known as "stubbing").
-		</summary><typeparam name="TProperty">
-			Type of the property, inferred from the property
-			expression (does not need to be specified).
-		</typeparam><param name="property">Property expression to stub.</param><param name="initialValue">Initial value for the property.</param><example>
-			If you have an interface with an int property <c>Value</c>, you might
-			stub it using the following straightforward call:
-			<code>
-				var mock = new Mock&lt;IHaveValue&gt;();
-				mock.SetupProperty(v =&gt; v.Value, 5);
-			</code>
-			After the <c>SetupProperty</c> call has been issued, setting and
-			retrieving the object value will behave as expected:
-			<code>
-				IHaveValue v = mock.Object;
-				// Initial value was stored
-				Assert.Equal(5, v.Value);
-
-				// New value set which changes the initial value
-				v.Value = 6;
-				Assert.Equal(6, v.Value);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupAllProperties">
-            <summary>
-			Specifies that the all properties on the mock should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. (this is also
-			known as "stubbing"). The default value for each property will be the
-			one generated as specified by the <see cref="P:Moq.Mock.DefaultValue"/> property for the mock.
-		</summary><remarks>
-			If the mock <see cref="P:Moq.Mock.DefaultValue"/> is set to <see cref="F:Moq.DefaultValue.Mock"/>,
-			the mocked default values will also get all properties setup recursively.
-		</remarks>
-        </member>
-        <member name="M:Moq.Mock`1.When(System.Func{System.Boolean})">
-            <!-- No matching elements were found for the following include tag --><include file="Mock.Generic.xdoc" path="docs/doc[@for=&quot;Mock{T}.When&quot;]/*"/>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc =&gt; proc.Execute("ping"));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},Moq.Times)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock,
-			specifying a failure error message. Use in conjuntion with the default
-			<see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc =&gt; proc.Execute("ping"));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock,
-			specifying a failure error message. Use in conjuntion with the default
-			<see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse =&gt; warehouse.HasInventory(TALISKER, 50));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock. Use in conjuntion
-			with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock, specifying a failure
-			error message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given invocation
-			with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse =&gt; warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked");
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock, specifying a failure
-			error message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Verifies that a property was read on the mock.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was retrieved from it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse =&gt; warehouse.IsClosed);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times)">
-            <summary>
-			Verifies that a property was read on the mock.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="expression">Expression to verify.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},System.String)">
-            <summary>
-			Verifies that a property was read on the mock, specifying a failure
-			error message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was retrieved from it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse =&gt; warehouse.IsClosed);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a property was read on the mock, specifying a failure
-			error message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0})">
-            <summary>
-			Verifies that a property was set on the mock.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was set on it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse =&gt; warehouse.IsClosed = true);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="setterExpression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},Moq.Times)">
-            <summary>
-			Verifies that a property was set on the mock.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="setterExpression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},System.String)">
-            <summary>
-			Verifies that a property was set on the mock, specifying
-			a failure message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was set on it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse =&gt; warehouse.IsClosed = true, "Warehouse should always be closed after the action");
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="setterExpression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},Moq.Times,System.String)">
-            <summary>
-			Verifies that a property was set on the mock, specifying
-			a failure message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="setterExpression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Raise(System.Action{`0},System.EventArgs)">
-            <summary>
-			Raises the event referenced in <paramref name="eventExpression"/> using
-			the given <paramref name="args"/> argument.
-		</summary><exception cref="T:System.ArgumentException">
-			The <paramref name="args"/> argument is
-			invalid for the target event invocation, or the <paramref name="eventExpression"/> is
-			not an event attach or detach expression.
-		</exception><example>
-			The following example shows how to raise a <see cref="E:System.ComponentModel.INotifyPropertyChanged.PropertyChanged"/> event:
-			<code>
-				var mock = new Mock&lt;IViewModel&gt;();
-
-				mock.Raise(x =&gt; x.PropertyChanged -= null, new PropertyChangedEventArgs("Name"));
-			</code>
-		</example><example>
-			This example shows how to invoke an event with a custom event arguments
-			class in a view that will cause its corresponding presenter to
-			react by changing its state:
-			<code>
-				var mockView = new Mock&lt;IOrdersView&gt;();
-				var presenter = new OrdersPresenter(mockView.Object);
-
-				// Check that the presenter has no selection by default
-				Assert.Null(presenter.SelectedOrder);
-
-				// Raise the event with a specific arguments data
-				mockView.Raise(v =&gt; v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) });
-
-				// Now the presenter reacted to the event, and we have a selected order
-				Assert.NotNull(presenter.SelectedOrder);
-				Assert.Equal("moq", presenter.SelectedOrder.ProductName);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Raise(System.Action{`0},System.Object[])">
-            <summary>
-			Raises the event referenced in <paramref name="eventExpression"/> using
-			the given <paramref name="args"/> argument for a non-EventHandler typed event.
-		</summary><exception cref="T:System.ArgumentException">
-			The <paramref name="args"/> arguments are
-			invalid for the target event invocation, or the <paramref name="eventExpression"/> is
-			not an event attach or detach expression.
-		</exception><example>
-			The following example shows how to raise a custom event that does not adhere to 
-			the standard <c>EventHandler</c>:
-			<code>
-				var mock = new Mock&lt;IViewModel&gt;();
-
-				mock.Raise(x =&gt; x.MyEvent -= null, "Name", bool, 25);
-			</code>
-		</example>
-        </member>
-        <member name="P:Moq.Mock`1.Object">
-            <summary>
-			Exposes the mocked object instance.
-		</summary>
-        </member>
-        <member name="T:Moq.MockLegacyExtensions">
-            <summary>
-            Provides legacy API members as extensions so that 
-            existing code continues to compile, but new code 
-            doesn't see then.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.SetupSet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1,System.String)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="T:Moq.MockExtensions">
-            <summary>
-            Provides additional methods on mocks.
-            </summary>
-            <devdoc>
-            Provided as extension methods as they confuse the compiler 
-            with the overloads taking Action.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockExtensions.SetupSet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Specifies a setup on the mocked type for a call to 
-            to a property setter, regardless of its value.
-            </summary>
-            <remarks>
-            If more than one setup is set for the same property setter, 
-            the latest one wins and is the one that will be executed.
-            </remarks>
-            <typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam>
-            <typeparam name="T">Type of the mock.</typeparam>
-            <param name="mock">The target mock for the setup.</param>
-            <param name="expression">Lambda expression that specifies the property setter.</param>
-            <example group="setups">
-            <code>
-            mock.SetupSet(x =&gt; x.Suspended);
-            </code>
-            </example>
-            <devdoc>
-            This method is not legacy, but must be on an extension method to avoid 
-            confusing the compiler with the new Action syntax.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Verifies that a property has been set on the mock, regarless of its value.
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <param name="expression">Expression to verify.</param>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},System.String)">
-            <summary>
-            Verifies that a property has been set on the mock, specifying a failure  
-            error message. 
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <param name="expression">Expression to verify.</param>
-            <param name="failMessage">Message to show if verification fails.</param>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},Moq.Times)">
-            <summary>
-            Verifies that a property has been set on the mock, regardless 
-            of the value but only the specified number of times.
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="expression">Expression to verify.</param>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},Moq.Times,System.String)">
-            <summary>
-            Verifies that a property has been set on the mock, regardless 
-            of the value but only the specified number of times, and specifying a failure  
-            error message. 
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="failMessage">Message to show if verification fails.</param>
-            <param name="expression">Expression to verify.</param>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="T:Moq.SequenceExtensions">
-            <summary>
-            Helper for sequencing return values in the same method.
-            </summary>
-        </member>
-        <member name="M:Moq.SequenceExtensions.SetupSequence``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Return a sequence of values, once per call.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToLambda(System.Linq.Expressions.Expression)">
-            <summary>
-            Casts the expression to a lambda expression, removing 
-            a cast if there's any.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToMethodCall(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Casts the body of the lambda expression to a <see cref="T:System.Linq.Expressions.MethodCallExpression"/>.
-            </summary>
-            <exception cref="T:System.ArgumentException">If the body is not a method call.</exception>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToPropertyInfo(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Converts the body of the lambda expression into the <see cref="T:System.Reflection.PropertyInfo"/> referenced by it.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsProperty(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Checks whether the body of the lambda expression is a property access.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsProperty(System.Linq.Expressions.Expression)">
-            <summary>
-            Checks whether the expression is a property access.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsPropertyIndexer(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Checks whether the body of the lambda expression is a property indexer, which is true 
-            when the expression is an <see cref="T:System.Linq.Expressions.MethodCallExpression"/> whose 
-            <see cref="P:System.Linq.Expressions.MethodCallExpression.Method"/> has <see cref="P:System.Reflection.MethodBase.IsSpecialName"/> 
-            equal to <see langword="true"/>.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsPropertyIndexer(System.Linq.Expressions.Expression)">
-            <summary>
-            Checks whether the expression is a property indexer, which is true 
-            when the expression is an <see cref="T:System.Linq.Expressions.MethodCallExpression"/> whose 
-            <see cref="P:System.Linq.Expressions.MethodCallExpression.Method"/> has <see cref="P:System.Reflection.MethodBase.IsSpecialName"/> 
-            equal to <see langword="true"/>.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.CastTo``1(System.Linq.Expressions.Expression)">
-            <summary>
-            Creates an expression that casts the given expression to the <typeparamref name="T"/> 
-            type.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToStringFixed(System.Linq.Expressions.Expression)">
-            <devdoc>
-            TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 
-            is fixed.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Evaluator">
-            <summary>
-            Provides partial evaluation of subtrees, whenever they can be evaluated locally.
-            </summary>
-            <author>Matt Warren: http://blogs.msdn.com/mattwar</author>
-            <contributor>Documented by InSTEDD: http://www.instedd.org</contributor>
-        </member>
-        <member name="M:Moq.Evaluator.PartialEval(System.Linq.Expressions.Expression,System.Func{System.Linq.Expressions.Expression,System.Boolean})">
-            <summary>
-            Performs evaluation and replacement of independent sub-trees
-            </summary>
-            <param name="expression">The root of the expression tree.</param>
-            <param name="fnCanBeEvaluated">A function that decides whether a given expression
-            node can be part of the local function.</param>
-            <returns>A new tree with sub-trees evaluated and replaced.</returns>
-        </member>
-        <member name="M:Moq.Evaluator.PartialEval(System.Linq.Expressions.Expression)">
-            <summary>
-            Performs evaluation and replacement of independent sub-trees
-            </summary>
-            <param name="expression">The root of the expression tree.</param>
-            <returns>A new tree with sub-trees evaluated and replaced.</returns>
-        </member>
-        <member name="T:Moq.Evaluator.SubtreeEvaluator">
-            <summary>
-            Evaluates and replaces sub-trees when first candidate is reached (top-down)
-            </summary>
-        </member>
-        <member name="T:Moq.Evaluator.Nominator">
-            <summary>
-            Performs bottom-up analysis to determine which nodes can possibly
-            be part of an evaluated sub-tree.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotNull``1(System.Linq.Expressions.Expression{System.Func{``0}},``0)">
-            <summary>
-            Ensures the given <paramref name="value"/> is not null.
-            Throws <see cref="T:System.ArgumentNullException"/> otherwise.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotNullOrEmpty(System.Linq.Expressions.Expression{System.Func{System.String}},System.String)">
-            <summary>
-            Ensures the given string <paramref name="value"/> is not null or empty.
-            Throws <see cref="T:System.ArgumentNullException"/> in the first case, or 
-            <see cref="T:System.ArgumentException"/> in the latter.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotOutOfRangeInclusive``1(System.Linq.Expressions.Expression{System.Func{``0}},``0,``0,``0)">
-            <summary>
-            Checks an argument to ensure it is in the specified range including the edges.
-            </summary>
-            <typeparam name="T">Type of the argument to check, it must be an <see cref="T:System.IComparable"/> type.
-            </typeparam>
-            <param name="reference">The expression containing the name of the argument.</param>
-            <param name="value">The argument value to check.</param>
-            <param name="from">The minimun allowed value for the argument.</param>
-            <param name="to">The maximun allowed value for the argument.</param>
-        </member>
-        <member name="M:Moq.Guard.NotOutOfRangeExclusive``1(System.Linq.Expressions.Expression{System.Func{``0}},``0,``0,``0)">
-            <summary>
-            Checks an argument to ensure it is in the specified range excluding the edges.
-            </summary>
-            <typeparam name="T">Type of the argument to check, it must be an <see cref="T:System.IComparable"/> type.
-            </typeparam>
-            <param name="reference">The expression containing the name of the argument.</param>
-            <param name="value">The argument value to check.</param>
-            <param name="from">The minimun allowed value for the argument.</param>
-            <param name="to">The maximun allowed value for the argument.</param>
-        </member>
-        <member name="T:Moq.IMocked`1">
-            <summary>
-            Implemented by all generated mock object instances.
-            </summary>
-        </member>
-        <member name="T:Moq.IMocked">
-            <summary>
-            Implemented by all generated mock object instances.
-            </summary>
-        </member>
-        <member name="P:Moq.IMocked.Mock">
-            <summary>
-            Reference the Mock that contains this as the <c>mock.Object</c> value.
-            </summary>
-        </member>
-        <member name="P:Moq.IMocked`1.Mock">
-            <summary>
-            Reference the Mock that contains this as the <c>mock.Object</c> value.
-            </summary>
-        </member>
-        <member name="T:Moq.Interceptor">
-            <summary>
-            Implements the actual interception and method invocation for 
-            all mocks.
-            </summary>
-        </member>
-        <member name="M:Moq.Interceptor.GetEventFromName(System.String)">
-            <summary>
-            Get an eventInfo for a given event name.  Search type ancestors depth first if necessary.
-            </summary>
-            <param name="eventName">Name of the event, with the set_ or get_ prefix already removed</param>
-        </member>
-        <member name="M:Moq.Interceptor.GetAncestorTypes(System.Type)">
-            <summary>
-            Given a type return all of its ancestors, both types and interfaces.
-            </summary>
-            <param name="initialType">The type to find immediate ancestors of</param>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetupSetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallbackSetter`1">
-            <summary>
-            Defines the <c>Callback</c> verb for property setter setups.
-            </summary>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallbackSetter`1.Callback(System.Action{`0})">
-            <summary>
-            Specifies a callback to invoke when the property is set that receives the 
-            property value being set.
-            </summary>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the property value being set. 
-            <code>
-            mock.SetupSet(x => x.Suspended)
-                .Callback((bool state) => Console.WriteLine(state));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.It">
-            <summary>
-			Allows the specification of a matching condition for an
-			argument in a method invocation, rather than a specific
-			argument value. "It" refers to the argument being matched.
-		</summary><remarks>
-			This class allows the setup to match a method invocation
-			with an arbitrary value, with a value in a specified range, or
-			even one that matches a given predicate.
-		</remarks>
-        </member>
-        <member name="M:Moq.It.IsAny``1">
-            <summary>
-			Matches any value of the given <typeparamref name="TValue"/> type.
-		</summary><remarks>
-			Typically used when the actual argument value for a method
-			call is not relevant.
-		</remarks><example>
-			<code>
-				// Throws an exception for a call to Remove with any string value.
-				mock.Setup(x =&gt; x.Remove(It.IsAny&lt;string&gt;())).Throws(new InvalidOperationException());
-			</code>
-		</example><typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.It.Is``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-			Matches any value that satisfies the given predicate.
-		</summary><typeparam name="TValue">Type of the argument to check.</typeparam><param name="match">The predicate used to match the method argument.</param><remarks>
-			Allows the specification of a predicate to perform matching
-			of method call arguments.
-		</remarks><example>
-			This example shows how to return the value <c>1</c> whenever the argument to the
-			<c>Do</c> method is an even number.
-			<code>
-				mock.Setup(x =&gt; x.Do(It.Is&lt;int&gt;(i =&gt; i % 2 == 0)))
-				.Returns(1);
-			</code>
-			This example shows how to throw an exception if the argument to the
-			method is a negative number:
-			<code>
-				mock.Setup(x =&gt; x.GetUser(It.Is&lt;int&gt;(i =&gt; i &lt; 0)))
-				.Throws(new ArgumentException());
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsInRange``1(``0,``0,Moq.Range)">
-            <summary>
-			Matches any value that is in the range specified.
-		</summary><typeparam name="TValue">Type of the argument to check.</typeparam><param name="from">The lower bound of the range.</param><param name="to">The upper bound of the range.</param><param name="rangeKind">
-			The kind of range. See <see cref="T:Moq.Range"/>.
-		</param><example>
-			The following example shows how to expect a method call
-			with an integer argument within the 0..100 range.
-			<code>
-				mock.Setup(x =&gt; x.HasInventory(
-				It.IsAny&lt;string&gt;(),
-				It.IsInRange(0, 100, Range.Inclusive)))
-				.Returns(false);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsRegex(System.String)">
-            <summary>
-			Matches a string argument if it matches the given regular expression pattern.
-		</summary><param name="regex">The pattern to use to match the string argument value.</param><example>
-			The following example shows how to expect a call to a method where the
-			string argument matches the given regular expression:
-			<code>
-				mock.Setup(x =&gt; x.Check(It.IsRegex("[a-z]+"))).Returns(1);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsRegex(System.String,System.Text.RegularExpressions.RegexOptions)">
-            <summary>
-			Matches a string argument if it matches the given regular expression pattern.
-		</summary><param name="regex">The pattern to use to match the string argument value.</param><param name="options">The options used to interpret the pattern.</param><example>
-			The following example shows how to expect a call to a method where the
-			string argument matches the given regular expression, in a case insensitive way:
-			<code>
-				mock.Setup(x =&gt; x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1);
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.Matchers.MatcherAttributeMatcher">
-            <summary>
-            Matcher to treat static functions as matchers.
-            
-            mock.Setup(x => x.StringMethod(A.MagicString()));
-            
-            public static class A 
-            {
-                [Matcher]
-                public static string MagicString() { return null; }
-                public static bool MagicString(string arg)
-                {
-                    return arg == "magic";
-                }
-            }
-            
-            Will succeed if: mock.Object.StringMethod("magic");
-            and fail with any other call.
-            </summary>
-        </member>
-        <member name="T:Moq.MockBehavior">
-            <summary>
-            Options to customize the behavior of the mock. 
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Strict">
-            <summary>
-            Causes the mock to always throw 
-            an exception for invocations that don't have a 
-            corresponding setup.
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Loose">
-            <summary>
-            Will never throw exceptions, returning default  
-            values when necessary (null for reference types, 
-            zero for value types or empty enumerables and arrays).
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Default">
-            <summary>
-            Default mock behavior, which equals <see cref="F:Moq.MockBehavior.Loose"/>.
-            </summary>
-        </member>
-        <member name="T:Moq.MockException">
-            <summary>
-            Exception thrown by mocks when setups are not matched, 
-            the mock is not properly setup, etc.
-            </summary>
-            <remarks>
-            A distinct exception type is provided so that exceptions 
-            thrown by the mock can be differentiated in tests that 
-            expect other exceptions to be thrown (i.e. ArgumentException).
-            <para>
-            Richer exception hierarchy/types are not provided as 
-            tests typically should <b>not</b> catch or expect exceptions 
-            from the mocks. These are typically the result of changes 
-            in the tested class or its collaborators implementation, and 
-            result in fixes in the mock setup so that they dissapear and 
-            allow the test to pass.
-            </para>
-            </remarks>
-        </member>
-        <member name="M:Moq.MockException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
-            <summary>
-            Supports the serialization infrastructure.
-            </summary>
-            <param name="info">Serialization information.</param>
-            <param name="context">Streaming context.</param>
-        </member>
-        <member name="M:Moq.MockException.GetObjectData(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
-            <summary>
-            Supports the serialization infrastructure.
-            </summary>
-            <param name="info">Serialization information.</param>
-            <param name="context">Streaming context.</param>
-        </member>
-        <member name="T:Moq.MockException.ExceptionReason">
-            <summary>
-            Made internal as it's of no use for 
-            consumers, but it's important for 
-            our own tests.
-            </summary>
-        </member>
-        <member name="T:Moq.MockVerificationException">
-            <devdoc>
-            Used by the mock factory to accumulate verification 
-            failures.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockVerificationException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
-            <summary>
-            Supports the serialization infrastructure.
-            </summary>
-        </member>
-        <member name="T:Moq.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.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:Moq.Properties.Resources.AlreadyInitialized">
-            <summary>
-              Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ArgumentCannotBeEmpty">
-            <summary>
-              Looks up a localized string similar to Value cannot be an empty string..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.AsMustBeInterface">
-            <summary>
-              Looks up a localized string similar to Can only add interfaces to the mock..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.CantSetReturnValueForVoid">
-            <summary>
-              Looks up a localized string similar to Can&apos;t set return value for void method {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ConstructorArgsForInterface">
-            <summary>
-              Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ConstructorNotFound">
-            <summary>
-              Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.EventNofFound">
-            <summary>
-              Looks up a localized string similar to Could not locate event for attach or detach method {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.FieldsNotSupported">
-            <summary>
-              Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.InvalidMockClass">
-            <summary>
-              Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. .
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.InvalidMockGetType">
-             <summary>
-               Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it&apos;s not the main type of the mock or any of its additional interfaces.
-            Please cast the argument to one of the supported types: {1}.
-            Remember that there&apos;s no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed..
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqBinaryOperatorNotSupported">
-            <summary>
-              Looks up a localized string similar to The equals (&quot;==&quot; or &quot;=&quot; in VB) and the conditional &apos;and&apos; (&quot;&amp;&amp;&quot; or &quot;AndAlso&quot; in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqMethodNotSupported">
-            <summary>
-              Looks up a localized string similar to LINQ method &apos;{0}&apos; not supported..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqMethodNotVirtual">
-            <summary>
-              Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MemberMissing">
-            <summary>
-              Looks up a localized string similar to Member {0}.{1} does not exist..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MethodIsPublic">
-             <summary>
-               Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead:
-            mock.Setup(x =&gt; x.{1}());
-            .
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MockExceptionMessage">
-             <summary>
-               Looks up a localized string similar to {0} invocation failed with mock behavior {1}.
-            {2}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MoreThanNCalls">
-            <summary>
-              Looks up a localized string similar to Expected only {0} calls to {1}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MoreThanOneCall">
-            <summary>
-              Looks up a localized string similar to Expected only one call to {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtLeast">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at least {2} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtLeastOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at least once, but was never performed: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtMost">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at most {3} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtMostOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at most once, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsBetweenExclusive">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsBetweenInclusive">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsExactly">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock exactly {2} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsNever">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock should never have been performed, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock once, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoSetup">
-            <summary>
-              Looks up a localized string similar to All invocations on the mock must have a corresponding setup..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ObjectInstanceNotMock">
-            <summary>
-              Looks up a localized string similar to Object instance was not created by Moq..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.OutExpressionMustBeConstantValue">
-            <summary>
-              Looks up a localized string similar to Out expression must evaluate to a constant value..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyGetNotFound">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not have a getter..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyMissing">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not exist..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyNotReadable">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} is write-only..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyNotWritable">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} is read-only..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertySetNotFound">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not have a setter..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.RaisedUnassociatedEvent">
-            <summary>
-              Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.RefExpressionMustBeConstantValue">
-            <summary>
-              Looks up a localized string similar to Ref expression must evaluate to a constant value..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ReturnValueRequired">
-            <summary>
-              Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupLambda">
-            <summary>
-              Looks up a localized string similar to A lambda expression is expected as the argument to It.Is&lt;T&gt;..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNever">
-            <summary>
-              Looks up a localized string similar to Invocation {0} should not have been made..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotMethod">
-            <summary>
-              Looks up a localized string similar to Expression is not a method invocation: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotProperty">
-            <summary>
-              Looks up a localized string similar to Expression is not a property access: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotSetter">
-            <summary>
-              Looks up a localized string similar to Expression is not a property setter invocation..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupOnNonMemberMethod">
-            <summary>
-              Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupOnNonOverridableMember">
-            <summary>
-              Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.TypeNotImplementInterface">
-            <summary>
-              Looks up a localized string similar to Type {0} does not implement required interface {1}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.TypeNotInheritFromType">
-            <summary>
-              Looks up a localized string similar to Type {0} does not from required type {1}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnexpectedPublicProperty">
-             <summary>
-               Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as:
-            mock.Setup(x =&gt; x.{1}).Returns(value);
-            mock.SetupGet(x =&gt; x.{1}).Returns(value); //equivalent to previous one
-            mock.SetupSet(x =&gt; x.{1}).Callback(callbackDelegate);
-            .
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedExpression">
-            <summary>
-              Looks up a localized string similar to Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedIntermediateExpression">
-            <summary>
-              Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedIntermediateType">
-            <summary>
-              Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedMatcherParamsForSetter">
-            <summary>
-              Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedMember">
-            <summary>
-              Looks up a localized string similar to Member {0} is not supported for protected mocking..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedNonStaticMatcherForSetter">
-            <summary>
-              Looks up a localized string similar to Setter expression can only use static custom matchers..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.VerficationFailed">
-             <summary>
-               Looks up a localized string similar to The following setups were not matched:
-            {0}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.VerifyOnNonVirtualMember">
-            <summary>
-              Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}.
-            </summary>
-        </member>
-        <member name="T:Moq.Protected.IProtectedMock`1">
-            <summary>
-            Allows setups to be specified for protected members by using their 
-            name as a string, rather than strong-typing them which is not possible 
-            due to their visibility.
-            </summary>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Setup(System.String,System.Object[])">
-            <summary>
-            Specifies a setup for a void method invocation with the given 
-            <paramref name="voidMethodName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <param name="voidMethodName">The name of the void method to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Setup``1(System.String,System.Object[])">
-            <summary>
-            Specifies a setup for an invocation on a property or a non void method with the given 
-            <paramref name="methodOrPropertyName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <param name="methodOrPropertyName">The name of the method or property to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <typeparam name="TResult">The return type of the method or property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.SetupGet``1(System.String)">
-            <summary>
-            Specifies a setup for an invocation on a property getter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.SetupSet``1(System.String,System.Object)">
-            <summary>
-            Specifies a setup for an invocation on a property setter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <param name="value">The property value. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Verify(System.String,Moq.Times,System.Object[])">
-            <summary>
-            Specifies a verify for a void method with the given <paramref name="methodName"/>,
-            optionally specifying arguments for the method call. Use in conjuntion with the default
-            <see cref="F:Moq.MockBehavior.Loose"/>.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="methodName">The name of the void method to be verified.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Verify``1(System.String,Moq.Times,System.Object[])">
-            <summary>
-            Specifies a verify for an invocation on a property or a non void method with the given 
-            <paramref name="methodName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            <param name="methodName">The name of the method or property to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <typeparam name="TResult">The type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.VerifyGet``1(System.String,Moq.Times)">
-            <summary>
-            Specifies a verify for an invocation on a property getter with the given 
-            <paramref name="propertyName"/>.
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.VerifySet``1(System.String,Moq.Times,System.Object)">
-            <summary>
-            Specifies a setup for an invocation on a property setter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            <param name="propertyName">The name of the property.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="value">The property value.</param>
-            <typeparam name="TProperty">The type of the property. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</typeparam>
-        </member>
-        <member name="T:Moq.Protected.ItExpr">
-            <summary>
-            Allows the specification of a matching condition for an 
-            argument in a protected member setup, rather than a specific 
-            argument value. "ItExpr" refers to the argument being matched.
-            </summary>
-            <remarks>
-            <para>Use this variant of argument matching instead of 
-            <see cref="T:Moq.It"/> for protected setups.</para>
-            This class allows the setup to match a method invocation 
-            with an arbitrary value, with a value in a specified range, or 
-            even one that matches a given predicate, or null.
-            </remarks>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsNull``1">
-            <summary>
-            Matches a null value of the given <typeparamref name="TValue"/> type.
-            </summary>
-            <remarks>
-            Required for protected mocks as the null value cannot be used 
-            directly as it prevents proper method overload selection.
-            </remarks>
-            <example>
-            <code>
-            // Throws an exception for a call to Remove with a null string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsNull&lt;string&gt;())
-                .Throws(new InvalidOperationException());
-            </code>
-            </example>
-            <typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsAny``1">
-            <summary>
-            Matches any value of the given <typeparamref name="TValue"/> type.
-            </summary>
-            <remarks>
-            Typically used when the actual argument value for a method 
-            call is not relevant.
-            </remarks>
-            <example>
-            <code>
-            // Throws an exception for a call to Remove with any string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsAny&lt;string&gt;())
-                .Throws(new InvalidOperationException());
-            </code>
-            </example>
-            <typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.Is``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Matches any value that satisfies the given predicate.
-            </summary>
-            <typeparam name="TValue">Type of the argument to check.</typeparam>
-            <param name="match">The predicate used to match the method argument.</param>
-            <remarks>
-            Allows the specification of a predicate to perform matching 
-            of method call arguments.
-            </remarks>
-            <example>
-            This example shows how to return the value <c>1</c> whenever the argument to the 
-            <c>Do</c> method is an even number.
-            <code>
-            mock.Protected()
-                .Setup("Do", ItExpr.Is&lt;int&gt;(i =&gt; i % 2 == 0))
-                .Returns(1);
-            </code>
-            This example shows how to throw an exception if the argument to the 
-            method is a negative number:
-            <code>
-            mock.Protected()
-                .Setup("GetUser", ItExpr.Is&lt;int&gt;(i =&gt; i &lt; 0))
-                .Throws(new ArgumentException());
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsInRange``1(``0,``0,Moq.Range)">
-            <summary>
-            Matches any value that is in the range specified.
-            </summary>
-            <typeparam name="TValue">Type of the argument to check.</typeparam>
-            <param name="from">The lower bound of the range.</param>
-            <param name="to">The upper bound of the range.</param>
-            <param name="rangeKind">The kind of range. See <see cref="T:Moq.Range"/>.</param>
-            <example>
-            The following example shows how to expect a method call 
-            with an integer argument within the 0..100 range.
-            <code>
-            mock.Protected()
-                .Setup("HasInventory",
-                        ItExpr.IsAny&lt;string&gt;(),
-                        ItExpr.IsInRange(0, 100, Range.Inclusive))
-                .Returns(false);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsRegex(System.String)">
-            <summary>
-            Matches a string argument if it matches the given regular expression pattern.
-            </summary>
-            <param name="regex">The pattern to use to match the string argument value.</param>
-            <example>
-            The following example shows how to expect a call to a method where the 
-            string argument matches the given regular expression:
-            <code>
-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+"))
-                .Returns(1);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsRegex(System.String,System.Text.RegularExpressions.RegexOptions)">
-            <summary>
-            Matches a string argument if it matches the given regular expression pattern.
-            </summary>
-            <param name="regex">The pattern to use to match the string argument value.</param>
-            <param name="options">The options used to interpret the pattern.</param>
-            <example>
-            The following example shows how to expect a call to a method where the 
-            string argument matches the given regular expression, in a case insensitive way:
-            <code>
-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase))
-                .Returns(1);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Protected.ProtectedExtension">
-            <summary>
-            Enables the <c>Protected()</c> method on <see cref="T:Moq.Mock`1"/>, 
-            allowing setups to be set for protected members by using their 
-            name as a string, rather than strong-typing them which is not possible 
-            due to their visibility.
-            </summary>
-        </member>
-        <member name="M:Moq.Protected.ProtectedExtension.Protected``1(Moq.Mock{``0})">
-            <summary>
-            Enable protected setups for the mock.
-            </summary>
-            <typeparam name="T">Mocked object type. Typically omitted as it can be inferred from the mock instance.</typeparam>
-            <param name="mock">The mock to set the protected setups on.</param>
-        </member>
-        <member name="T:ThisAssembly">
-            <group name="overview" title="Overview" order="0" />
-            <group name="setups" title="Specifying setups" order="1" />
-            <group name="returns" title="Returning values from members" order="2" />
-            <group name="verification" title="Verifying setups" order="3" />
-            <group name="advanced" title="Advanced scenarios" order="99" />
-            <group name="factory" title="Using MockFactory for consistency across mocks" order="4" />
-        </member>
-        <member name="T:Moq.Range">
-            <summary>
-            Kind of range to use in a filter specified through 
-            <see cref="M:Moq.It.IsInRange``1(``0,``0,Moq.Range)"/>.
-            </summary>
-        </member>
-        <member name="F:Moq.Range.Inclusive">
-            <summary>
-            The range includes the <c>to</c> and 
-            <c>from</c> values.
-            </summary>
-        </member>
-        <member name="F:Moq.Range.Exclusive">
-            <summary>
-            The range does not include the <c>to</c> and 
-            <c>from</c> values.
-            </summary>
-        </member>
-        <member name="T:Moq.DefaultValue">
-            <summary>
-            Determines the way default values are generated 
-            calculated for loose mocks.
-            </summary>
-        </member>
-        <member name="F:Moq.DefaultValue.Empty">
-            <summary>
-            Default behavior, which generates empty values for 
-            value types (i.e. default(int)), empty array and 
-            enumerables, and nulls for all other reference types.
-            </summary>
-        </member>
-        <member name="F:Moq.DefaultValue.Mock">
-            <summary>
-            Whenever the default value generated by <see cref="F:Moq.DefaultValue.Empty"/> 
-            is null, replaces this value with a mock (if the type 
-            can be mocked). 
-            </summary>
-            <remarks>
-            For sealed classes, a null value will be generated.
-            </remarks>
-        </member>
-        <member name="T:Moq.Linq.MockQueryable`1">
-            <summary>
-            A default implementation of IQueryable for use with QueryProvider
-            </summary>
-        </member>
-        <member name="M:Moq.Linq.MockQueryable`1.#ctor(System.Linq.Expressions.MethodCallExpression)">
-            <summary>
-            The <paramref name="underlyingCreateMocks"/> is a 
-            static method that returns an IQueryable of Mocks of T which is used to 
-            apply the linq specification to.
-            </summary>
-        </member>
-        <member name="T:Moq.Match">
-            <summary>
-			Allows creation custom value matchers that can be used on setups and verification,
-			completely replacing the built-in <see cref="T:Moq.It"/> class with your own argument
-			matching rules.
-		</summary><remarks>
-			 See also <see cref="T:Moq.Match`1"/>.
-		</remarks>
-        </member>
-        <member name="M:Moq.Match.Matcher``1">
-            <devdoc>
-            Provided for the sole purpose of rendering the delegate passed to the 
-            matcher constructor if no friendly render lambda is provided.
-            </devdoc>
-        </member>
-        <member name="M:Moq.Match.Create``1(System.Predicate{``0})">
-            <summary>
-			Initializes the match with the condition that
-			will be checked in order to match invocation
-			values.
-		</summary><param name="condition">The condition to match against actual values.</param><remarks>
-			 <seealso cref="T:Moq.Match`1"/>
-		</remarks>
-        </member>
-        <member name="M:Moq.Match.Create``1(System.Predicate{``0},System.Linq.Expressions.Expression{System.Func{``0}})">
-            <!-- No matching elements were found for the following include tag --><include file="Match.xdoc" path="docs/doc[@for=&quot;Match.Create{T}(condition,renderExpression&quot;]/*"/>
-        </member>
-        <member name="M:Moq.Match.SetLastMatch``1(Moq.Match{``0})">
-            <devdoc>
-            This method is used to set an expression as the last matcher invoked, 
-            which is used in the SetupSet to allow matchers in the prop = value 
-            delegate expression. This delegate is executed in "fluent" mode in 
-            order to capture the value being set, and construct the corresponding 
-            methodcall.
-            This is also used in the MatcherFactory for each argument expression.
-            This method ensures that when we execute the delegate, we 
-            also track the matcher that was invoked, so that when we create the 
-            methodcall we build the expression using it, rather than the null/default 
-            value returned from the actual invocation.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Match`1">
-            <summary>
-			Allows creation custom value matchers that can be used on setups and verification,
-			completely replacing the built-in <see cref="T:Moq.It"/> class with your own argument
-			matching rules.
-		</summary><typeparam name="T">Type of the value to match.</typeparam><remarks>
-			The argument matching is used to determine whether a concrete
-			invocation in the mock matches a given setup. This
-			matching mechanism is fully extensible.
-		</remarks><example>
-			Creating a custom matcher is straightforward. You just need to create a method
-			that returns a value from a call to <see cref="M:Moq.Match.Create``1(System.Predicate{``0})"/> with 
-			your matching condition and optional friendly render expression:
-			<code>
-				[Matcher]
-				public Order IsBigOrder()
-				{
-					return Match&lt;Order&gt;.Create(
-						o =&gt; o.GrandTotal &gt;= 5000, 
-						/* a friendly expression to render on failures */
-						() =&gt; IsBigOrder());
-				}
-			</code>
-			This method can be used in any mock setup invocation:
-			<code>
-				mock.Setup(m =&gt; m.Submit(IsBigOrder()).Throws&lt;UnauthorizedAccessException&gt;();
-			</code>
-			At runtime, Moq knows that the return value was a matcher (note that the method MUST be 
-			annotated with the [Matcher] attribute in order to determine this) and
-			evaluates your predicate with the actual value passed into your predicate.
-			<para>
-				Another example might be a case where you want to match a lists of orders
-				that contains a particular one. You might create matcher like the following:
-			</para>
-			<code>
-				public static class Orders
-				{
-					[Matcher]
-					public static IEnumerable&lt;Order&gt; Contains(Order order)
-					{
-						return Match&lt;IEnumerable&lt;Order&gt;&gt;.Create(orders =&gt; orders.Contains(order));
-					}
-				}
-			</code>
-			Now we can invoke this static method instead of an argument in an
-			invocation:
-			<code>
-				var order = new Order { ... };
-				var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-
-				mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-					 .Throws&lt;ArgumentException&gt;();
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.FluentMockContext">
-            <summary>
-            Tracks the current mock and interception context.
-            </summary>
-        </member>
-        <member name="P:Moq.FluentMockContext.IsActive">
-            <summary>
-            Having an active fluent mock context means that the invocation 
-            is being performed in "trial" mode, just to gather the 
-            target method and arguments that need to be matched later 
-            when the actual invocation is made.
-            </summary>
-        </member>
-        <member name="T:Moq.MockDefaultValueProvider">
-            <summary>
-            A <see cref="T:Moq.IDefaultValueProvider"/> that returns an empty default value 
-            for non-mockeable types, and mocks for all other types (interfaces and 
-            non-sealed classes) that can be mocked.
-            </summary>
-        </member>
-        <member name="T:Moq.Mocks">
-            <summary>
-            Allows querying the universe of mocks for those that behave 
-            according to the LINQ query specification.
-            </summary>
-            <devdoc>
-            This entry-point into Linq to Mocks is the only one in the root Moq 
-            namespace to ease discovery. But to get all the mocking extension 
-            methods on Object, a using of Moq.Linq must be done, so that the 
-            polluting of the intellisense for all objects is an explicit opt-in.
-            </devdoc>
-        </member>
-        <member name="M:Moq.Mocks.Of``1">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.Mocks.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.Mocks.OneOf``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mocks.OneOf``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mocks.CreateMockQuery``1">
-            <summary>
-            Creates the mock query with the underlying queriable implementation.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.CreateQueryable``1">
-            <summary>
-            Wraps the enumerator inside a queryable.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.CreateMocks``1">
-            <summary>
-            Method that is turned into the actual call from .Query{T}, to 
-            transform the queryable query into a normal enumerable query.
-            This method is never used directly by consumers.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.SetPropery``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Extension method used to support Linq-like setup properties that are not virtual but do have 
-            a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :)
-            </summary>
-        </member>
-        <member name="T:Moq.QueryableMockExtensions">
-            <summary>
-            Helper extensions that are used by the query translator.
-            </summary>
-        </member>
-        <member name="M:Moq.QueryableMockExtensions.FluentMock``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Retrieves a fluent mock from the given setup expression.
-            </summary>
-        </member>
-        <member name="T:Moq.Times">
-            <summary>
-			Defines the number of invocations allowed by a mocked method.
-		</summary>
-        </member>
-        <member name="M:Moq.Times.AtLeast(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked <paramref name="callCount"/> times as minimum.
-		</summary><param name="callCount">The minimun number of times.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtLeastOnce">
-            <summary>
-			Specifies that a mocked method should be invoked one time as minimum.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtMost(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked <paramref name="callCount"/> time as maximun.
-		</summary><param name="callCount">The maximun number of times.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtMostOnce">
-            <summary>
-			Specifies that a mocked method should be invoked one time as maximun.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Between(System.Int32,System.Int32,Moq.Range)">
-            <summary>
-			Specifies that a mocked method should be invoked between <paramref name="callCountFrom"/> and
-			<paramref name="callCountTo"/> times.
-		</summary><param name="callCountFrom">The minimun number of times.</param><param name="callCountTo">The maximun number of times.</param><param name="rangeKind">
-			The kind of range. See <see cref="T:Moq.Range"/>.
-		</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Exactly(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked exactly <paramref name="callCount"/> times.
-		</summary><param name="callCount">The times that a method or property can be called.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Never">
-            <summary>
-			Specifies that a mocked method should not be invoked.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Once">
-            <summary>
-			Specifies that a mocked method should be invoked exactly one time.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.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:Moq.Times.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:Moq.Times.op_Equality(Moq.Times,Moq.Times)">
-            <summary>
-			Determines whether two specified <see cref="T:Moq.Times"/> objects have the same value.
-		</summary><param name="left">
-			The first <see cref="T:Moq.Times"/>.
-		</param><param name="right">
-			The second <see cref="T:Moq.Times"/>.
-		</param><returns>
-			<c>true</c> if the value of left is the same as the value of right; otherwise, <c>false</c>.
-		</returns>
-        </member>
-        <member name="M:Moq.Times.op_Inequality(Moq.Times,Moq.Times)">
-            <summary>
-			Determines whether two specified <see cref="T:Moq.Times"/> objects have different values.
-		</summary><param name="left">
-			The first <see cref="T:Moq.Times"/>.
-		</param><param name="right">
-			The second <see cref="T:Moq.Times"/>.
-		</param><returns>
-			<c>true</c> if the value of left is different from the value of right; otherwise, <c>false</c>.
-		</returns>
-        </member>
-    </members>
-</doc>
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diff --git a/src/packages/Moq.4.0.10827/lib/NET40/Moq.xml b/src/packages/Moq.4.0.10827/lib/NET40/Moq.xml
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index e0743a6..0000000
--- a/src/packages/Moq.4.0.10827/lib/NET40/Moq.xml
+++ /dev/null
@@ -1,5120 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Moq</name>
-    </assembly>
-    <members>
-        <member name="T:Moq.Language.ISetupConditionResult`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.Setup(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-            The expectation will be considered only in the former condition.
-            </summary>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.Setup``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            The expectation will be considered only in the former condition.
-            </summary>
-            <typeparam name="TResult"></typeparam>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Setups the get.
-            </summary>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-            <param name="expression">The expression.</param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupSet``1(System.Action{`0})">
-            <summary>
-            Setups the set.
-            </summary>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-            <param name="setterExpression">The setter expression.</param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupSet(System.Action{`0})">
-            <summary>
-            Setups the set.
-            </summary>
-            <param name="setterExpression">The setter expression.</param>
-            <returns></returns>
-        </member>
-        <member name="T:Moq.Language.ICallback">
-            <summary>
-            Defines the <c>Callback</c> verb and overloads.
-            </summary>
-        </member>
-        <member name="T:Moq.IHideObjectMembers">
-            <summary>
-            Helper interface used to hide the base <see cref="T:System.Object"/> 
-            members from the fluent API to make it much cleaner 
-            in Visual Studio intellisense.
-            </summary>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.GetType">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.GetHashCode">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.ToString">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.Equals(System.Object)">
-            <summary/>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the method is called.
-            </summary>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            The following example specifies a callback to set a boolean 
-            value that can be used later:
-            <code>
-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``1(System.Action{``0})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T">The argument type of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the concrete invocation argument value. 
-            <para>
-            Notice how the specific string argument is retrieved by simply declaring 
-            it as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Callback((string command) => Console.WriteLine(command));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``2(System.Action{``0,``1})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2) =&gt; Console.WriteLine(arg1 + arg2));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``3(System.Action{``0,``1,``2})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3) =&gt; Console.WriteLine(arg1 + arg2 + arg3));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``4(System.Action{``0,``1,``2,``3})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``5(System.Action{``0,``1,``2,``3,``4})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``6(System.Action{``0,``1,``2,``3,``4,``5})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``7(System.Action{``0,``1,``2,``3,``4,``5,``6})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``8(System.Action{``0,``1,``2,``3,``4,``5,``6,``7})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``9(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``10(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``11(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``12(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``13(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``14(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``15(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``16(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.ICallback`2">
-            <summary>
-            Defines the <c>Callback</c> verb and overloads for callbacks on
-            setups that return a value.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TResult">Type of the return value of the setup.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the method is called.
-            </summary>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            The following example specifies a callback to set a boolean value that can be used later:
-            <code>
-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true)
-                .Returns(true);
-            </code>
-            Note that in the case of value-returning methods, after the <c>Callback</c>
-            call you can still specify the return value.
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``1(System.Action{``0})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T">The type of the argument of the invoked method.</typeparam>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the concrete invocation argument value.
-            <para>
-            Notice how the specific string argument is retrieved by simply declaring
-            it as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Callback(command => Console.WriteLine(command))
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``2(System.Action{``0,``1})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2) =&gt; Console.WriteLine(arg1 + arg2));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``3(System.Action{``0,``1,``2})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3) =&gt; Console.WriteLine(arg1 + arg2 + arg3));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``4(System.Action{``0,``1,``2,``3})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``5(System.Action{``0,``1,``2,``3,``4})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``6(System.Action{``0,``1,``2,``3,``4,``5})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``7(System.Action{``0,``1,``2,``3,``4,``5,``6})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``8(System.Action{``0,``1,``2,``3,``4,``5,``6,``7})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``9(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``10(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``11(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``12(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``13(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``14(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``15(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``16(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.IRaise`1">
-            <summary>
-            Defines the <c>Raises</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)">
-            <summary>
-            Specifies the event that will be raised 
-            when the setup is met.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="args">The event arguments to pass for the raised event.</param>
-            <example>
-            The following example shows how to raise an event when 
-            the setup is met:
-            <code>
-            var mock = new Mock&lt;IContainer&gt;();
-            
-            mock.Setup(add => add.Add(It.IsAny&lt;string&gt;(), It.IsAny&lt;object&gt;()))
-                .Raises(add => add.Added += null, EventArgs.Empty);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.Func{System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised 
-            when the setup is matched.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="func">A function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.Object[])">
-            <summary>
-            Specifies the custom event that will be raised 
-            when the setup is matched.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="args">The arguments to pass to the custom delegate (non EventHandler-compatible).</param>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``1(System.Action{`0},System.Func{``0,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``2(System.Action{`0},System.Func{``0,``1,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``3(System.Action{`0},System.Func{``0,``1,``2,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``4(System.Action{`0},System.Func{``0,``1,``2,``3,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``5(System.Action{`0},System.Func{``0,``1,``2,``3,``4,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``6(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``7(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``8(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``9(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``10(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``11(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``12(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``13(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``14(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``15(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``16(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="T:Moq.Language.IReturns`2">
-            <summary>
-            Defines the <c>Returns</c> verb.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TResult">Type of the return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns(`1)">
-            <summary>
-            Specifies the value to return.
-            </summary>
-            <param name="value">The value to return, or <see langword="null"/>.</param>
-            <example>
-            Return a <c>true</c> value from the method call:
-            <code>
-            mock.Setup(x => x.Execute("ping"))
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns(System.Func{`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method.
-            </summary>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example group="returns">
-            Return a calculated value when the method is called:
-            <code>
-            mock.Setup(x => x.Execute("ping"))
-                .Returns(() => returnValues[0]);
-            </code>
-            The lambda expression to retrieve the return value is lazy-executed, 
-            meaning that its value may change depending on the moment the method 
-            is executed and the value the <c>returnValues</c> array has at 
-            that moment.
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``1(System.Func{``0,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T">The type of the argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example group="returns">
-            Return a calculated value which is evaluated lazily at the time of the invocation.
-            <para>
-            The lookup list can change between invocations and the setup 
-            will return different values accordingly. Also, notice how the specific 
-            string argument is retrieved by simply declaring it as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Returns((string command) => returnValues[command]);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``2(System.Func{``0,``1,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2) => arg1 + arg2);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``3(System.Func{``0,``1,``2,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``4(System.Func{``0,``1,``2,``3,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``5(System.Func{``0,``1,``2,``3,``4,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``6(System.Func{``0,``1,``2,``3,``4,``5,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``7(System.Func{``0,``1,``2,``3,``4,``5,``6,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``8(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``9(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``10(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``11(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``12(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``13(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``14(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``15(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``16(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.ISetupSequentialResult`1">
-            <summary>
-            Language for ReturnSequence
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Returns(`0)">
-            <summary>
-            Returns value
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Throws(System.Exception)">
-            <summary>
-            Throws an exception
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Throws``1">
-            <summary>
-            Throws an exception
-            </summary>
-        </member>
-        <member name="F:Moq.Linq.FluentMockVisitor.isFirst">
-            <summary>
-            The first method call or member access will be the 
-            last segment of the expression (depth-first traversal), 
-            which is the one we have to Setup rather than FluentMock.
-            And the last one is the one we have to Mock.Get rather 
-            than FluentMock.
-            </summary>
-        </member>
-        <member name="T:Moq.Mock">
-            <summary>
-			Base class for mocks and static helper class with methods that
-			apply to mocked objects, such as <see cref="M:Moq.Mock.Get``1(``0)"/> to
-			retrieve a <see cref="T:Moq.Mock`1"/> from an object instance.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Of``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mock.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="predicate">The predicate with the specification of how the mocked object should behave.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mock.#ctor">
-            <summary>
-			Initializes a new instance of the <see cref="T:Moq.Mock"/> class.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Get``1(``0)">
-            <summary>
-			Retrieves the mock object for the given object instance.
-		</summary><typeparam name="T">
-			Type of the mock to retrieve. Can be omitted as it's inferred
-			from the object instance passed in as the <paramref name="mocked"/> instance.
-		</typeparam><param name="mocked">The instance of the mocked object.</param><returns>The mock associated with the mocked object.</returns><exception cref="T:System.ArgumentException">
-			The received <paramref name="mocked"/> instance
-			was not created by Moq.
-		</exception><example group="advanced">
-			The following example shows how to add a new setup to an object
-			instance which is not the original <see cref="T:Moq.Mock`1"/> but rather
-			the object associated with it:
-			<code>
-				// Typed instance, not the mock, is retrieved from some test API.
-				HttpContextBase context = GetMockContext();
-
-				// context.Request is the typed object from the "real" API
-				// so in order to add a setup to it, we need to get
-				// the mock that "owns" it
-				Mock&lt;HttpRequestBase&gt; request = Mock.Get(context.Request);
-				mock.Setup(req =&gt; req.AppRelativeCurrentExecutionFilePath)
-					 .Returns(tempUrl);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock.OnGetObject">
-            <summary>
-			Returns the mocked object value.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Verify">
-            <summary>
-			Verifies that all verifiable expectations have been met.
-		</summary><example group="verification">
-			This example sets up an expectation and marks it as verifiable. After
-			the mock is used, a <c>Verify()</c> call is issued on the mock
-			to ensure the method in the setup was invoked:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				this.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Verifiable().Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory.
-				this.Verify();
-			</code>
-		</example><exception cref="T:Moq.MockException">Not all verifiable expectations were met.</exception>
-        </member>
-        <member name="M:Moq.Mock.VerifyAll">
-            <summary>
-			Verifies all expectations regardless of whether they have
-			been flagged as verifiable.
-		</summary><example group="verification">
-			This example sets up an expectation without marking it as verifiable. After
-			the mock is used, a <see cref="M:Moq.Mock.VerifyAll"/> call is issued on the mock
-			to ensure that all expectations are met:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				this.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory, even
-				// that expectation was not marked as verifiable.
-				this.VerifyAll();
-			</code>
-		</example><exception cref="T:Moq.MockException">At least one expectation was not met.</exception>		
-        </member>
-        <member name="M:Moq.Mock.GetInterceptor(System.Linq.Expressions.Expression,Moq.Mock)">
-            <summary>
-            Gets the interceptor target for the given expression and root mock, 
-            building the intermediate hierarchy of mock objects if necessary.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.DoRaise(System.Reflection.EventInfo,System.EventArgs)">
-            <summary>
-            Raises the associated event with the given 
-            event argument data.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.DoRaise(System.Reflection.EventInfo,System.Object[])">
-            <summary>
-            Raises the associated event with the given 
-            event argument data.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.As``1">
-            <summary>
-			Adds an interface implementation to the mock,
-			allowing setups to be specified for it.
-		</summary><remarks>
-			This method can only be called before the first use
-			of the mock <see cref="P:Moq.Mock.Object"/> property, at which
-			point the runtime type has already been generated
-			and no more interfaces can be added to it.
-			<para>
-				Also, <typeparamref name="TInterface"/> must be an
-				interface and not a class, which must be specified
-				when creating the mock instead.
-			</para>
-		</remarks><exception cref="T:System.InvalidOperationException">
-			The mock type
-			has already been generated by accessing the <see cref="P:Moq.Mock.Object"/> property.
-		</exception><exception cref="T:System.ArgumentException">
-			The <typeparamref name="TInterface"/> specified
-			is not an interface.
-		</exception><example>
-			The following example creates a mock for the main interface
-			and later adds <see cref="T:System.IDisposable"/> to it to verify
-			it's called by the consumer code:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				mock.Setup(x =&gt; x.Execute("ping"));
-
-				// add IDisposable interface
-				var disposable = mock.As&lt;IDisposable&gt;();
-				disposable.Setup(d =&gt; d.Dispose()).Verifiable();
-			</code>
-		</example><typeparam name="TInterface">Type of interface to cast the mock to.</typeparam>
-        </member>
-        <member name="M:Moq.Mock.SetReturnsDefault``1(``0)">
-            <!-- No matching elements were found for the following include tag --><include file="Mock.Generic.xdoc" path="docs/doc[@for=&quot;Mock.SetReturnDefault{TReturn}&quot;]/*"/>
-        </member>
-        <member name="P:Moq.Mock.Behavior">
-            <summary>
-			Behavior of the mock, according to the value set in the constructor.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.CallBase">
-            <summary>
-			Whether the base member virtual implementation will be called
-			for mocked classes if no setup is matched. Defaults to <see langword="false"/>.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.DefaultValue">
-            <summary>
-			Specifies the behavior to use when returning default values for
-			unexpected invocations on loose mocks.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.Object">
-            <summary>
-			Gets the mocked object instance.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.MockedType">
-            <summary>
-            Retrieves the type of the mocked object, its generic type argument.
-            This is used in the auto-mocking of hierarchy access.
-            </summary>
-        </member>
-        <member name="P:Moq.Mock.DefaultValueProvider">
-            <summary>
-            Specifies the class that will determine the default 
-            value to return when invocations are made that 
-            have no setups and need to return a default 
-            value (for loose mocks).
-            </summary>
-        </member>
-        <member name="P:Moq.Mock.ImplementedInterfaces">
-            <summary>
-            Exposes the list of extra interfaces implemented by the mock.
-            </summary>
-        </member>
-        <member name="T:Moq.MockRepository">
-            <summary>
-            Utility repository class to use to construct multiple 
-            mocks when consistent verification is 
-            desired for all of them.
-            </summary>
-            <remarks>
-            If multiple mocks will be created during a test, passing 
-            the desired <see cref="T:Moq.MockBehavior"/> (if different than the 
-            <see cref="F:Moq.MockBehavior.Default"/> or the one 
-            passed to the repository constructor) and later verifying each
-            mock can become repetitive and tedious.
-            <para>
-            This repository class helps in that scenario by providing a 
-            simplified creation of multiple mocks with a default 
-            <see cref="T:Moq.MockBehavior"/> (unless overriden by calling 
-            <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/>) and posterior verification.
-            </para>
-            </remarks>
-            <example group="repository">
-            The following is a straightforward example on how to 
-            create and automatically verify strict mocks using a <see cref="T:Moq.MockRepository"/>:
-            <code>
-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            var foo = repository.Create&lt;IFoo&gt;();
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f =&gt; f.Do());
-            bar.Setup(b =&gt; b.Redo());
-            
-            // exercise the mocks here
-            
-            repository.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-            </code>
-            The following examples shows how to setup the repository 
-            to create loose mocks and later verify only verifiable setups:
-            <code>
-            var repository = new MockRepository(MockBehavior.Loose);
-            
-            var foo = repository.Create&lt;IFoo&gt;();
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // this setup will be verified when we verify the repository
-            foo.Setup(f =&gt; f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f =&gt; f.Calculate());
-            	
-            // this setup will be verified when we verify the repository
-            bar.Setup(b =&gt; b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            repository.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-            </code>
-            The following examples shows how to setup the repository with a 
-            default strict behavior, overriding that default for a 
-            specific mock:
-            <code>
-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = repository.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            repository.Verify();
-            </code>
-            </example>
-            <seealso cref="T:Moq.MockBehavior"/>
-        </member>
-        <member name="T:Moq.MockFactory">
-            <summary>
-            Utility factory class to use to construct multiple 
-            mocks when consistent verification is 
-            desired for all of them.
-            </summary>
-            <remarks>
-            If multiple mocks will be created during a test, passing 
-            the desired <see cref="T:Moq.MockBehavior"/> (if different than the 
-            <see cref="F:Moq.MockBehavior.Default"/> or the one 
-            passed to the factory constructor) and later verifying each
-            mock can become repetitive and tedious.
-            <para>
-            This factory class helps in that scenario by providing a 
-            simplified creation of multiple mocks with a default 
-            <see cref="T:Moq.MockBehavior"/> (unless overriden by calling 
-            <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/>) and posterior verification.
-            </para>
-            </remarks>
-            <example group="factory">
-            The following is a straightforward example on how to 
-            create and automatically verify strict mocks using a <see cref="T:Moq.MockFactory"/>:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f =&gt; f.Do());
-            bar.Setup(b =&gt; b.Redo());
-            
-            // exercise the mocks here
-            
-            factory.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-            </code>
-            The following examples shows how to setup the factory 
-            to create loose mocks and later verify only verifiable setups:
-            <code>
-            var factory = new MockFactory(MockBehavior.Loose);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // this setup will be verified when we verify the factory
-            foo.Setup(f =&gt; f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f =&gt; f.Calculate());
-            	
-            // this setup will be verified when we verify the factory
-            bar.Setup(b =&gt; b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            factory.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-            </code>
-            The following examples shows how to setup the factory with a 
-            default strict behavior, overriding that default for a 
-            specific mock:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = factory.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            factory.Verify();
-            </code>
-            </example>
-            <seealso cref="T:Moq.MockBehavior"/>
-        </member>
-        <member name="M:Moq.MockFactory.#ctor(Moq.MockBehavior)">
-            <summary>
-            Initializes the factory with the given <paramref name="defaultBehavior"/> 
-            for newly created mocks from the factory.
-            </summary>
-            <param name="defaultBehavior">The behavior to use for mocks created 
-            using the <see cref="M:Moq.MockFactory.Create``1"/> factory method if not overriden 
-            by using the <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/> overload.</param>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1">
-            <summary>
-            Creates a new mock with the default <see cref="T:Moq.MockBehavior"/> 
-            specified at factory construction time.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example ignore="true">
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            // use mock on tests
-            
-            factory.VerifyAll();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(System.Object[])">
-            <summary>
-            Creates a new mock with the default <see cref="T:Moq.MockBehavior"/> 
-            specified at factory construction time and with the 
-            the given constructor arguments for the class.
-            </summary>
-            <remarks>
-            The mock will try to find the best match constructor given the 
-            constructor arguments, and invoke that to initialize the instance. 
-            This applies only to classes, not interfaces.
-            </remarks>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="args">Constructor arguments for mocked classes.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example ignore="true">
-            <code>
-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create&lt;MyBase&gt;("Foo", 25, true);
-            // use mock on tests
-            
-            factory.Verify();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(Moq.MockBehavior)">
-            <summary>
-            Creates a new mock with the given <paramref name="behavior"/>.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">Behavior to use for the mock, which overrides 
-            the default behavior specified at factory construction time.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example group="factory">
-            The following example shows how to create a mock with a different 
-            behavior to that specified as the default for the factory:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(Moq.MockBehavior,System.Object[])">
-            <summary>
-            Creates a new mock with the given <paramref name="behavior"/> 
-            and with the the given constructor arguments for the class.
-            </summary>
-            <remarks>
-            The mock will try to find the best match constructor given the 
-            constructor arguments, and invoke that to initialize the instance. 
-            This applies only to classes, not interfaces.
-            </remarks>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">Behavior to use for the mock, which overrides 
-            the default behavior specified at factory construction time.</param>
-            <param name="args">Constructor arguments for mocked classes.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example group="factory">
-            The following example shows how to create a mock with a different 
-            behavior to that specified as the default for the factory, passing 
-            constructor arguments:
-            <code>
-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create&lt;MyBase&gt;(MockBehavior.Strict, "Foo", 25, true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.CreateMock``1(Moq.MockBehavior,System.Object[])">
-            <summary>
-            Implements creation of a new mock within the factory.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">The behavior for the new mock.</param>
-            <param name="args">Optional arguments for the construction of the mock.</param>
-        </member>
-        <member name="M:Moq.MockFactory.Verify">
-            <summary>
-            Verifies all verifiable expectations on all mocks created 
-            by this factory.
-            </summary>
-            <seealso cref="M:Moq.Mock.Verify"/>
-            <exception cref="T:Moq.MockException">One or more mocks had expectations that were not satisfied.</exception>
-        </member>
-        <member name="M:Moq.MockFactory.VerifyAll">
-            <summary>
-            Verifies all verifiable expectations on all mocks created 
-            by this factory.
-            </summary>
-            <seealso cref="M:Moq.Mock.Verify"/>
-            <exception cref="T:Moq.MockException">One or more mocks had expectations that were not satisfied.</exception>
-        </member>
-        <member name="M:Moq.MockFactory.VerifyMocks(System.Action{Moq.Mock})">
-            <summary>
-            Invokes <paramref name="verifyAction"/> for each mock 
-            in <see cref="P:Moq.MockFactory.Mocks"/>, and accumulates the resulting 
-            <see cref="T:Moq.MockVerificationException"/> that might be 
-            thrown from the action.
-            </summary>
-            <param name="verifyAction">The action to execute against 
-            each mock.</param>
-        </member>
-        <member name="P:Moq.MockFactory.CallBase">
-            <summary>
-            Whether the base member virtual implementation will be called 
-            for mocked classes if no setup is matched. Defaults to <see langword="false"/>.
-            </summary>
-        </member>
-        <member name="P:Moq.MockFactory.DefaultValue">
-            <summary>
-            Specifies the behavior to use when returning default values for 
-            unexpected invocations on loose mocks.
-            </summary>
-        </member>
-        <member name="P:Moq.MockFactory.Mocks">
-            <summary>
-            Gets the mocks that have been created by this factory and 
-            that will get verified together.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.Of``1">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.MockRepository.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.MockRepository.OneOf``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.MockRepository.OneOf``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.MockRepository.CreateMockQuery``1">
-            <summary>
-            Creates the mock query with the underlying queriable implementation.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.CreateQueryable``1">
-            <summary>
-            Wraps the enumerator inside a queryable.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.CreateMocks``1">
-            <summary>
-            Method that is turned into the actual call from .Query{T}, to 
-            transform the queryable query into a normal enumerable query.
-            This method is never used directly by consumers.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.#ctor(Moq.MockBehavior)">
-            <summary>
-            Initializes the repository with the given <paramref name="defaultBehavior"/> 
-            for newly created mocks from the repository.
-            </summary>
-            <param name="defaultBehavior">The behavior to use for mocks created 
-            using the <see cref="M:Moq.MockFactory.Create``1"/> repository method if not overriden 
-            by using the <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/> overload.</param>
-        </member>
-        <member name="T:Moq.EmptyDefaultValueProvider">
-            <summary>
-            A <see cref="T:Moq.IDefaultValueProvider"/> that returns an empty default value 
-            for invocations that do not have setups or return values, with loose mocks.
-            This is the default behavior for a mock.
-            </summary>
-        </member>
-        <member name="T:Moq.IDefaultValueProvider">
-            <summary>
-			Interface to be implemented by classes that determine the
-			default value of non-expected invocations.
-		</summary>
-        </member>
-        <member name="M:Moq.IDefaultValueProvider.DefineDefault``1(``0)">
-            <summary>
-			Defines the default value to return in all the methods returning <typeparamref name="T"/>.
-		</summary><typeparam name="T">The type of the return value.</typeparam><param name="value">The value to set as default.</param>
-        </member>
-        <member name="M:Moq.IDefaultValueProvider.ProvideDefault(System.Reflection.MethodInfo)">
-            <summary>
-			Provides a value for the given member and arguments.
-		</summary><param name="member">
-			The member to provide a default	value for.
-		</param>
-        </member>
-        <member name="T:Moq.ExpressionStringBuilder">
-            <summary>
-            The intention of <see cref="T:Moq.ExpressionStringBuilder"/> is to create a more readable 
-            string representation for the failure message.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.ICallbackResult">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IThrows">
-            <summary>
-            Defines the <c>Throws</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IThrows.Throws(System.Exception)">
-            <summary>
-            Specifies the exception to throw when the method is invoked.
-            </summary>
-            <param name="exception">Exception instance to throw.</param>
-            <example>
-            This example shows how to throw an exception when the method is 
-            invoked with an empty string argument:
-            <code>
-            mock.Setup(x =&gt; x.Execute(""))
-                .Throws(new ArgumentException());
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IThrows.Throws``1">
-            <summary>
-            Specifies the type of exception to throw when the method is invoked.
-            </summary>
-            <typeparam name="TException">Type of exception to instantiate and throw when the setup is matched.</typeparam>
-            <example>
-            This example shows how to throw an exception when the method is 
-            invoked with an empty string argument:
-            <code>
-            mock.Setup(x =&gt; x.Execute(""))
-                .Throws&lt;ArgumentException&gt;();
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IThrowsResult">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IOccurrence">
-            <summary>
-            Defines occurrence members to constraint setups.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IOccurrence.AtMostOnce">
-            <summary>
-            The expected invocation can happen at most once.
-            </summary>
-            <example>
-            <code>
-            var mock = new Mock&lt;ICommand&gt;();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMostOnce();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IOccurrence.AtMost(System.Int32)">
-            <summary>
-            The expected invocation can happen at most specified number of times.
-            </summary>
-            <param name="callCount">The number of times to accept calls.</param>
-            <example>
-            <code>
-            var mock = new Mock&lt;ICommand&gt;();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMost( 5 );
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.IVerifies">
-            <summary>
-            Defines the <c>Verifiable</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IVerifies.Verifiable">
-            <summary>
-            Marks the expectation as verifiable, meaning that a call 
-            to <see cref="M:Moq.Mock.Verify"/> will check if this particular 
-            expectation was met.
-            </summary>
-            <example>
-            The following example marks the expectation as verifiable:
-            <code>
-            mock.Expect(x =&gt; x.Execute("ping"))
-                .Returns(true)
-                .Verifiable();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IVerifies.Verifiable(System.String)">
-            <summary>
-            Marks the expectation as verifiable, meaning that a call 
-            to <see cref="M:Moq.Mock.Verify"/> will check if this particular 
-            expectation was met, and specifies a message for failures.
-            </summary>
-            <example>
-            The following example marks the expectation as verifiable:
-            <code>
-            mock.Expect(x =&gt; x.Execute("ping"))
-                .Returns(true)
-                .Verifiable("Ping should be executed always!");
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetup`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.MethodCallReturn">
-            <devdoc>
-            We need this non-generics base class so that 
-            we can use <see cref="P:Moq.MethodCallReturn.HasReturnValue"/> from 
-            generic code.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetup`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsThrows`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetupGetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallbackGetter`2">
-            <summary>
-            Defines the <c>Callback</c> verb for property getter setups.
-            </summary>
-            <seealso cref="M:Moq.Mock`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})"/>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallbackGetter`2.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the property is retrieved.
-            </summary>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the property value being set. 
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Callback(() => called = true)
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsThrowsGetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IReturnsGetter`2">
-            <summary>
-            Defines the <c>Returns</c> verb for property get setups.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.IReturnsGetter`2.Returns(`1)">
-            <summary>
-            Specifies the value to return.
-            </summary>
-            <param name="value">The value to return, or <see langword="null"/>.</param>
-            <example>
-            Return a <c>true</c> value from the property getter call:
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturnsGetter`2.Returns(System.Func{`1})">
-            <summary>
-            Specifies a function that will calculate the value to return for the property.
-            </summary>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example>
-            Return a calculated value when the property is retrieved:
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Returns(() => returnValues[0]);
-            </code>
-            The lambda expression to retrieve the return value is lazy-executed, 
-            meaning that its value may change depending on the moment the property  
-            is retrieved and the value the <c>returnValues</c> array has at 
-            that moment.
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsResult`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.MockSequence">
-            <summary>
-            Helper class to setup a full trace between many mocks
-            </summary>
-        </member>
-        <member name="M:Moq.MockSequence.#ctor">
-            <summary>
-            Initialize a trace setup
-            </summary>
-        </member>
-        <member name="P:Moq.MockSequence.Cyclic">
-            <summary>
-            Allow sequence to be repeated
-            </summary>
-        </member>
-        <member name="T:Moq.MockSequenceHelper">
-            <summary>
-            define nice api
-            </summary>
-        </member>
-        <member name="M:Moq.MockSequenceHelper.InSequence``1(Moq.Mock{``0},Moq.MockSequence)">
-            <summary>
-            Perform an expectation in the trace.
-            </summary>
-        </member>
-        <member name="T:Moq.MatcherAttribute">
-            <summary>
-            Marks a method as a matcher, which allows complete replacement 
-            of the built-in <see cref="T:Moq.It"/> class with your own argument 
-            matching rules.
-            </summary>
-            <remarks>
-            <b>This feature has been deprecated in favor of the new 
-            and simpler <see cref="T:Moq.Match`1"/>.
-            </b>
-            <para>
-            The argument matching is used to determine whether a concrete 
-            invocation in the mock matches a given setup. This 
-            matching mechanism is fully extensible. 
-            </para>
-            <para>
-            There are two parts of a matcher: the compiler matcher 
-            and the runtime matcher.
-            <list type="bullet">
-            <item>
-            <term>Compiler matcher</term>
-            <description>Used to satisfy the compiler requirements for the 
-            argument. Needs to be a method optionally receiving any arguments 
-            you might need for the matching, but with a return type that 
-            matches that of the argument. 
-            <para>
-            Let's say I want to match a lists of orders that contains 
-            a particular one. I might create a compiler matcher like the following:
-            </para>
-            <code>
-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable&lt;Order&gt; Contains(Order order)
-              {
-                return null;
-              }
-            }
-            </code>
-            Now we can invoke this static method instead of an argument in an 
-            invocation:
-            <code>
-            var order = new Order { ... };
-            var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-            
-            mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-                .Throws&lt;ArgumentException&gt;();
-            </code>
-            Note that the return value from the compiler matcher is irrelevant. 
-            This method will never be called, and is just used to satisfy the 
-            compiler and to signal Moq that this is not a method that we want 
-            to be invoked at runtime.
-            </description>
-            </item>
-            <item>
-            <term>Runtime matcher</term>
-            <description>
-            The runtime matcher is the one that will actually perform evaluation 
-            when the test is run, and is defined by convention to have the 
-            same signature as the compiler matcher, but where the return 
-            value is the first argument to the call, which contains the 
-            object received by the actual invocation at runtime:
-            <code>
-              public static bool Contains(IEnumerable&lt;Order&gt; orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            </code>
-            At runtime, the mocked method will be invoked with a specific 
-            list of orders. This value will be passed to this runtime 
-            matcher as the first argument, while the second argument is the 
-            one specified in the setup (<c>x.Save(Orders.Contains(order))</c>).
-            <para>
-            The boolean returned determines whether the given argument has been 
-            matched. If all arguments to the expected method are matched, then 
-            the setup matches and is evaluated.
-            </para>
-            </description>
-            </item>
-            </list>
-            </para>
-            Using this extensible infrastructure, you can easily replace the entire 
-            <see cref="T:Moq.It"/> set of matchers with your own. You can also avoid the 
-            typical (and annoying) lengthy expressions that result when you have 
-            multiple arguments that use generics.
-            </remarks>
-            <example>
-            The following is the complete example explained above:
-            <code>
-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable&lt;Order&gt; Contains(Order order)
-              {
-                return null;
-              }
-              
-              public static bool Contains(IEnumerable&lt;Order&gt; orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            }
-            </code>
-            And the concrete test using this matcher:
-            <code>
-            var order = new Order { ... };
-            var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-            
-            mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-                .Throws&lt;ArgumentException&gt;();
-                
-            // use mock, invoke Save, and have the matcher filter.
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Mock`1">
-            <summary>
-			Provides a mock implementation of <typeparamref name="T"/>.
-		</summary><remarks>
-			Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked.
-			<para>
-				The behavior of the mock with regards to the setups and the actual calls is determined
-				by the optional <see cref="T:Moq.MockBehavior"/> that can be passed to the <see cref="M:Moq.Mock`1.#ctor(Moq.MockBehavior)"/>
-				constructor.
-			</para>
-		</remarks><typeparam name="T">Type to mock, which can be an interface or a class.</typeparam><example group="overview" order="0">
-			The following example shows establishing setups with specific values
-			for method invocations:
-			<code>
-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock&lt;IWarehouse&gt;();
-
-				mock.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Returns(true);
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.True(order.IsFilled);
-			</code>
-			The following example shows how to use the <see cref="T:Moq.It"/> class
-			to specify conditions for arguments instead of specific values:
-			<code>
-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock&lt;IWarehouse&gt;();
-
-				// shows how to expect a value within a range
-				mock.Setup(x =&gt; x.HasInventory(
-							It.IsAny&lt;string&gt;(),
-							It.IsInRange(0, 100, Range.Inclusive)))
-					 .Returns(false);
-
-				// shows how to throw for unexpected calls.
-				mock.Setup(x =&gt; x.Remove(
-							It.IsAny&lt;string&gt;(),
-							It.IsAny&lt;int&gt;()))
-					 .Throws(new InvalidOperationException());
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.False(order.IsFilled);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Expect(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.Expect``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectSet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectSet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(System.Boolean)">
-            <summary>
-            Ctor invoked by AsTInterface exclusively.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor">
-            <summary>
-			Initializes an instance of the mock with <see cref="F:Moq.MockBehavior.Default">default behavior</see>.
-		</summary><example>
-			<code>var mock = new Mock&lt;IFormatProvider&gt;();</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(System.Object[])">
-            <summary>
-			Initializes an instance of the mock with <see cref="F:Moq.MockBehavior.Default">default behavior</see> and with
-			the given constructor arguments for the class. (Only valid when <typeparamref name="T"/> is a class)
-		</summary><remarks>
-			The mock will try to find the best match constructor given the constructor arguments, and invoke that
-			to initialize the instance. This applies only for classes, not interfaces.
-		</remarks><example>
-			<code>var mock = new Mock&lt;MyProvider&gt;(someArgument, 25);</code>
-		</example><param name="args">Optional constructor arguments if the mocked type is a class.</param>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(Moq.MockBehavior)">
-            <summary>
-			Initializes an instance of the mock with the specified <see cref="T:Moq.MockBehavior">behavior</see>.
-		</summary><example>
-			<code>var mock = new Mock&lt;IFormatProvider&gt;(MockBehavior.Relaxed);</code>
-		</example><param name="behavior">Behavior of the mock.</param>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(Moq.MockBehavior,System.Object[])">
-            <summary>
-			Initializes an instance of the mock with a specific <see cref="T:Moq.MockBehavior">behavior</see> with
-			the given constructor arguments for the class.
-		</summary><remarks>
-			The mock will try to find the best match constructor given the constructor arguments, and invoke that
-			to initialize the instance. This applies only to classes, not interfaces.
-		</remarks><example>
-			<code>var mock = new Mock&lt;MyProvider&gt;(someArgument, 25);</code>
-		</example><param name="behavior">Behavior of the mock.</param><param name="args">Optional constructor arguments if the mocked type is a class.</param>
-        </member>
-        <member name="M:Moq.Mock`1.OnGetObject">
-            <summary>
-            Returns the mocked object value.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.Setup(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a void method.
-		</summary><remarks>
-			If more than one setup is specified for the same method or property,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="expression">Lambda expression that specifies the expected method invocation.</param><example group="setups">
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				mock.Setup(x =&gt; x.Execute("ping"));
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Setup``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a value returning method.
-		</summary><typeparam name="TResult">Type of the return value. Typically omitted as it can be inferred from the expression.</typeparam><remarks>
-			If more than one setup is specified for the same method or property,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="expression">Lambda expression that specifies the method invocation.</param><example group="setups">
-			<code>
-				mock.Setup(x =&gt; x.HasInventory("Talisker", 50)).Returns(true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property getter.
-		</summary><remarks>
-			If more than one setup is set for the same property getter,
-			the latest one wins and is the one that will be executed.
-		</remarks><typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam><param name="expression">Lambda expression that specifies the property getter.</param><example group="setups">
-			<code>
-				mock.SetupGet(x =&gt; x.Suspended)
-					 .Returns(true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupSet``1(System.Action{`0})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property setter.
-		</summary><remarks>
-			If more than one setup is set for the same property setter,
-			the latest one wins and is the one that will be executed.
-			<para>
-				This overloads allows the use of a callback already
-				typed for the property type.
-			</para>
-		</remarks><typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam><param name="setterExpression">The Lambda expression that sets a property to a value.</param><example group="setups">
-			<code>
-				mock.SetupSet(x =&gt; x.Suspended = true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupSet(System.Action{`0})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property setter.
-		</summary><remarks>
-			If more than one setup is set for the same property setter,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="setterExpression">Lambda expression that sets a property to a value.</param><example group="setups">
-			<code>
-				mock.SetupSet(x =&gt; x.Suspended = true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupProperty``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies that the given property should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. (this is also
-			known as "stubbing").
-		</summary><typeparam name="TProperty">
-			Type of the property, inferred from the property
-			expression (does not need to be specified).
-		</typeparam><param name="property">Property expression to stub.</param><example>
-			If you have an interface with an int property <c>Value</c>, you might
-			stub it using the following straightforward call:
-			<code>
-				var mock = new Mock&lt;IHaveValue&gt;();
-				mock.Stub(v =&gt; v.Value);
-			</code>
-			After the <c>Stub</c> call has been issued, setting and
-			retrieving the object value will behave as expected:
-			<code>
-				IHaveValue v = mock.Object;
-
-				v.Value = 5;
-				Assert.Equal(5, v.Value);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupProperty``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
-            <summary>
-			Specifies that the given property should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. This overload
-			allows setting the initial value for the property. (this is also
-			known as "stubbing").
-		</summary><typeparam name="TProperty">
-			Type of the property, inferred from the property
-			expression (does not need to be specified).
-		</typeparam><param name="property">Property expression to stub.</param><param name="initialValue">Initial value for the property.</param><example>
-			If you have an interface with an int property <c>Value</c>, you might
-			stub it using the following straightforward call:
-			<code>
-				var mock = new Mock&lt;IHaveValue&gt;();
-				mock.SetupProperty(v =&gt; v.Value, 5);
-			</code>
-			After the <c>SetupProperty</c> call has been issued, setting and
-			retrieving the object value will behave as expected:
-			<code>
-				IHaveValue v = mock.Object;
-				// Initial value was stored
-				Assert.Equal(5, v.Value);
-
-				// New value set which changes the initial value
-				v.Value = 6;
-				Assert.Equal(6, v.Value);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupAllProperties">
-            <summary>
-			Specifies that the all properties on the mock should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. (this is also
-			known as "stubbing"). The default value for each property will be the
-			one generated as specified by the <see cref="P:Moq.Mock.DefaultValue"/> property for the mock.
-		</summary><remarks>
-			If the mock <see cref="P:Moq.Mock.DefaultValue"/> is set to <see cref="F:Moq.DefaultValue.Mock"/>,
-			the mocked default values will also get all properties setup recursively.
-		</remarks>
-        </member>
-        <member name="M:Moq.Mock`1.When(System.Func{System.Boolean})">
-            <!-- No matching elements were found for the following include tag --><include file="Mock.Generic.xdoc" path="docs/doc[@for=&quot;Mock{T}.When&quot;]/*"/>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc =&gt; proc.Execute("ping"));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},Moq.Times)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock,
-			specifying a failure error message. Use in conjuntion with the default
-			<see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc =&gt; proc.Execute("ping"));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock,
-			specifying a failure error message. Use in conjuntion with the default
-			<see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse =&gt; warehouse.HasInventory(TALISKER, 50));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock. Use in conjuntion
-			with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock, specifying a failure
-			error message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given invocation
-			with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse =&gt; warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked");
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock, specifying a failure
-			error message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Verifies that a property was read on the mock.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was retrieved from it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse =&gt; warehouse.IsClosed);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times)">
-            <summary>
-			Verifies that a property was read on the mock.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="expression">Expression to verify.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},System.String)">
-            <summary>
-			Verifies that a property was read on the mock, specifying a failure
-			error message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was retrieved from it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse =&gt; warehouse.IsClosed);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a property was read on the mock, specifying a failure
-			error message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0})">
-            <summary>
-			Verifies that a property was set on the mock.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was set on it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse =&gt; warehouse.IsClosed = true);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="setterExpression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},Moq.Times)">
-            <summary>
-			Verifies that a property was set on the mock.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="setterExpression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},System.String)">
-            <summary>
-			Verifies that a property was set on the mock, specifying
-			a failure message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was set on it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse =&gt; warehouse.IsClosed = true, "Warehouse should always be closed after the action");
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="setterExpression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},Moq.Times,System.String)">
-            <summary>
-			Verifies that a property was set on the mock, specifying
-			a failure message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="setterExpression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Raise(System.Action{`0},System.EventArgs)">
-            <summary>
-			Raises the event referenced in <paramref name="eventExpression"/> using
-			the given <paramref name="args"/> argument.
-		</summary><exception cref="T:System.ArgumentException">
-			The <paramref name="args"/> argument is
-			invalid for the target event invocation, or the <paramref name="eventExpression"/> is
-			not an event attach or detach expression.
-		</exception><example>
-			The following example shows how to raise a <see cref="E:System.ComponentModel.INotifyPropertyChanged.PropertyChanged"/> event:
-			<code>
-				var mock = new Mock&lt;IViewModel&gt;();
-
-				mock.Raise(x =&gt; x.PropertyChanged -= null, new PropertyChangedEventArgs("Name"));
-			</code>
-		</example><example>
-			This example shows how to invoke an event with a custom event arguments
-			class in a view that will cause its corresponding presenter to
-			react by changing its state:
-			<code>
-				var mockView = new Mock&lt;IOrdersView&gt;();
-				var presenter = new OrdersPresenter(mockView.Object);
-
-				// Check that the presenter has no selection by default
-				Assert.Null(presenter.SelectedOrder);
-
-				// Raise the event with a specific arguments data
-				mockView.Raise(v =&gt; v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) });
-
-				// Now the presenter reacted to the event, and we have a selected order
-				Assert.NotNull(presenter.SelectedOrder);
-				Assert.Equal("moq", presenter.SelectedOrder.ProductName);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Raise(System.Action{`0},System.Object[])">
-            <summary>
-			Raises the event referenced in <paramref name="eventExpression"/> using
-			the given <paramref name="args"/> argument for a non-EventHandler typed event.
-		</summary><exception cref="T:System.ArgumentException">
-			The <paramref name="args"/> arguments are
-			invalid for the target event invocation, or the <paramref name="eventExpression"/> is
-			not an event attach or detach expression.
-		</exception><example>
-			The following example shows how to raise a custom event that does not adhere to 
-			the standard <c>EventHandler</c>:
-			<code>
-				var mock = new Mock&lt;IViewModel&gt;();
-
-				mock.Raise(x =&gt; x.MyEvent -= null, "Name", bool, 25);
-			</code>
-		</example>
-        </member>
-        <member name="P:Moq.Mock`1.Object">
-            <summary>
-			Exposes the mocked object instance.
-		</summary>
-        </member>
-        <member name="T:Moq.MockLegacyExtensions">
-            <summary>
-            Provides legacy API members as extensions so that 
-            existing code continues to compile, but new code 
-            doesn't see then.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.SetupSet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1,System.String)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="T:Moq.MockExtensions">
-            <summary>
-            Provides additional methods on mocks.
-            </summary>
-            <devdoc>
-            Provided as extension methods as they confuse the compiler 
-            with the overloads taking Action.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockExtensions.SetupSet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Specifies a setup on the mocked type for a call to 
-            to a property setter, regardless of its value.
-            </summary>
-            <remarks>
-            If more than one setup is set for the same property setter, 
-            the latest one wins and is the one that will be executed.
-            </remarks>
-            <typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam>
-            <typeparam name="T">Type of the mock.</typeparam>
-            <param name="mock">The target mock for the setup.</param>
-            <param name="expression">Lambda expression that specifies the property setter.</param>
-            <example group="setups">
-            <code>
-            mock.SetupSet(x =&gt; x.Suspended);
-            </code>
-            </example>
-            <devdoc>
-            This method is not legacy, but must be on an extension method to avoid 
-            confusing the compiler with the new Action syntax.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Verifies that a property has been set on the mock, regarless of its value.
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <param name="expression">Expression to verify.</param>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},System.String)">
-            <summary>
-            Verifies that a property has been set on the mock, specifying a failure  
-            error message. 
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <param name="expression">Expression to verify.</param>
-            <param name="failMessage">Message to show if verification fails.</param>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},Moq.Times)">
-            <summary>
-            Verifies that a property has been set on the mock, regardless 
-            of the value but only the specified number of times.
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="expression">Expression to verify.</param>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},Moq.Times,System.String)">
-            <summary>
-            Verifies that a property has been set on the mock, regardless 
-            of the value but only the specified number of times, and specifying a failure  
-            error message. 
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="failMessage">Message to show if verification fails.</param>
-            <param name="expression">Expression to verify.</param>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="T:Moq.SequenceExtensions">
-            <summary>
-            Helper for sequencing return values in the same method.
-            </summary>
-        </member>
-        <member name="M:Moq.SequenceExtensions.SetupSequence``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Return a sequence of values, once per call.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToLambda(System.Linq.Expressions.Expression)">
-            <summary>
-            Casts the expression to a lambda expression, removing 
-            a cast if there's any.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToMethodCall(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Casts the body of the lambda expression to a <see cref="T:System.Linq.Expressions.MethodCallExpression"/>.
-            </summary>
-            <exception cref="T:System.ArgumentException">If the body is not a method call.</exception>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToPropertyInfo(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Converts the body of the lambda expression into the <see cref="T:System.Reflection.PropertyInfo"/> referenced by it.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsProperty(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Checks whether the body of the lambda expression is a property access.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsProperty(System.Linq.Expressions.Expression)">
-            <summary>
-            Checks whether the expression is a property access.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsPropertyIndexer(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Checks whether the body of the lambda expression is a property indexer, which is true 
-            when the expression is an <see cref="T:System.Linq.Expressions.MethodCallExpression"/> whose 
-            <see cref="P:System.Linq.Expressions.MethodCallExpression.Method"/> has <see cref="P:System.Reflection.MethodBase.IsSpecialName"/> 
-            equal to <see langword="true"/>.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsPropertyIndexer(System.Linq.Expressions.Expression)">
-            <summary>
-            Checks whether the expression is a property indexer, which is true 
-            when the expression is an <see cref="T:System.Linq.Expressions.MethodCallExpression"/> whose 
-            <see cref="P:System.Linq.Expressions.MethodCallExpression.Method"/> has <see cref="P:System.Reflection.MethodBase.IsSpecialName"/> 
-            equal to <see langword="true"/>.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.CastTo``1(System.Linq.Expressions.Expression)">
-            <summary>
-            Creates an expression that casts the given expression to the <typeparamref name="T"/> 
-            type.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToStringFixed(System.Linq.Expressions.Expression)">
-            <devdoc>
-            TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 
-            is fixed.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Evaluator">
-            <summary>
-            Provides partial evaluation of subtrees, whenever they can be evaluated locally.
-            </summary>
-            <author>Matt Warren: http://blogs.msdn.com/mattwar</author>
-            <contributor>Documented by InSTEDD: http://www.instedd.org</contributor>
-        </member>
-        <member name="M:Moq.Evaluator.PartialEval(System.Linq.Expressions.Expression,System.Func{System.Linq.Expressions.Expression,System.Boolean})">
-            <summary>
-            Performs evaluation and replacement of independent sub-trees
-            </summary>
-            <param name="expression">The root of the expression tree.</param>
-            <param name="fnCanBeEvaluated">A function that decides whether a given expression
-            node can be part of the local function.</param>
-            <returns>A new tree with sub-trees evaluated and replaced.</returns>
-        </member>
-        <member name="M:Moq.Evaluator.PartialEval(System.Linq.Expressions.Expression)">
-            <summary>
-            Performs evaluation and replacement of independent sub-trees
-            </summary>
-            <param name="expression">The root of the expression tree.</param>
-            <returns>A new tree with sub-trees evaluated and replaced.</returns>
-        </member>
-        <member name="T:Moq.Evaluator.SubtreeEvaluator">
-            <summary>
-            Evaluates and replaces sub-trees when first candidate is reached (top-down)
-            </summary>
-        </member>
-        <member name="T:Moq.Evaluator.Nominator">
-            <summary>
-            Performs bottom-up analysis to determine which nodes can possibly
-            be part of an evaluated sub-tree.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotNull``1(System.Linq.Expressions.Expression{System.Func{``0}},``0)">
-            <summary>
-            Ensures the given <paramref name="value"/> is not null.
-            Throws <see cref="T:System.ArgumentNullException"/> otherwise.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotNullOrEmpty(System.Linq.Expressions.Expression{System.Func{System.String}},System.String)">
-            <summary>
-            Ensures the given string <paramref name="value"/> is not null or empty.
-            Throws <see cref="T:System.ArgumentNullException"/> in the first case, or 
-            <see cref="T:System.ArgumentException"/> in the latter.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotOutOfRangeInclusive``1(System.Linq.Expressions.Expression{System.Func{``0}},``0,``0,``0)">
-            <summary>
-            Checks an argument to ensure it is in the specified range including the edges.
-            </summary>
-            <typeparam name="T">Type of the argument to check, it must be an <see cref="T:System.IComparable"/> type.
-            </typeparam>
-            <param name="reference">The expression containing the name of the argument.</param>
-            <param name="value">The argument value to check.</param>
-            <param name="from">The minimun allowed value for the argument.</param>
-            <param name="to">The maximun allowed value for the argument.</param>
-        </member>
-        <member name="M:Moq.Guard.NotOutOfRangeExclusive``1(System.Linq.Expressions.Expression{System.Func{``0}},``0,``0,``0)">
-            <summary>
-            Checks an argument to ensure it is in the specified range excluding the edges.
-            </summary>
-            <typeparam name="T">Type of the argument to check, it must be an <see cref="T:System.IComparable"/> type.
-            </typeparam>
-            <param name="reference">The expression containing the name of the argument.</param>
-            <param name="value">The argument value to check.</param>
-            <param name="from">The minimun allowed value for the argument.</param>
-            <param name="to">The maximun allowed value for the argument.</param>
-        </member>
-        <member name="T:Moq.IMocked`1">
-            <summary>
-            Implemented by all generated mock object instances.
-            </summary>
-        </member>
-        <member name="T:Moq.IMocked">
-            <summary>
-            Implemented by all generated mock object instances.
-            </summary>
-        </member>
-        <member name="P:Moq.IMocked.Mock">
-            <summary>
-            Reference the Mock that contains this as the <c>mock.Object</c> value.
-            </summary>
-        </member>
-        <member name="P:Moq.IMocked`1.Mock">
-            <summary>
-            Reference the Mock that contains this as the <c>mock.Object</c> value.
-            </summary>
-        </member>
-        <member name="T:Moq.Interceptor">
-            <summary>
-            Implements the actual interception and method invocation for 
-            all mocks.
-            </summary>
-        </member>
-        <member name="M:Moq.Interceptor.GetEventFromName(System.String)">
-            <summary>
-            Get an eventInfo for a given event name.  Search type ancestors depth first if necessary.
-            </summary>
-            <param name="eventName">Name of the event, with the set_ or get_ prefix already removed</param>
-        </member>
-        <member name="M:Moq.Interceptor.GetAncestorTypes(System.Type)">
-            <summary>
-            Given a type return all of its ancestors, both types and interfaces.
-            </summary>
-            <param name="initialType">The type to find immediate ancestors of</param>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetupSetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallbackSetter`1">
-            <summary>
-            Defines the <c>Callback</c> verb for property setter setups.
-            </summary>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallbackSetter`1.Callback(System.Action{`0})">
-            <summary>
-            Specifies a callback to invoke when the property is set that receives the 
-            property value being set.
-            </summary>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the property value being set. 
-            <code>
-            mock.SetupSet(x => x.Suspended)
-                .Callback((bool state) => Console.WriteLine(state));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.It">
-            <summary>
-			Allows the specification of a matching condition for an
-			argument in a method invocation, rather than a specific
-			argument value. "It" refers to the argument being matched.
-		</summary><remarks>
-			This class allows the setup to match a method invocation
-			with an arbitrary value, with a value in a specified range, or
-			even one that matches a given predicate.
-		</remarks>
-        </member>
-        <member name="M:Moq.It.IsAny``1">
-            <summary>
-			Matches any value of the given <typeparamref name="TValue"/> type.
-		</summary><remarks>
-			Typically used when the actual argument value for a method
-			call is not relevant.
-		</remarks><example>
-			<code>
-				// Throws an exception for a call to Remove with any string value.
-				mock.Setup(x =&gt; x.Remove(It.IsAny&lt;string&gt;())).Throws(new InvalidOperationException());
-			</code>
-		</example><typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.It.Is``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-			Matches any value that satisfies the given predicate.
-		</summary><typeparam name="TValue">Type of the argument to check.</typeparam><param name="match">The predicate used to match the method argument.</param><remarks>
-			Allows the specification of a predicate to perform matching
-			of method call arguments.
-		</remarks><example>
-			This example shows how to return the value <c>1</c> whenever the argument to the
-			<c>Do</c> method is an even number.
-			<code>
-				mock.Setup(x =&gt; x.Do(It.Is&lt;int&gt;(i =&gt; i % 2 == 0)))
-				.Returns(1);
-			</code>
-			This example shows how to throw an exception if the argument to the
-			method is a negative number:
-			<code>
-				mock.Setup(x =&gt; x.GetUser(It.Is&lt;int&gt;(i =&gt; i &lt; 0)))
-				.Throws(new ArgumentException());
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsInRange``1(``0,``0,Moq.Range)">
-            <summary>
-			Matches any value that is in the range specified.
-		</summary><typeparam name="TValue">Type of the argument to check.</typeparam><param name="from">The lower bound of the range.</param><param name="to">The upper bound of the range.</param><param name="rangeKind">
-			The kind of range. See <see cref="T:Moq.Range"/>.
-		</param><example>
-			The following example shows how to expect a method call
-			with an integer argument within the 0..100 range.
-			<code>
-				mock.Setup(x =&gt; x.HasInventory(
-				It.IsAny&lt;string&gt;(),
-				It.IsInRange(0, 100, Range.Inclusive)))
-				.Returns(false);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsRegex(System.String)">
-            <summary>
-			Matches a string argument if it matches the given regular expression pattern.
-		</summary><param name="regex">The pattern to use to match the string argument value.</param><example>
-			The following example shows how to expect a call to a method where the
-			string argument matches the given regular expression:
-			<code>
-				mock.Setup(x =&gt; x.Check(It.IsRegex("[a-z]+"))).Returns(1);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsRegex(System.String,System.Text.RegularExpressions.RegexOptions)">
-            <summary>
-			Matches a string argument if it matches the given regular expression pattern.
-		</summary><param name="regex">The pattern to use to match the string argument value.</param><param name="options">The options used to interpret the pattern.</param><example>
-			The following example shows how to expect a call to a method where the
-			string argument matches the given regular expression, in a case insensitive way:
-			<code>
-				mock.Setup(x =&gt; x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1);
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.Matchers.MatcherAttributeMatcher">
-            <summary>
-            Matcher to treat static functions as matchers.
-            
-            mock.Setup(x => x.StringMethod(A.MagicString()));
-            
-            public static class A 
-            {
-                [Matcher]
-                public static string MagicString() { return null; }
-                public static bool MagicString(string arg)
-                {
-                    return arg == "magic";
-                }
-            }
-            
-            Will succeed if: mock.Object.StringMethod("magic");
-            and fail with any other call.
-            </summary>
-        </member>
-        <member name="T:Moq.MockBehavior">
-            <summary>
-            Options to customize the behavior of the mock. 
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Strict">
-            <summary>
-            Causes the mock to always throw 
-            an exception for invocations that don't have a 
-            corresponding setup.
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Loose">
-            <summary>
-            Will never throw exceptions, returning default  
-            values when necessary (null for reference types, 
-            zero for value types or empty enumerables and arrays).
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Default">
-            <summary>
-            Default mock behavior, which equals <see cref="F:Moq.MockBehavior.Loose"/>.
-            </summary>
-        </member>
-        <member name="T:Moq.MockException">
-            <summary>
-            Exception thrown by mocks when setups are not matched, 
-            the mock is not properly setup, etc.
-            </summary>
-            <remarks>
-            A distinct exception type is provided so that exceptions 
-            thrown by the mock can be differentiated in tests that 
-            expect other exceptions to be thrown (i.e. ArgumentException).
-            <para>
-            Richer exception hierarchy/types are not provided as 
-            tests typically should <b>not</b> catch or expect exceptions 
-            from the mocks. These are typically the result of changes 
-            in the tested class or its collaborators implementation, and 
-            result in fixes in the mock setup so that they dissapear and 
-            allow the test to pass.
-            </para>
-            </remarks>
-        </member>
-        <member name="M:Moq.MockException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
-            <summary>
-            Supports the serialization infrastructure.
-            </summary>
-            <param name="info">Serialization information.</param>
-            <param name="context">Streaming context.</param>
-        </member>
-        <member name="M:Moq.MockException.GetObjectData(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
-            <summary>
-            Supports the serialization infrastructure.
-            </summary>
-            <param name="info">Serialization information.</param>
-            <param name="context">Streaming context.</param>
-        </member>
-        <member name="T:Moq.MockException.ExceptionReason">
-            <summary>
-            Made internal as it's of no use for 
-            consumers, but it's important for 
-            our own tests.
-            </summary>
-        </member>
-        <member name="T:Moq.MockVerificationException">
-            <devdoc>
-            Used by the mock factory to accumulate verification 
-            failures.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockVerificationException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
-            <summary>
-            Supports the serialization infrastructure.
-            </summary>
-        </member>
-        <member name="T:Moq.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.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:Moq.Properties.Resources.AlreadyInitialized">
-            <summary>
-              Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ArgumentCannotBeEmpty">
-            <summary>
-              Looks up a localized string similar to Value cannot be an empty string..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.AsMustBeInterface">
-            <summary>
-              Looks up a localized string similar to Can only add interfaces to the mock..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.CantSetReturnValueForVoid">
-            <summary>
-              Looks up a localized string similar to Can&apos;t set return value for void method {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ConstructorArgsForInterface">
-            <summary>
-              Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ConstructorNotFound">
-            <summary>
-              Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.EventNofFound">
-            <summary>
-              Looks up a localized string similar to Could not locate event for attach or detach method {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.FieldsNotSupported">
-            <summary>
-              Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.InvalidMockClass">
-            <summary>
-              Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. .
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.InvalidMockGetType">
-             <summary>
-               Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it&apos;s not the main type of the mock or any of its additional interfaces.
-            Please cast the argument to one of the supported types: {1}.
-            Remember that there&apos;s no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed..
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqBinaryOperatorNotSupported">
-            <summary>
-              Looks up a localized string similar to The equals (&quot;==&quot; or &quot;=&quot; in VB) and the conditional &apos;and&apos; (&quot;&amp;&amp;&quot; or &quot;AndAlso&quot; in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqMethodNotSupported">
-            <summary>
-              Looks up a localized string similar to LINQ method &apos;{0}&apos; not supported..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqMethodNotVirtual">
-            <summary>
-              Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MemberMissing">
-            <summary>
-              Looks up a localized string similar to Member {0}.{1} does not exist..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MethodIsPublic">
-             <summary>
-               Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead:
-            mock.Setup(x =&gt; x.{1}());
-            .
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MockExceptionMessage">
-             <summary>
-               Looks up a localized string similar to {0} invocation failed with mock behavior {1}.
-            {2}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MoreThanNCalls">
-            <summary>
-              Looks up a localized string similar to Expected only {0} calls to {1}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MoreThanOneCall">
-            <summary>
-              Looks up a localized string similar to Expected only one call to {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtLeast">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at least {2} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtLeastOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at least once, but was never performed: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtMost">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at most {3} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtMostOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at most once, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsBetweenExclusive">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsBetweenInclusive">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsExactly">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock exactly {2} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsNever">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock should never have been performed, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock once, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoSetup">
-            <summary>
-              Looks up a localized string similar to All invocations on the mock must have a corresponding setup..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ObjectInstanceNotMock">
-            <summary>
-              Looks up a localized string similar to Object instance was not created by Moq..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.OutExpressionMustBeConstantValue">
-            <summary>
-              Looks up a localized string similar to Out expression must evaluate to a constant value..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyGetNotFound">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not have a getter..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyMissing">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not exist..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyNotReadable">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} is write-only..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyNotWritable">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} is read-only..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertySetNotFound">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not have a setter..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.RaisedUnassociatedEvent">
-            <summary>
-              Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.RefExpressionMustBeConstantValue">
-            <summary>
-              Looks up a localized string similar to Ref expression must evaluate to a constant value..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ReturnValueRequired">
-            <summary>
-              Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupLambda">
-            <summary>
-              Looks up a localized string similar to A lambda expression is expected as the argument to It.Is&lt;T&gt;..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNever">
-            <summary>
-              Looks up a localized string similar to Invocation {0} should not have been made..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotMethod">
-            <summary>
-              Looks up a localized string similar to Expression is not a method invocation: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotProperty">
-            <summary>
-              Looks up a localized string similar to Expression is not a property access: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotSetter">
-            <summary>
-              Looks up a localized string similar to Expression is not a property setter invocation..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupOnNonMemberMethod">
-            <summary>
-              Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupOnNonOverridableMember">
-            <summary>
-              Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.TypeNotImplementInterface">
-            <summary>
-              Looks up a localized string similar to Type {0} does not implement required interface {1}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.TypeNotInheritFromType">
-            <summary>
-              Looks up a localized string similar to Type {0} does not from required type {1}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnexpectedPublicProperty">
-             <summary>
-               Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as:
-            mock.Setup(x =&gt; x.{1}).Returns(value);
-            mock.SetupGet(x =&gt; x.{1}).Returns(value); //equivalent to previous one
-            mock.SetupSet(x =&gt; x.{1}).Callback(callbackDelegate);
-            .
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedExpression">
-            <summary>
-              Looks up a localized string similar to Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedIntermediateExpression">
-            <summary>
-              Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedIntermediateType">
-            <summary>
-              Looks up a localized string similar to Expression contains intermediate property access {0}.{1} which is of type {2} and cannot be mocked. Unsupported expression {3}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedMatcherParamsForSetter">
-            <summary>
-              Looks up a localized string similar to Setter expression cannot use argument matchers that receive parameters..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedMember">
-            <summary>
-              Looks up a localized string similar to Member {0} is not supported for protected mocking..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnsupportedNonStaticMatcherForSetter">
-            <summary>
-              Looks up a localized string similar to Setter expression can only use static custom matchers..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.VerficationFailed">
-             <summary>
-               Looks up a localized string similar to The following setups were not matched:
-            {0}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.VerifyOnNonVirtualMember">
-            <summary>
-              Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}.
-            </summary>
-        </member>
-        <member name="T:Moq.Protected.IProtectedMock`1">
-            <summary>
-            Allows setups to be specified for protected members by using their 
-            name as a string, rather than strong-typing them which is not possible 
-            due to their visibility.
-            </summary>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Setup(System.String,System.Object[])">
-            <summary>
-            Specifies a setup for a void method invocation with the given 
-            <paramref name="voidMethodName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <param name="voidMethodName">The name of the void method to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Setup``1(System.String,System.Object[])">
-            <summary>
-            Specifies a setup for an invocation on a property or a non void method with the given 
-            <paramref name="methodOrPropertyName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <param name="methodOrPropertyName">The name of the method or property to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <typeparam name="TResult">The return type of the method or property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.SetupGet``1(System.String)">
-            <summary>
-            Specifies a setup for an invocation on a property getter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.SetupSet``1(System.String,System.Object)">
-            <summary>
-            Specifies a setup for an invocation on a property setter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <param name="value">The property value. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Verify(System.String,Moq.Times,System.Object[])">
-            <summary>
-            Specifies a verify for a void method with the given <paramref name="methodName"/>,
-            optionally specifying arguments for the method call. Use in conjuntion with the default
-            <see cref="F:Moq.MockBehavior.Loose"/>.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="methodName">The name of the void method to be verified.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Verify``1(System.String,Moq.Times,System.Object[])">
-            <summary>
-            Specifies a verify for an invocation on a property or a non void method with the given 
-            <paramref name="methodName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            <param name="methodName">The name of the method or property to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <typeparam name="TResult">The type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.VerifyGet``1(System.String,Moq.Times)">
-            <summary>
-            Specifies a verify for an invocation on a property getter with the given 
-            <paramref name="propertyName"/>.
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.VerifySet``1(System.String,Moq.Times,System.Object)">
-            <summary>
-            Specifies a setup for an invocation on a property setter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            <param name="propertyName">The name of the property.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="value">The property value.</param>
-            <typeparam name="TProperty">The type of the property. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</typeparam>
-        </member>
-        <member name="T:Moq.Protected.ItExpr">
-            <summary>
-            Allows the specification of a matching condition for an 
-            argument in a protected member setup, rather than a specific 
-            argument value. "ItExpr" refers to the argument being matched.
-            </summary>
-            <remarks>
-            <para>Use this variant of argument matching instead of 
-            <see cref="T:Moq.It"/> for protected setups.</para>
-            This class allows the setup to match a method invocation 
-            with an arbitrary value, with a value in a specified range, or 
-            even one that matches a given predicate, or null.
-            </remarks>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsNull``1">
-            <summary>
-            Matches a null value of the given <typeparamref name="TValue"/> type.
-            </summary>
-            <remarks>
-            Required for protected mocks as the null value cannot be used 
-            directly as it prevents proper method overload selection.
-            </remarks>
-            <example>
-            <code>
-            // Throws an exception for a call to Remove with a null string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsNull&lt;string&gt;())
-                .Throws(new InvalidOperationException());
-            </code>
-            </example>
-            <typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsAny``1">
-            <summary>
-            Matches any value of the given <typeparamref name="TValue"/> type.
-            </summary>
-            <remarks>
-            Typically used when the actual argument value for a method 
-            call is not relevant.
-            </remarks>
-            <example>
-            <code>
-            // Throws an exception for a call to Remove with any string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsAny&lt;string&gt;())
-                .Throws(new InvalidOperationException());
-            </code>
-            </example>
-            <typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.Is``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Matches any value that satisfies the given predicate.
-            </summary>
-            <typeparam name="TValue">Type of the argument to check.</typeparam>
-            <param name="match">The predicate used to match the method argument.</param>
-            <remarks>
-            Allows the specification of a predicate to perform matching 
-            of method call arguments.
-            </remarks>
-            <example>
-            This example shows how to return the value <c>1</c> whenever the argument to the 
-            <c>Do</c> method is an even number.
-            <code>
-            mock.Protected()
-                .Setup("Do", ItExpr.Is&lt;int&gt;(i =&gt; i % 2 == 0))
-                .Returns(1);
-            </code>
-            This example shows how to throw an exception if the argument to the 
-            method is a negative number:
-            <code>
-            mock.Protected()
-                .Setup("GetUser", ItExpr.Is&lt;int&gt;(i =&gt; i &lt; 0))
-                .Throws(new ArgumentException());
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsInRange``1(``0,``0,Moq.Range)">
-            <summary>
-            Matches any value that is in the range specified.
-            </summary>
-            <typeparam name="TValue">Type of the argument to check.</typeparam>
-            <param name="from">The lower bound of the range.</param>
-            <param name="to">The upper bound of the range.</param>
-            <param name="rangeKind">The kind of range. See <see cref="T:Moq.Range"/>.</param>
-            <example>
-            The following example shows how to expect a method call 
-            with an integer argument within the 0..100 range.
-            <code>
-            mock.Protected()
-                .Setup("HasInventory",
-                        ItExpr.IsAny&lt;string&gt;(),
-                        ItExpr.IsInRange(0, 100, Range.Inclusive))
-                .Returns(false);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsRegex(System.String)">
-            <summary>
-            Matches a string argument if it matches the given regular expression pattern.
-            </summary>
-            <param name="regex">The pattern to use to match the string argument value.</param>
-            <example>
-            The following example shows how to expect a call to a method where the 
-            string argument matches the given regular expression:
-            <code>
-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+"))
-                .Returns(1);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsRegex(System.String,System.Text.RegularExpressions.RegexOptions)">
-            <summary>
-            Matches a string argument if it matches the given regular expression pattern.
-            </summary>
-            <param name="regex">The pattern to use to match the string argument value.</param>
-            <param name="options">The options used to interpret the pattern.</param>
-            <example>
-            The following example shows how to expect a call to a method where the 
-            string argument matches the given regular expression, in a case insensitive way:
-            <code>
-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase))
-                .Returns(1);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Protected.ProtectedExtension">
-            <summary>
-            Enables the <c>Protected()</c> method on <see cref="T:Moq.Mock`1"/>, 
-            allowing setups to be set for protected members by using their 
-            name as a string, rather than strong-typing them which is not possible 
-            due to their visibility.
-            </summary>
-        </member>
-        <member name="M:Moq.Protected.ProtectedExtension.Protected``1(Moq.Mock{``0})">
-            <summary>
-            Enable protected setups for the mock.
-            </summary>
-            <typeparam name="T">Mocked object type. Typically omitted as it can be inferred from the mock instance.</typeparam>
-            <param name="mock">The mock to set the protected setups on.</param>
-        </member>
-        <member name="T:ThisAssembly">
-            <group name="overview" title="Overview" order="0" />
-            <group name="setups" title="Specifying setups" order="1" />
-            <group name="returns" title="Returning values from members" order="2" />
-            <group name="verification" title="Verifying setups" order="3" />
-            <group name="advanced" title="Advanced scenarios" order="99" />
-            <group name="factory" title="Using MockFactory for consistency across mocks" order="4" />
-        </member>
-        <member name="T:Moq.Range">
-            <summary>
-            Kind of range to use in a filter specified through 
-            <see cref="M:Moq.It.IsInRange``1(``0,``0,Moq.Range)"/>.
-            </summary>
-        </member>
-        <member name="F:Moq.Range.Inclusive">
-            <summary>
-            The range includes the <c>to</c> and 
-            <c>from</c> values.
-            </summary>
-        </member>
-        <member name="F:Moq.Range.Exclusive">
-            <summary>
-            The range does not include the <c>to</c> and 
-            <c>from</c> values.
-            </summary>
-        </member>
-        <member name="T:Moq.DefaultValue">
-            <summary>
-            Determines the way default values are generated 
-            calculated for loose mocks.
-            </summary>
-        </member>
-        <member name="F:Moq.DefaultValue.Empty">
-            <summary>
-            Default behavior, which generates empty values for 
-            value types (i.e. default(int)), empty array and 
-            enumerables, and nulls for all other reference types.
-            </summary>
-        </member>
-        <member name="F:Moq.DefaultValue.Mock">
-            <summary>
-            Whenever the default value generated by <see cref="F:Moq.DefaultValue.Empty"/> 
-            is null, replaces this value with a mock (if the type 
-            can be mocked). 
-            </summary>
-            <remarks>
-            For sealed classes, a null value will be generated.
-            </remarks>
-        </member>
-        <member name="T:Moq.Linq.MockQueryable`1">
-            <summary>
-            A default implementation of IQueryable for use with QueryProvider
-            </summary>
-        </member>
-        <member name="M:Moq.Linq.MockQueryable`1.#ctor(System.Linq.Expressions.MethodCallExpression)">
-            <summary>
-            The <paramref name="underlyingCreateMocks"/> is a 
-            static method that returns an IQueryable of Mocks of T which is used to 
-            apply the linq specification to.
-            </summary>
-        </member>
-        <member name="T:Moq.Match">
-            <summary>
-			Allows creation custom value matchers that can be used on setups and verification,
-			completely replacing the built-in <see cref="T:Moq.It"/> class with your own argument
-			matching rules.
-		</summary><remarks>
-			 See also <see cref="T:Moq.Match`1"/>.
-		</remarks>
-        </member>
-        <member name="M:Moq.Match.Matcher``1">
-            <devdoc>
-            Provided for the sole purpose of rendering the delegate passed to the 
-            matcher constructor if no friendly render lambda is provided.
-            </devdoc>
-        </member>
-        <member name="M:Moq.Match.Create``1(System.Predicate{``0})">
-            <summary>
-			Initializes the match with the condition that
-			will be checked in order to match invocation
-			values.
-		</summary><param name="condition">The condition to match against actual values.</param><remarks>
-			 <seealso cref="T:Moq.Match`1"/>
-		</remarks>
-        </member>
-        <member name="M:Moq.Match.Create``1(System.Predicate{``0},System.Linq.Expressions.Expression{System.Func{``0}})">
-            <!-- No matching elements were found for the following include tag --><include file="Match.xdoc" path="docs/doc[@for=&quot;Match.Create{T}(condition,renderExpression&quot;]/*"/>
-        </member>
-        <member name="M:Moq.Match.SetLastMatch``1(Moq.Match{``0})">
-            <devdoc>
-            This method is used to set an expression as the last matcher invoked, 
-            which is used in the SetupSet to allow matchers in the prop = value 
-            delegate expression. This delegate is executed in "fluent" mode in 
-            order to capture the value being set, and construct the corresponding 
-            methodcall.
-            This is also used in the MatcherFactory for each argument expression.
-            This method ensures that when we execute the delegate, we 
-            also track the matcher that was invoked, so that when we create the 
-            methodcall we build the expression using it, rather than the null/default 
-            value returned from the actual invocation.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Match`1">
-            <summary>
-			Allows creation custom value matchers that can be used on setups and verification,
-			completely replacing the built-in <see cref="T:Moq.It"/> class with your own argument
-			matching rules.
-		</summary><typeparam name="T">Type of the value to match.</typeparam><remarks>
-			The argument matching is used to determine whether a concrete
-			invocation in the mock matches a given setup. This
-			matching mechanism is fully extensible.
-		</remarks><example>
-			Creating a custom matcher is straightforward. You just need to create a method
-			that returns a value from a call to <see cref="M:Moq.Match.Create``1(System.Predicate{``0})"/> with 
-			your matching condition and optional friendly render expression:
-			<code>
-				[Matcher]
-				public Order IsBigOrder()
-				{
-					return Match&lt;Order&gt;.Create(
-						o =&gt; o.GrandTotal &gt;= 5000, 
-						/* a friendly expression to render on failures */
-						() =&gt; IsBigOrder());
-				}
-			</code>
-			This method can be used in any mock setup invocation:
-			<code>
-				mock.Setup(m =&gt; m.Submit(IsBigOrder()).Throws&lt;UnauthorizedAccessException&gt;();
-			</code>
-			At runtime, Moq knows that the return value was a matcher (note that the method MUST be 
-			annotated with the [Matcher] attribute in order to determine this) and
-			evaluates your predicate with the actual value passed into your predicate.
-			<para>
-				Another example might be a case where you want to match a lists of orders
-				that contains a particular one. You might create matcher like the following:
-			</para>
-			<code>
-				public static class Orders
-				{
-					[Matcher]
-					public static IEnumerable&lt;Order&gt; Contains(Order order)
-					{
-						return Match&lt;IEnumerable&lt;Order&gt;&gt;.Create(orders =&gt; orders.Contains(order));
-					}
-				}
-			</code>
-			Now we can invoke this static method instead of an argument in an
-			invocation:
-			<code>
-				var order = new Order { ... };
-				var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-
-				mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-					 .Throws&lt;ArgumentException&gt;();
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.FluentMockContext">
-            <summary>
-            Tracks the current mock and interception context.
-            </summary>
-        </member>
-        <member name="P:Moq.FluentMockContext.IsActive">
-            <summary>
-            Having an active fluent mock context means that the invocation 
-            is being performed in "trial" mode, just to gather the 
-            target method and arguments that need to be matched later 
-            when the actual invocation is made.
-            </summary>
-        </member>
-        <member name="T:Moq.MockDefaultValueProvider">
-            <summary>
-            A <see cref="T:Moq.IDefaultValueProvider"/> that returns an empty default value 
-            for non-mockeable types, and mocks for all other types (interfaces and 
-            non-sealed classes) that can be mocked.
-            </summary>
-        </member>
-        <member name="T:Moq.Mocks">
-            <summary>
-            Allows querying the universe of mocks for those that behave 
-            according to the LINQ query specification.
-            </summary>
-            <devdoc>
-            This entry-point into Linq to Mocks is the only one in the root Moq 
-            namespace to ease discovery. But to get all the mocking extension 
-            methods on Object, a using of Moq.Linq must be done, so that the 
-            polluting of the intellisense for all objects is an explicit opt-in.
-            </devdoc>
-        </member>
-        <member name="M:Moq.Mocks.Of``1">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.Mocks.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.Mocks.OneOf``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mocks.OneOf``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mocks.CreateMockQuery``1">
-            <summary>
-            Creates the mock query with the underlying queriable implementation.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.CreateQueryable``1">
-            <summary>
-            Wraps the enumerator inside a queryable.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.CreateMocks``1">
-            <summary>
-            Method that is turned into the actual call from .Query{T}, to 
-            transform the queryable query into a normal enumerable query.
-            This method is never used directly by consumers.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.SetPropery``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Extension method used to support Linq-like setup properties that are not virtual but do have 
-            a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :)
-            </summary>
-        </member>
-        <member name="T:Moq.QueryableMockExtensions">
-            <summary>
-            Helper extensions that are used by the query translator.
-            </summary>
-        </member>
-        <member name="M:Moq.QueryableMockExtensions.FluentMock``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Retrieves a fluent mock from the given setup expression.
-            </summary>
-        </member>
-        <member name="T:Moq.Times">
-            <summary>
-			Defines the number of invocations allowed by a mocked method.
-		</summary>
-        </member>
-        <member name="M:Moq.Times.AtLeast(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked <paramref name="callCount"/> times as minimum.
-		</summary><param name="callCount">The minimun number of times.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtLeastOnce">
-            <summary>
-			Specifies that a mocked method should be invoked one time as minimum.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtMost(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked <paramref name="callCount"/> time as maximun.
-		</summary><param name="callCount">The maximun number of times.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtMostOnce">
-            <summary>
-			Specifies that a mocked method should be invoked one time as maximun.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Between(System.Int32,System.Int32,Moq.Range)">
-            <summary>
-			Specifies that a mocked method should be invoked between <paramref name="callCountFrom"/> and
-			<paramref name="callCountTo"/> times.
-		</summary><param name="callCountFrom">The minimun number of times.</param><param name="callCountTo">The maximun number of times.</param><param name="rangeKind">
-			The kind of range. See <see cref="T:Moq.Range"/>.
-		</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Exactly(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked exactly <paramref name="callCount"/> times.
-		</summary><param name="callCount">The times that a method or property can be called.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Never">
-            <summary>
-			Specifies that a mocked method should not be invoked.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Once">
-            <summary>
-			Specifies that a mocked method should be invoked exactly one time.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.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:Moq.Times.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:Moq.Times.op_Equality(Moq.Times,Moq.Times)">
-            <summary>
-			Determines whether two specified <see cref="T:Moq.Times"/> objects have the same value.
-		</summary><param name="left">
-			The first <see cref="T:Moq.Times"/>.
-		</param><param name="right">
-			The second <see cref="T:Moq.Times"/>.
-		</param><returns>
-			<c>true</c> if the value of left is the same as the value of right; otherwise, <c>false</c>.
-		</returns>
-        </member>
-        <member name="M:Moq.Times.op_Inequality(Moq.Times,Moq.Times)">
-            <summary>
-			Determines whether two specified <see cref="T:Moq.Times"/> objects have different values.
-		</summary><param name="left">
-			The first <see cref="T:Moq.Times"/>.
-		</param><param name="right">
-			The second <see cref="T:Moq.Times"/>.
-		</param><returns>
-			<c>true</c> if the value of left is different from the value of right; otherwise, <c>false</c>.
-		</returns>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/Moq.4.0.10827/lib/Silverlight4/Castle.Core.dll b/src/packages/Moq.4.0.10827/lib/Silverlight4/Castle.Core.dll
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diff --git a/src/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.pdb b/src/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.pdb
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diff --git a/src/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.xml b/src/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.xml
deleted file mode 100644
index 90efe10..0000000
--- a/src/packages/Moq.4.0.10827/lib/Silverlight4/Moq.Silverlight.xml
+++ /dev/null
@@ -1,5101 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Moq.Silverlight</name>
-    </assembly>
-    <members>
-        <member name="T:Moq.Mock`1">
-            <summary>
-			Provides a mock implementation of <typeparamref name="T"/>.
-		</summary><remarks>
-			Any interface type can be used for mocking, but for classes, only abstract and virtual members can be mocked.
-			<para>
-				The behavior of the mock with regards to the setups and the actual calls is determined
-				by the optional <see cref="T:Moq.MockBehavior"/> that can be passed to the <see cref="M:Moq.Mock`1.#ctor(Moq.MockBehavior)"/>
-				constructor.
-			</para>
-		</remarks><typeparam name="T">Type to mock, which can be an interface or a class.</typeparam><example group="overview" order="0">
-			The following example shows establishing setups with specific values
-			for method invocations:
-			<code>
-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock&lt;IWarehouse&gt;();
-
-				mock.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Returns(true);
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.True(order.IsFilled);
-			</code>
-			The following example shows how to use the <see cref="T:Moq.It"/> class
-			to specify conditions for arguments instead of specific values:
-			<code>
-				// Arrange
-				var order = new Order(TALISKER, 50);
-				var mock = new Mock&lt;IWarehouse&gt;();
-
-				// shows how to expect a value within a range
-				mock.Setup(x =&gt; x.HasInventory(
-							It.IsAny&lt;string&gt;(),
-							It.IsInRange(0, 100, Range.Inclusive)))
-					 .Returns(false);
-
-				// shows how to throw for unexpected calls.
-				mock.Setup(x =&gt; x.Remove(
-							It.IsAny&lt;string&gt;(),
-							It.IsAny&lt;int&gt;()))
-					 .Throws(new InvalidOperationException());
-
-				// Act
-				order.Fill(mock.Object);
-
-				// Assert
-				Assert.False(order.IsFilled);
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.Mock">
-            <summary>
-			Base class for mocks and static helper class with methods that
-			apply to mocked objects, such as <see cref="M:Moq.Mock.Get``1(``0)"/> to
-			retrieve a <see cref="T:Moq.Mock`1"/> from an object instance.
-		</summary>
-        </member>
-        <member name="T:Moq.IHideObjectMembers">
-            <summary>
-            Helper interface used to hide the base <see cref="T:System.Object"/> 
-            members from the fluent API to make it much cleaner 
-            in Visual Studio intellisense.
-            </summary>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.GetType">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.GetHashCode">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.ToString">
-            <summary/>
-        </member>
-        <member name="M:Moq.IHideObjectMembers.Equals(System.Object)">
-            <summary/>
-        </member>
-        <member name="M:Moq.Mock.Of``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mock.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="predicate">The predicate with the specification of how the mocked object should behave.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mock.#ctor">
-            <summary>
-			Initializes a new instance of the <see cref="T:Moq.Mock"/> class.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Get``1(``0)">
-            <summary>
-			Retrieves the mock object for the given object instance.
-		</summary><typeparam name="T">
-			Type of the mock to retrieve. Can be omitted as it's inferred
-			from the object instance passed in as the <paramref name="mocked"/> instance.
-		</typeparam><param name="mocked">The instance of the mocked object.</param><returns>The mock associated with the mocked object.</returns><exception cref="T:System.ArgumentException">
-			The received <paramref name="mocked"/> instance
-			was not created by Moq.
-		</exception><example group="advanced">
-			The following example shows how to add a new setup to an object
-			instance which is not the original <see cref="T:Moq.Mock`1"/> but rather
-			the object associated with it:
-			<code>
-				// Typed instance, not the mock, is retrieved from some test API.
-				HttpContextBase context = GetMockContext();
-
-				// context.Request is the typed object from the "real" API
-				// so in order to add a setup to it, we need to get
-				// the mock that "owns" it
-				Mock&lt;HttpRequestBase&gt; request = Mock.Get(context.Request);
-				mock.Setup(req =&gt; req.AppRelativeCurrentExecutionFilePath)
-					 .Returns(tempUrl);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock.OnGetObject">
-            <summary>
-			Returns the mocked object value.
-		</summary>
-        </member>
-        <member name="M:Moq.Mock.Verify">
-            <summary>
-			Verifies that all verifiable expectations have been met.
-		</summary><example group="verification">
-			This example sets up an expectation and marks it as verifiable. After
-			the mock is used, a <c>Verify()</c> call is issued on the mock
-			to ensure the method in the setup was invoked:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				this.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Verifiable().Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory.
-				this.Verify();
-			</code>
-		</example><exception cref="T:Moq.MockException">Not all verifiable expectations were met.</exception>
-        </member>
-        <member name="M:Moq.Mock.VerifyAll">
-            <summary>
-			Verifies all expectations regardless of whether they have
-			been flagged as verifiable.
-		</summary><example group="verification">
-			This example sets up an expectation without marking it as verifiable. After
-			the mock is used, a <see cref="M:Moq.Mock.VerifyAll"/> call is issued on the mock
-			to ensure that all expectations are met:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				this.Setup(x =&gt; x.HasInventory(TALISKER, 50)).Returns(true);
-				...
-				// other test code
-				...
-				// Will throw if the test code has didn't call HasInventory, even
-				// that expectation was not marked as verifiable.
-				this.VerifyAll();
-			</code>
-		</example><exception cref="T:Moq.MockException">At least one expectation was not met.</exception>		
-        </member>
-        <member name="M:Moq.Mock.GetInterceptor(System.Linq.Expressions.Expression,Moq.Mock)">
-            <summary>
-            Gets the interceptor target for the given expression and root mock, 
-            building the intermediate hierarchy of mock objects if necessary.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.DoRaise(System.Reflection.EventInfo,System.EventArgs)">
-            <summary>
-            Raises the associated event with the given 
-            event argument data.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.DoRaise(System.Reflection.EventInfo,System.Object[])">
-            <summary>
-            Raises the associated event with the given 
-            event argument data.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock.As``1">
-            <summary>
-			Adds an interface implementation to the mock,
-			allowing setups to be specified for it.
-		</summary><remarks>
-			This method can only be called before the first use
-			of the mock <see cref="P:Moq.Mock.Object"/> property, at which
-			point the runtime type has already been generated
-			and no more interfaces can be added to it.
-			<para>
-				Also, <typeparamref name="TInterface"/> must be an
-				interface and not a class, which must be specified
-				when creating the mock instead.
-			</para>
-		</remarks><exception cref="T:System.InvalidOperationException">
-			The mock type
-			has already been generated by accessing the <see cref="P:Moq.Mock.Object"/> property.
-		</exception><exception cref="T:System.ArgumentException">
-			The <typeparamref name="TInterface"/> specified
-			is not an interface.
-		</exception><example>
-			The following example creates a mock for the main interface
-			and later adds <see cref="T:System.IDisposable"/> to it to verify
-			it's called by the consumer code:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				mock.Setup(x =&gt; x.Execute("ping"));
-
-				// add IDisposable interface
-				var disposable = mock.As&lt;IDisposable&gt;();
-				disposable.Setup(d =&gt; d.Dispose()).Verifiable();
-			</code>
-		</example><typeparam name="TInterface">Type of interface to cast the mock to.</typeparam>
-        </member>
-        <member name="M:Moq.Mock.SetReturnsDefault``1(``0)">
-            <!-- No matching elements were found for the following include tag --><include file="Mock.Generic.xdoc" path="docs/doc[@for=&quot;Mock.SetReturnDefault{TReturn}&quot;]/*"/>
-        </member>
-        <member name="P:Moq.Mock.Behavior">
-            <summary>
-			Behavior of the mock, according to the value set in the constructor.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.CallBase">
-            <summary>
-			Whether the base member virtual implementation will be called
-			for mocked classes if no setup is matched. Defaults to <see langword="false"/>.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.DefaultValue">
-            <summary>
-			Specifies the behavior to use when returning default values for
-			unexpected invocations on loose mocks.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.Object">
-            <summary>
-			Gets the mocked object instance.
-		</summary>
-        </member>
-        <member name="P:Moq.Mock.MockedType">
-            <summary>
-            Retrieves the type of the mocked object, its generic type argument.
-            This is used in the auto-mocking of hierarchy access.
-            </summary>
-        </member>
-        <member name="P:Moq.Mock.DefaultValueProvider">
-            <summary>
-            Specifies the class that will determine the default 
-            value to return when invocations are made that 
-            have no setups and need to return a default 
-            value (for loose mocks).
-            </summary>
-        </member>
-        <member name="P:Moq.Mock.ImplementedInterfaces">
-            <summary>
-            Exposes the list of extra interfaces implemented by the mock.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(System.Boolean)">
-            <summary>
-            Ctor invoked by AsTInterface exclusively.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor">
-            <summary>
-			Initializes an instance of the mock with <see cref="F:Moq.MockBehavior.Default">default behavior</see>.
-		</summary><example>
-			<code>var mock = new Mock&lt;IFormatProvider&gt;();</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(System.Object[])">
-            <summary>
-			Initializes an instance of the mock with <see cref="F:Moq.MockBehavior.Default">default behavior</see> and with
-			the given constructor arguments for the class. (Only valid when <typeparamref name="T"/> is a class)
-		</summary><remarks>
-			The mock will try to find the best match constructor given the constructor arguments, and invoke that
-			to initialize the instance. This applies only for classes, not interfaces.
-		</remarks><example>
-			<code>var mock = new Mock&lt;MyProvider&gt;(someArgument, 25);</code>
-		</example><param name="args">Optional constructor arguments if the mocked type is a class.</param>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(Moq.MockBehavior)">
-            <summary>
-			Initializes an instance of the mock with the specified <see cref="T:Moq.MockBehavior">behavior</see>.
-		</summary><example>
-			<code>var mock = new Mock&lt;IFormatProvider&gt;(MockBehavior.Relaxed);</code>
-		</example><param name="behavior">Behavior of the mock.</param>
-        </member>
-        <member name="M:Moq.Mock`1.#ctor(Moq.MockBehavior,System.Object[])">
-            <summary>
-			Initializes an instance of the mock with a specific <see cref="T:Moq.MockBehavior">behavior</see> with
-			the given constructor arguments for the class.
-		</summary><remarks>
-			The mock will try to find the best match constructor given the constructor arguments, and invoke that
-			to initialize the instance. This applies only to classes, not interfaces.
-		</remarks><example>
-			<code>var mock = new Mock&lt;MyProvider&gt;(someArgument, 25);</code>
-		</example><param name="behavior">Behavior of the mock.</param><param name="args">Optional constructor arguments if the mocked type is a class.</param>
-        </member>
-        <member name="M:Moq.Mock`1.OnGetObject">
-            <summary>
-            Returns the mocked object value.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.Setup(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a void method.
-		</summary><remarks>
-			If more than one setup is specified for the same method or property,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="expression">Lambda expression that specifies the expected method invocation.</param><example group="setups">
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				mock.Setup(x =&gt; x.Execute("ping"));
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Setup``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a value returning method.
-		</summary><typeparam name="TResult">Type of the return value. Typically omitted as it can be inferred from the expression.</typeparam><remarks>
-			If more than one setup is specified for the same method or property,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="expression">Lambda expression that specifies the method invocation.</param><example group="setups">
-			<code>
-				mock.Setup(x =&gt; x.HasInventory("Talisker", 50)).Returns(true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property getter.
-		</summary><remarks>
-			If more than one setup is set for the same property getter,
-			the latest one wins and is the one that will be executed.
-		</remarks><typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam><param name="expression">Lambda expression that specifies the property getter.</param><example group="setups">
-			<code>
-				mock.SetupGet(x =&gt; x.Suspended)
-					 .Returns(true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupSet``1(System.Action{`0})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property setter.
-		</summary><remarks>
-			If more than one setup is set for the same property setter,
-			the latest one wins and is the one that will be executed.
-			<para>
-				This overloads allows the use of a callback already
-				typed for the property type.
-			</para>
-		</remarks><typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam><param name="setterExpression">The Lambda expression that sets a property to a value.</param><example group="setups">
-			<code>
-				mock.SetupSet(x =&gt; x.Suspended = true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupSet(System.Action{`0})">
-            <summary>
-			Specifies a setup on the mocked type for a call to
-			to a property setter.
-		</summary><remarks>
-			If more than one setup is set for the same property setter,
-			the latest one wins and is the one that will be executed.
-		</remarks><param name="setterExpression">Lambda expression that sets a property to a value.</param><example group="setups">
-			<code>
-				mock.SetupSet(x =&gt; x.Suspended = true);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupProperty``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Specifies that the given property should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. (this is also
-			known as "stubbing").
-		</summary><typeparam name="TProperty">
-			Type of the property, inferred from the property
-			expression (does not need to be specified).
-		</typeparam><param name="property">Property expression to stub.</param><example>
-			If you have an interface with an int property <c>Value</c>, you might
-			stub it using the following straightforward call:
-			<code>
-				var mock = new Mock&lt;IHaveValue&gt;();
-				mock.Stub(v =&gt; v.Value);
-			</code>
-			After the <c>Stub</c> call has been issued, setting and
-			retrieving the object value will behave as expected:
-			<code>
-				IHaveValue v = mock.Object;
-
-				v.Value = 5;
-				Assert.Equal(5, v.Value);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupProperty``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
-            <summary>
-			Specifies that the given property should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. This overload
-			allows setting the initial value for the property. (this is also
-			known as "stubbing").
-		</summary><typeparam name="TProperty">
-			Type of the property, inferred from the property
-			expression (does not need to be specified).
-		</typeparam><param name="property">Property expression to stub.</param><param name="initialValue">Initial value for the property.</param><example>
-			If you have an interface with an int property <c>Value</c>, you might
-			stub it using the following straightforward call:
-			<code>
-				var mock = new Mock&lt;IHaveValue&gt;();
-				mock.SetupProperty(v =&gt; v.Value, 5);
-			</code>
-			After the <c>SetupProperty</c> call has been issued, setting and
-			retrieving the object value will behave as expected:
-			<code>
-				IHaveValue v = mock.Object;
-				// Initial value was stored
-				Assert.Equal(5, v.Value);
-
-				// New value set which changes the initial value
-				v.Value = 6;
-				Assert.Equal(6, v.Value);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.SetupAllProperties">
-            <summary>
-			Specifies that the all properties on the mock should have "property behavior",
-			meaning that setting its value will cause it to be saved and
-			later returned when the property is requested. (this is also
-			known as "stubbing"). The default value for each property will be the
-			one generated as specified by the <see cref="P:Moq.Mock.DefaultValue"/> property for the mock.
-		</summary><remarks>
-			If the mock <see cref="P:Moq.Mock.DefaultValue"/> is set to <see cref="F:Moq.DefaultValue.Mock"/>,
-			the mocked default values will also get all properties setup recursively.
-		</remarks>
-        </member>
-        <member name="M:Moq.Mock`1.When(System.Func{System.Boolean})">
-            <!-- No matching elements were found for the following include tag --><include file="Mock.Generic.xdoc" path="docs/doc[@for=&quot;Mock{T}.When&quot;]/*"/>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc =&gt; proc.Execute("ping"));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},Moq.Times)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock,
-			specifying a failure error message. Use in conjuntion with the default
-			<see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IProcessor&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call Execute with a "ping" string argument.
-				mock.Verify(proc =&gt; proc.Execute("ping"));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify(System.Linq.Expressions.Expression{System.Action{`0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock,
-			specifying a failure error message. Use in conjuntion with the default
-			<see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Verifies that a specific invocation matching the given expression was performed on the mock. Use
-			in conjuntion with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><example group="verification">
-			This example assumes that the mock has been used, and later we want to verify that a given
-			invocation with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse =&gt; warehouse.HasInventory(TALISKER, 50));
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock. Use in conjuntion
-			with the default <see cref="F:Moq.MockBehavior.Loose"/>.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock, specifying a failure
-			error message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given invocation
-			with specific parameters was performed:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't call HasInventory.
-				mock.Verify(warehouse =&gt; warehouse.HasInventory(TALISKER, 50), "When filling orders, inventory has to be checked");
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.Verify``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a specific invocation matching the given
-			expression was performed on the mock, specifying a failure
-			error message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="expression">Expression to verify.</param><param name="times">The number of times a method is allowed to be called.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TResult">Type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-			Verifies that a property was read on the mock.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was retrieved from it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse =&gt; warehouse.IsClosed);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times)">
-            <summary>
-			Verifies that a property was read on the mock.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="expression">Expression to verify.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},System.String)">
-            <summary>
-			Verifies that a property was read on the mock, specifying a failure
-			error message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was retrieved from it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't retrieve the IsClosed property.
-				mock.VerifyGet(warehouse =&gt; warehouse.IsClosed);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifyGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},Moq.Times,System.String)">
-            <summary>
-			Verifies that a property was read on the mock, specifying a failure
-			error message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="expression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param><typeparam name="TProperty">
-			Type of the property to verify. Typically omitted as it can
-			be inferred from the expression's return type.
-		</typeparam>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0})">
-            <summary>
-			Verifies that a property was set on the mock.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was set on it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse =&gt; warehouse.IsClosed = true);
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="setterExpression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},Moq.Times)">
-            <summary>
-			Verifies that a property was set on the mock.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="setterExpression">Expression to verify.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},System.String)">
-            <summary>
-			Verifies that a property was set on the mock, specifying
-			a failure message.
-		</summary><example group="verification">
-			This example assumes that the mock has been used,
-			and later we want to verify that a given property
-			was set on it:
-			<code>
-				var mock = new Mock&lt;IWarehouse&gt;();
-				// exercise mock
-				//...
-				// Will throw if the test code didn't set the IsClosed property.
-				mock.VerifySet(warehouse =&gt; warehouse.IsClosed = true, "Warehouse should always be closed after the action");
-			</code>
-		</example><exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception><param name="setterExpression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.VerifySet(System.Action{`0},Moq.Times,System.String)">
-            <summary>
-			Verifies that a property was set on the mock, specifying
-			a failure message.
-		</summary><exception cref="T:Moq.MockException">
-			The invocation was not call the times specified by
-			<paramref name="times"/>.
-		</exception><param name="times">The number of times a method is allowed to be called.</param><param name="setterExpression">Expression to verify.</param><param name="failMessage">Message to show if verification fails.</param>
-        </member>
-        <member name="M:Moq.Mock`1.Raise(System.Action{`0},System.EventArgs)">
-            <summary>
-			Raises the event referenced in <paramref name="eventExpression"/> using
-			the given <paramref name="args"/> argument.
-		</summary><exception cref="T:System.ArgumentException">
-			The <paramref name="args"/> argument is
-			invalid for the target event invocation, or the <paramref name="eventExpression"/> is
-			not an event attach or detach expression.
-		</exception><example>
-			The following example shows how to raise a <see cref="E:System.ComponentModel.INotifyPropertyChanged.PropertyChanged"/> event:
-			<code>
-				var mock = new Mock&lt;IViewModel&gt;();
-
-				mock.Raise(x =&gt; x.PropertyChanged -= null, new PropertyChangedEventArgs("Name"));
-			</code>
-		</example><example>
-			This example shows how to invoke an event with a custom event arguments
-			class in a view that will cause its corresponding presenter to
-			react by changing its state:
-			<code>
-				var mockView = new Mock&lt;IOrdersView&gt;();
-				var presenter = new OrdersPresenter(mockView.Object);
-
-				// Check that the presenter has no selection by default
-				Assert.Null(presenter.SelectedOrder);
-
-				// Raise the event with a specific arguments data
-				mockView.Raise(v =&gt; v.SelectionChanged += null, new OrderEventArgs { Order = new Order("moq", 500) });
-
-				// Now the presenter reacted to the event, and we have a selected order
-				Assert.NotNull(presenter.SelectedOrder);
-				Assert.Equal("moq", presenter.SelectedOrder.ProductName);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Raise(System.Action{`0},System.Object[])">
-            <summary>
-			Raises the event referenced in <paramref name="eventExpression"/> using
-			the given <paramref name="args"/> argument for a non-EventHandler typed event.
-		</summary><exception cref="T:System.ArgumentException">
-			The <paramref name="args"/> arguments are
-			invalid for the target event invocation, or the <paramref name="eventExpression"/> is
-			not an event attach or detach expression.
-		</exception><example>
-			The following example shows how to raise a custom event that does not adhere to 
-			the standard <c>EventHandler</c>:
-			<code>
-				var mock = new Mock&lt;IViewModel&gt;();
-
-				mock.Raise(x =&gt; x.MyEvent -= null, "Name", bool, 25);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.Mock`1.Expect(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.Expect``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectSet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.Mock`1.ExpectSet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}},``0)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="P:Moq.Mock`1.Object">
-            <summary>
-			Exposes the mocked object instance.
-		</summary>
-        </member>
-        <member name="T:Moq.Language.ISetupConditionResult`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.Setup(System.Linq.Expressions.Expression{System.Action{`0}})">
-            <summary>
-            The expectation will be considered only in the former condition.
-            </summary>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.Setup``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            The expectation will be considered only in the former condition.
-            </summary>
-            <typeparam name="TResult"></typeparam>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})">
-            <summary>
-            Setups the get.
-            </summary>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-            <param name="expression">The expression.</param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupSet``1(System.Action{`0})">
-            <summary>
-            Setups the set.
-            </summary>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-            <param name="setterExpression">The setter expression.</param>
-            <returns></returns>
-        </member>
-        <member name="M:Moq.Language.ISetupConditionResult`1.SetupSet(System.Action{`0})">
-            <summary>
-            Setups the set.
-            </summary>
-            <param name="setterExpression">The setter expression.</param>
-            <returns></returns>
-        </member>
-        <member name="T:Moq.DefaultValue">
-            <summary>
-            Determines the way default values are generated 
-            calculated for loose mocks.
-            </summary>
-        </member>
-        <member name="F:Moq.DefaultValue.Empty">
-            <summary>
-            Default behavior, which generates empty values for 
-            value types (i.e. default(int)), empty array and 
-            enumerables, and nulls for all other reference types.
-            </summary>
-        </member>
-        <member name="F:Moq.DefaultValue.Mock">
-            <summary>
-            Whenever the default value generated by <see cref="F:Moq.DefaultValue.Empty"/> 
-            is null, replaces this value with a mock (if the type 
-            can be mocked). 
-            </summary>
-            <remarks>
-            For sealed classes, a null value will be generated.
-            </remarks>
-        </member>
-        <member name="T:Moq.EmptyDefaultValueProvider">
-            <summary>
-            A <see cref="T:Moq.IDefaultValueProvider"/> that returns an empty default value 
-            for invocations that do not have setups or return values, with loose mocks.
-            This is the default behavior for a mock.
-            </summary>
-        </member>
-        <member name="T:Moq.IDefaultValueProvider">
-            <summary>
-			Interface to be implemented by classes that determine the
-			default value of non-expected invocations.
-		</summary>
-        </member>
-        <member name="M:Moq.IDefaultValueProvider.DefineDefault``1(``0)">
-            <summary>
-			Defines the default value to return in all the methods returning <typeparamref name="T"/>.
-		</summary><typeparam name="T">The type of the return value.</typeparam><param name="value">The value to set as default.</param>
-        </member>
-        <member name="M:Moq.IDefaultValueProvider.ProvideDefault(System.Reflection.MethodInfo)">
-            <summary>
-			Provides a value for the given member and arguments.
-		</summary><param name="member">
-			The member to provide a default	value for.
-		</param>
-        </member>
-        <member name="T:Moq.Evaluator">
-            <summary>
-            Provides partial evaluation of subtrees, whenever they can be evaluated locally.
-            </summary>
-            <author>Matt Warren: http://blogs.msdn.com/mattwar</author>
-            <contributor>Documented by InSTEDD: http://www.instedd.org</contributor>
-        </member>
-        <member name="M:Moq.Evaluator.PartialEval(System.Linq.Expressions.Expression,System.Func{System.Linq.Expressions.Expression,System.Boolean})">
-            <summary>
-            Performs evaluation and replacement of independent sub-trees
-            </summary>
-            <param name="expression">The root of the expression tree.</param>
-            <param name="fnCanBeEvaluated">A function that decides whether a given expression
-            node can be part of the local function.</param>
-            <returns>A new tree with sub-trees evaluated and replaced.</returns>
-        </member>
-        <member name="M:Moq.Evaluator.PartialEval(System.Linq.Expressions.Expression)">
-            <summary>
-            Performs evaluation and replacement of independent sub-trees
-            </summary>
-            <param name="expression">The root of the expression tree.</param>
-            <returns>A new tree with sub-trees evaluated and replaced.</returns>
-        </member>
-        <member name="T:Moq.Evaluator.SubtreeEvaluator">
-            <summary>
-            Evaluates and replaces sub-trees when first candidate is reached (top-down)
-            </summary>
-        </member>
-        <member name="T:Moq.Evaluator.Nominator">
-            <summary>
-            Performs bottom-up analysis to determine which nodes can possibly
-            be part of an evaluated sub-tree.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToLambda(System.Linq.Expressions.Expression)">
-            <summary>
-            Casts the expression to a lambda expression, removing 
-            a cast if there's any.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToMethodCall(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Casts the body of the lambda expression to a <see cref="T:System.Linq.Expressions.MethodCallExpression"/>.
-            </summary>
-            <exception cref="T:System.ArgumentException">If the body is not a method call.</exception>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToPropertyInfo(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Converts the body of the lambda expression into the <see cref="T:System.Reflection.PropertyInfo"/> referenced by it.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsProperty(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Checks whether the body of the lambda expression is a property access.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsProperty(System.Linq.Expressions.Expression)">
-            <summary>
-            Checks whether the expression is a property access.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsPropertyIndexer(System.Linq.Expressions.LambdaExpression)">
-            <summary>
-            Checks whether the body of the lambda expression is a property indexer, which is true 
-            when the expression is an <see cref="T:System.Linq.Expressions.MethodCallExpression"/> whose 
-            <see cref="P:System.Linq.Expressions.MethodCallExpression.Method"/> has <see cref="P:System.Reflection.MethodBase.IsSpecialName"/> 
-            equal to <see langword="true"/>.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.IsPropertyIndexer(System.Linq.Expressions.Expression)">
-            <summary>
-            Checks whether the expression is a property indexer, which is true 
-            when the expression is an <see cref="T:System.Linq.Expressions.MethodCallExpression"/> whose 
-            <see cref="P:System.Linq.Expressions.MethodCallExpression.Method"/> has <see cref="P:System.Reflection.MethodBase.IsSpecialName"/> 
-            equal to <see langword="true"/>.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.CastTo``1(System.Linq.Expressions.Expression)">
-            <summary>
-            Creates an expression that casts the given expression to the <typeparamref name="T"/> 
-            type.
-            </summary>
-        </member>
-        <member name="M:Moq.ExpressionExtensions.ToStringFixed(System.Linq.Expressions.Expression)">
-            <devdoc>
-            TODO: remove this code when https://connect.microsoft.com/VisualStudio/feedback/ViewFeedback.aspx?FeedbackID=331583 
-            is fixed.
-            </devdoc>
-        </member>
-        <member name="T:Moq.ExpressionStringBuilder">
-            <summary>
-            The intention of <see cref="T:Moq.ExpressionStringBuilder"/> is to create a more readable 
-            string representation for the failure message.
-            </summary>
-        </member>
-        <member name="T:Moq.FluentMockContext">
-            <summary>
-            Tracks the current mock and interception context.
-            </summary>
-        </member>
-        <member name="P:Moq.FluentMockContext.IsActive">
-            <summary>
-            Having an active fluent mock context means that the invocation 
-            is being performed in "trial" mode, just to gather the 
-            target method and arguments that need to be matched later 
-            when the actual invocation is made.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotNull``1(System.Linq.Expressions.Expression{System.Func{``0}},``0)">
-            <summary>
-            Ensures the given <paramref name="value"/> is not null.
-            Throws <see cref="T:System.ArgumentNullException"/> otherwise.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotNullOrEmpty(System.Linq.Expressions.Expression{System.Func{System.String}},System.String)">
-            <summary>
-            Ensures the given string <paramref name="value"/> is not null or empty.
-            Throws <see cref="T:System.ArgumentNullException"/> in the first case, or 
-            <see cref="T:System.ArgumentException"/> in the latter.
-            </summary>
-        </member>
-        <member name="M:Moq.Guard.NotOutOfRangeInclusive``1(System.Linq.Expressions.Expression{System.Func{``0}},``0,``0,``0)">
-            <summary>
-            Checks an argument to ensure it is in the specified range including the edges.
-            </summary>
-            <typeparam name="T">Type of the argument to check, it must be an <see cref="T:System.IComparable"/> type.
-            </typeparam>
-            <param name="reference">The expression containing the name of the argument.</param>
-            <param name="value">The argument value to check.</param>
-            <param name="from">The minimun allowed value for the argument.</param>
-            <param name="to">The maximun allowed value for the argument.</param>
-        </member>
-        <member name="M:Moq.Guard.NotOutOfRangeExclusive``1(System.Linq.Expressions.Expression{System.Func{``0}},``0,``0,``0)">
-            <summary>
-            Checks an argument to ensure it is in the specified range excluding the edges.
-            </summary>
-            <typeparam name="T">Type of the argument to check, it must be an <see cref="T:System.IComparable"/> type.
-            </typeparam>
-            <param name="reference">The expression containing the name of the argument.</param>
-            <param name="value">The argument value to check.</param>
-            <param name="from">The minimun allowed value for the argument.</param>
-            <param name="to">The maximun allowed value for the argument.</param>
-        </member>
-        <member name="T:Moq.IMocked`1">
-            <summary>
-            Implemented by all generated mock object instances.
-            </summary>
-        </member>
-        <member name="T:Moq.IMocked">
-            <summary>
-            Implemented by all generated mock object instances.
-            </summary>
-        </member>
-        <member name="P:Moq.IMocked.Mock">
-            <summary>
-            Reference the Mock that contains this as the <c>mock.Object</c> value.
-            </summary>
-        </member>
-        <member name="P:Moq.IMocked`1.Mock">
-            <summary>
-            Reference the Mock that contains this as the <c>mock.Object</c> value.
-            </summary>
-        </member>
-        <member name="T:Moq.Interceptor">
-            <summary>
-            Implements the actual interception and method invocation for 
-            all mocks.
-            </summary>
-        </member>
-        <member name="M:Moq.Interceptor.GetEventFromName(System.String)">
-            <summary>
-            Get an eventInfo for a given event name.  Search type ancestors depth first if necessary.
-            </summary>
-            <param name="eventName">Name of the event, with the set_ or get_ prefix already removed</param>
-        </member>
-        <member name="M:Moq.Interceptor.GetAncestorTypes(System.Type)">
-            <summary>
-            Given a type return all of its ancestors, both types and interfaces.
-            </summary>
-            <param name="initialType">The type to find immediate ancestors of</param>
-        </member>
-        <member name="T:Moq.It">
-            <summary>
-			Allows the specification of a matching condition for an
-			argument in a method invocation, rather than a specific
-			argument value. "It" refers to the argument being matched.
-		</summary><remarks>
-			This class allows the setup to match a method invocation
-			with an arbitrary value, with a value in a specified range, or
-			even one that matches a given predicate.
-		</remarks>
-        </member>
-        <member name="M:Moq.It.IsAny``1">
-            <summary>
-			Matches any value of the given <typeparamref name="TValue"/> type.
-		</summary><remarks>
-			Typically used when the actual argument value for a method
-			call is not relevant.
-		</remarks><example>
-			<code>
-				// Throws an exception for a call to Remove with any string value.
-				mock.Setup(x =&gt; x.Remove(It.IsAny&lt;string&gt;())).Throws(new InvalidOperationException());
-			</code>
-		</example><typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.It.Is``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-			Matches any value that satisfies the given predicate.
-		</summary><typeparam name="TValue">Type of the argument to check.</typeparam><param name="match">The predicate used to match the method argument.</param><remarks>
-			Allows the specification of a predicate to perform matching
-			of method call arguments.
-		</remarks><example>
-			This example shows how to return the value <c>1</c> whenever the argument to the
-			<c>Do</c> method is an even number.
-			<code>
-				mock.Setup(x =&gt; x.Do(It.Is&lt;int&gt;(i =&gt; i % 2 == 0)))
-				.Returns(1);
-			</code>
-			This example shows how to throw an exception if the argument to the
-			method is a negative number:
-			<code>
-				mock.Setup(x =&gt; x.GetUser(It.Is&lt;int&gt;(i =&gt; i &lt; 0)))
-				.Throws(new ArgumentException());
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsInRange``1(``0,``0,Moq.Range)">
-            <summary>
-			Matches any value that is in the range specified.
-		</summary><typeparam name="TValue">Type of the argument to check.</typeparam><param name="from">The lower bound of the range.</param><param name="to">The upper bound of the range.</param><param name="rangeKind">
-			The kind of range. See <see cref="T:Moq.Range"/>.
-		</param><example>
-			The following example shows how to expect a method call
-			with an integer argument within the 0..100 range.
-			<code>
-				mock.Setup(x =&gt; x.HasInventory(
-				It.IsAny&lt;string&gt;(),
-				It.IsInRange(0, 100, Range.Inclusive)))
-				.Returns(false);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsRegex(System.String)">
-            <summary>
-			Matches a string argument if it matches the given regular expression pattern.
-		</summary><param name="regex">The pattern to use to match the string argument value.</param><example>
-			The following example shows how to expect a call to a method where the
-			string argument matches the given regular expression:
-			<code>
-				mock.Setup(x =&gt; x.Check(It.IsRegex("[a-z]+"))).Returns(1);
-			</code>
-		</example>
-        </member>
-        <member name="M:Moq.It.IsRegex(System.String,System.Text.RegularExpressions.RegexOptions)">
-            <summary>
-			Matches a string argument if it matches the given regular expression pattern.
-		</summary><param name="regex">The pattern to use to match the string argument value.</param><param name="options">The options used to interpret the pattern.</param><example>
-			The following example shows how to expect a call to a method where the
-			string argument matches the given regular expression, in a case insensitive way:
-			<code>
-				mock.Setup(x =&gt; x.Check(It.IsRegex("[a-z]+", RegexOptions.IgnoreCase))).Returns(1);
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsResult`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallback">
-            <summary>
-            Defines the <c>Callback</c> verb and overloads.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``2(System.Action{``0,``1})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2) =&gt; Console.WriteLine(arg1 + arg2));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``3(System.Action{``0,``1,``2})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3) =&gt; Console.WriteLine(arg1 + arg2 + arg3));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``4(System.Action{``0,``1,``2,``3})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``5(System.Action{``0,``1,``2,``3,``4})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``6(System.Action{``0,``1,``2,``3,``4,``5})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``7(System.Action{``0,``1,``2,``3,``4,``5,``6})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``8(System.Action{``0,``1,``2,``3,``4,``5,``6,``7})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``9(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``10(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``11(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``12(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``13(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``14(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``15(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``16(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.ICallbackResult"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the method is called.
-            </summary>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            The following example specifies a callback to set a boolean 
-            value that can be used later:
-            <code>
-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback.Callback``1(System.Action{``0})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T">The argument type of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the concrete invocation argument value. 
-            <para>
-            Notice how the specific string argument is retrieved by simply declaring 
-            it as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Callback((string command) => Console.WriteLine(command));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.IOccurrence">
-            <summary>
-            Defines occurrence members to constraint setups.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IOccurrence.AtMostOnce">
-            <summary>
-            The expected invocation can happen at most once.
-            </summary>
-            <example>
-            <code>
-            var mock = new Mock&lt;ICommand&gt;();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMostOnce();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IOccurrence.AtMost(System.Int32)">
-            <summary>
-            The expected invocation can happen at most specified number of times.
-            </summary>
-            <param name="callCount">The number of times to accept calls.</param>
-            <example>
-            <code>
-            var mock = new Mock&lt;ICommand&gt;();
-            mock.Setup(foo => foo.Execute("ping"))
-                .AtMost( 5 );
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.IRaise`1">
-            <summary>
-            Defines the <c>Raises</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)">
-            <summary>
-            Specifies the event that will be raised 
-            when the setup is met.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="args">The event arguments to pass for the raised event.</param>
-            <example>
-            The following example shows how to raise an event when 
-            the setup is met:
-            <code>
-            var mock = new Mock&lt;IContainer&gt;();
-            
-            mock.Setup(add => add.Add(It.IsAny&lt;string&gt;(), It.IsAny&lt;object&gt;()))
-                .Raises(add => add.Added += null, EventArgs.Empty);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.Func{System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised 
-            when the setup is matched.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="func">A function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.Object[])">
-            <summary>
-            Specifies the custom event that will be raised 
-            when the setup is matched.
-            </summary>
-            <param name="eventExpression">An expression that represents an event attach or detach action.</param>
-            <param name="args">The arguments to pass to the custom delegate (non EventHandler-compatible).</param>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``1(System.Action{`0},System.Func{``0,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``2(System.Action{`0},System.Func{``0,``1,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``3(System.Action{`0},System.Func{``0,``1,``2,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``4(System.Action{`0},System.Func{``0,``1,``2,``3,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``5(System.Action{`0},System.Func{``0,``1,``2,``3,``4,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``6(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``7(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``8(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``9(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``10(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``11(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``12(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``13(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``14(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``15(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="M:Moq.Language.IRaise`1.Raises``16(System.Action{`0},System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15,System.EventArgs})">
-            <summary>
-            Specifies the event that will be raised when the setup is matched.
-            </summary>
-            <param name="eventExpression">The expression that represents an event attach or detach action.</param>
-            <param name="func">The function that will build the <see cref="T:System.EventArgs"/> 
-            to pass when raising the event.</param>
-            <typeparam name="T1">The type of the first argument received by the expected invocation.</typeparam>
-            <typeparam name="T2">The type of the second argument received by the expected invocation.</typeparam>
-            <typeparam name="T3">The type of the third argument received by the expected invocation.</typeparam>
-            <typeparam name="T4">The type of the fourth argument received by the expected invocation.</typeparam>
-            <typeparam name="T5">The type of the fifth argument received by the expected invocation.</typeparam>
-            <typeparam name="T6">The type of the sixth argument received by the expected invocation.</typeparam>
-            <typeparam name="T7">The type of the seventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T8">The type of the eighth argument received by the expected invocation.</typeparam>
-            <typeparam name="T9">The type of the nineth argument received by the expected invocation.</typeparam>
-            <typeparam name="T10">The type of the tenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument received by the expected invocation.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument received by the expected invocation.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument received by the expected invocation.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument received by the expected invocation.</typeparam>
-            <seealso cref="M:Moq.Language.IRaise`1.Raises(System.Action{`0},System.EventArgs)"/>
-        </member>
-        <member name="T:Moq.Language.IVerifies">
-            <summary>
-            Defines the <c>Verifiable</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IVerifies.Verifiable">
-            <summary>
-            Marks the expectation as verifiable, meaning that a call 
-            to <see cref="M:Moq.Mock.Verify"/> will check if this particular 
-            expectation was met.
-            </summary>
-            <example>
-            The following example marks the expectation as verifiable:
-            <code>
-            mock.Expect(x =&gt; x.Execute("ping"))
-                .Returns(true)
-                .Verifiable();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IVerifies.Verifiable(System.String)">
-            <summary>
-            Marks the expectation as verifiable, meaning that a call 
-            to <see cref="M:Moq.Mock.Verify"/> will check if this particular 
-            expectation was met, and specifies a message for failures.
-            </summary>
-            <example>
-            The following example marks the expectation as verifiable:
-            <code>
-            mock.Expect(x =&gt; x.Execute("ping"))
-                .Returns(true)
-                .Verifiable("Ping should be executed always!");
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetup`1">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.ICallbackResult">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IThrows">
-            <summary>
-            Defines the <c>Throws</c> verb.
-            </summary>
-        </member>
-        <member name="M:Moq.Language.IThrows.Throws(System.Exception)">
-            <summary>
-            Specifies the exception to throw when the method is invoked.
-            </summary>
-            <param name="exception">Exception instance to throw.</param>
-            <example>
-            This example shows how to throw an exception when the method is 
-            invoked with an empty string argument:
-            <code>
-            mock.Setup(x =&gt; x.Execute(""))
-                .Throws(new ArgumentException());
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IThrows.Throws``1">
-            <summary>
-            Specifies the type of exception to throw when the method is invoked.
-            </summary>
-            <typeparam name="TException">Type of exception to instantiate and throw when the setup is matched.</typeparam>
-            <example>
-            This example shows how to throw an exception when the method is 
-            invoked with an empty string argument:
-            <code>
-            mock.Setup(x =&gt; x.Execute(""))
-                .Throws&lt;ArgumentException&gt;();
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IThrowsResult">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetup`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallback`2">
-            <summary>
-            Defines the <c>Callback</c> verb and overloads for callbacks on
-            setups that return a value.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TResult">Type of the return value of the setup.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``2(System.Action{``0,``1})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2) =&gt; Console.WriteLine(arg1 + arg2));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``3(System.Action{``0,``1,``2})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3) =&gt; Console.WriteLine(arg1 + arg2 + arg3));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``4(System.Action{``0,``1,``2,``3})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``5(System.Action{``0,``1,``2,``3,``4})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``6(System.Action{``0,``1,``2,``3,``4,``5})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``7(System.Action{``0,``1,``2,``3,``4,``5,``6})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``8(System.Action{``0,``1,``2,``3,``4,``5,``6,``7})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``9(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``10(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``11(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``12(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``13(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``14(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``15(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``16(System.Action{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original
-            arguments.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="action">The callback method to invoke.</param>
-            <returns>A reference to <see cref="T:Moq.Language.Flow.IReturnsThrows`2"/> interface.</returns>
-            <example>
-            Invokes the given callback with the concrete invocation arguments values. 
-            <para>
-            Notice how the specific arguments are retrieved by simply declaring 
-            them as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x =&gt; x.Execute(
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;(),
-                                 It.IsAny&lt;string&gt;()))
-                .Callback((arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8, arg9, arg10, arg11, arg12, arg13, arg14, arg15, arg16) =&gt; Console.WriteLine(arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16));
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the method is called.
-            </summary>
-            <param name="action">The callback method to invoke.</param>
-            <example>
-            The following example specifies a callback to set a boolean value that can be used later:
-            <code>
-            var called = false;
-            mock.Setup(x => x.Execute())
-                .Callback(() => called = true)
-                .Returns(true);
-            </code>
-            Note that in the case of value-returning methods, after the <c>Callback</c>
-            call you can still specify the return value.
-            </example>
-        </member>
-        <member name="M:Moq.Language.ICallback`2.Callback``1(System.Action{``0})">
-            <summary>
-            Specifies a callback to invoke when the method is called that receives the original arguments.
-            </summary>
-            <typeparam name="T">The type of the argument of the invoked method.</typeparam>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the concrete invocation argument value.
-            <para>
-            Notice how the specific string argument is retrieved by simply declaring
-            it as part of the lambda expression for the callback:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Callback(command => Console.WriteLine(command))
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsThrows`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IReturns`2">
-            <summary>
-            Defines the <c>Returns</c> verb.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TResult">Type of the return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``2(System.Func{``0,``1,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2) => arg1 + arg2);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``3(System.Func{``0,``1,``2,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3) => arg1 + arg2 + arg3);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``4(System.Func{``0,``1,``2,``3,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4) => arg1 + arg2 + arg3 + arg4);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``5(System.Func{``0,``1,``2,``3,``4,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5) => arg1 + arg2 + arg3 + arg4 + arg5);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``6(System.Func{``0,``1,``2,``3,``4,``5,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``7(System.Func{``0,``1,``2,``3,``4,``5,``6,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``8(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``9(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``10(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``11(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``12(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``13(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``14(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``15(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``16(System.Func{``0,``1,``2,``3,``4,``5,``6,``7,``8,``9,``10,``11,``12,``13,``14,``15,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T1">The type of the first argument of the invoked method.</typeparam>
-            <typeparam name="T2">The type of the second argument of the invoked method.</typeparam>
-            <typeparam name="T3">The type of the third argument of the invoked method.</typeparam>
-            <typeparam name="T4">The type of the fourth argument of the invoked method.</typeparam>
-            <typeparam name="T5">The type of the fifth argument of the invoked method.</typeparam>
-            <typeparam name="T6">The type of the sixth argument of the invoked method.</typeparam>
-            <typeparam name="T7">The type of the seventh argument of the invoked method.</typeparam>
-            <typeparam name="T8">The type of the eighth argument of the invoked method.</typeparam>
-            <typeparam name="T9">The type of the nineth argument of the invoked method.</typeparam>
-            <typeparam name="T10">The type of the tenth argument of the invoked method.</typeparam>
-            <typeparam name="T11">The type of the eleventh argument of the invoked method.</typeparam>
-            <typeparam name="T12">The type of the twelfth argument of the invoked method.</typeparam>
-            <typeparam name="T13">The type of the thirteenth argument of the invoked method.</typeparam>
-            <typeparam name="T14">The type of the fourteenth argument of the invoked method.</typeparam>
-            <typeparam name="T15">The type of the fifteenth argument of the invoked method.</typeparam>
-            <typeparam name="T16">The type of the sixteenth argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <return>Returns a calculated value which is evaluated lazily at the time of the invocation.</return>
-            <example>
-            <para>
-            The return value is calculated from the value of the actual method invocation arguments. 
-            Notice how the arguments are retrieved by simply declaring them as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;(), 
-                                 It.IsAny&lt;int&gt;()))
-                .Returns((string arg1, string arg2, string arg3, string arg4, string arg5, string arg6, string arg7, string arg8, string arg9, string arg10, string arg11, string arg12, string arg13, string arg14, string arg15, string arg16) => arg1 + arg2 + arg3 + arg4 + arg5 + arg6 + arg7 + arg8 + arg9 + arg10 + arg11 + arg12 + arg13 + arg14 + arg15 + arg16);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns(`1)">
-            <summary>
-            Specifies the value to return.
-            </summary>
-            <param name="value">The value to return, or <see langword="null"/>.</param>
-            <example>
-            Return a <c>true</c> value from the method call:
-            <code>
-            mock.Setup(x => x.Execute("ping"))
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns(System.Func{`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method.
-            </summary>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example group="returns">
-            Return a calculated value when the method is called:
-            <code>
-            mock.Setup(x => x.Execute("ping"))
-                .Returns(() => returnValues[0]);
-            </code>
-            The lambda expression to retrieve the return value is lazy-executed, 
-            meaning that its value may change depending on the moment the method 
-            is executed and the value the <c>returnValues</c> array has at 
-            that moment.
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturns`2.Returns``1(System.Func{``0,`1})">
-            <summary>
-            Specifies a function that will calculate the value to return from the method, 
-            retrieving the arguments for the invocation.
-            </summary>
-            <typeparam name="T">The type of the argument of the invoked method.</typeparam>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example group="returns">
-            Return a calculated value which is evaluated lazily at the time of the invocation.
-            <para>
-            The lookup list can change between invocations and the setup 
-            will return different values accordingly. Also, notice how the specific 
-            string argument is retrieved by simply declaring it as part of the lambda 
-            expression:
-            </para>
-            <code>
-            mock.Setup(x => x.Execute(It.IsAny&lt;string&gt;()))
-                .Returns((string command) => returnValues[command]);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetupGetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallbackGetter`2">
-            <summary>
-            Defines the <c>Callback</c> verb for property getter setups.
-            </summary>
-            <seealso cref="M:Moq.Mock`1.SetupGet``1(System.Linq.Expressions.Expression{System.Func{`0,``0}})"/>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallbackGetter`2.Callback(System.Action)">
-            <summary>
-            Specifies a callback to invoke when the property is retrieved.
-            </summary>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the property value being set. 
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Callback(() => called = true)
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.IReturnsThrowsGetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.IReturnsGetter`2">
-            <summary>
-            Defines the <c>Returns</c> verb for property get setups.
-            </summary>
-            <typeparam name="TMock">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.IReturnsGetter`2.Returns(`1)">
-            <summary>
-            Specifies the value to return.
-            </summary>
-            <param name="value">The value to return, or <see langword="null"/>.</param>
-            <example>
-            Return a <c>true</c> value from the property getter call:
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Returns(true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Language.IReturnsGetter`2.Returns(System.Func{`1})">
-            <summary>
-            Specifies a function that will calculate the value to return for the property.
-            </summary>
-            <param name="valueFunction">The function that will calculate the return value.</param>
-            <example>
-            Return a calculated value when the property is retrieved:
-            <code>
-            mock.SetupGet(x => x.Suspended)
-                .Returns(() => returnValues[0]);
-            </code>
-            The lambda expression to retrieve the return value is lazy-executed, 
-            meaning that its value may change depending on the moment the property  
-            is retrieved and the value the <c>returnValues</c> array has at 
-            that moment.
-            </example>
-        </member>
-        <member name="T:Moq.Language.Flow.ISetupSetter`2">
-            <summary>
-            Implements the fluent API.
-            </summary>
-        </member>
-        <member name="T:Moq.Language.ICallbackSetter`1">
-            <summary>
-            Defines the <c>Callback</c> verb for property setter setups.
-            </summary>
-            <typeparam name="TProperty">Type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Language.ICallbackSetter`1.Callback(System.Action{`0})">
-            <summary>
-            Specifies a callback to invoke when the property is set that receives the 
-            property value being set.
-            </summary>
-            <param name="action">Callback method to invoke.</param>
-            <example>
-            Invokes the given callback with the property value being set. 
-            <code>
-            mock.SetupSet(x => x.Suspended)
-                .Callback((bool state) => Console.WriteLine(state));
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Language.ISetupSequentialResult`1">
-            <summary>
-            Language for ReturnSequence
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Returns(`0)">
-            <summary>
-            Returns value
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Throws(System.Exception)">
-            <summary>
-            Throws an exception
-            </summary>
-        </member>
-        <member name="M:Moq.Language.ISetupSequentialResult`1.Throws``1">
-            <summary>
-            Throws an exception
-            </summary>
-        </member>
-        <member name="F:Moq.Linq.FluentMockVisitor.isFirst">
-            <summary>
-            The first method call or member access will be the 
-            last segment of the expression (depth-first traversal), 
-            which is the one we have to Setup rather than FluentMock.
-            And the last one is the one we have to Mock.Get rather 
-            than FluentMock.
-            </summary>
-        </member>
-        <member name="T:Moq.Linq.MockQueryable`1">
-            <summary>
-            A default implementation of IQueryable for use with QueryProvider
-            </summary>
-        </member>
-        <member name="M:Moq.Linq.MockQueryable`1.#ctor(System.Linq.Expressions.MethodCallExpression)">
-            <summary>
-            The <paramref name="underlyingCreateMocks"/> is a 
-            static method that returns an IQueryable of Mocks of T which is used to 
-            apply the linq specification to.
-            </summary>
-        </member>
-        <member name="T:Moq.MockRepository">
-            <summary>
-            Utility repository class to use to construct multiple 
-            mocks when consistent verification is 
-            desired for all of them.
-            </summary>
-            <remarks>
-            If multiple mocks will be created during a test, passing 
-            the desired <see cref="T:Moq.MockBehavior"/> (if different than the 
-            <see cref="F:Moq.MockBehavior.Default"/> or the one 
-            passed to the repository constructor) and later verifying each
-            mock can become repetitive and tedious.
-            <para>
-            This repository class helps in that scenario by providing a 
-            simplified creation of multiple mocks with a default 
-            <see cref="T:Moq.MockBehavior"/> (unless overriden by calling 
-            <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/>) and posterior verification.
-            </para>
-            </remarks>
-            <example group="repository">
-            The following is a straightforward example on how to 
-            create and automatically verify strict mocks using a <see cref="T:Moq.MockRepository"/>:
-            <code>
-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            var foo = repository.Create&lt;IFoo&gt;();
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f =&gt; f.Do());
-            bar.Setup(b =&gt; b.Redo());
-            
-            // exercise the mocks here
-            
-            repository.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-            </code>
-            The following examples shows how to setup the repository 
-            to create loose mocks and later verify only verifiable setups:
-            <code>
-            var repository = new MockRepository(MockBehavior.Loose);
-            
-            var foo = repository.Create&lt;IFoo&gt;();
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // this setup will be verified when we verify the repository
-            foo.Setup(f =&gt; f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f =&gt; f.Calculate());
-            	
-            // this setup will be verified when we verify the repository
-            bar.Setup(b =&gt; b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            repository.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-            </code>
-            The following examples shows how to setup the repository with a 
-            default strict behavior, overriding that default for a 
-            specific mock:
-            <code>
-            var repository = new MockRepository(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = repository.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            var bar = repository.Create&lt;IBar&gt;();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            repository.Verify();
-            </code>
-            </example>
-            <seealso cref="T:Moq.MockBehavior"/>
-        </member>
-        <member name="T:Moq.MockFactory">
-            <summary>
-            Utility factory class to use to construct multiple 
-            mocks when consistent verification is 
-            desired for all of them.
-            </summary>
-            <remarks>
-            If multiple mocks will be created during a test, passing 
-            the desired <see cref="T:Moq.MockBehavior"/> (if different than the 
-            <see cref="F:Moq.MockBehavior.Default"/> or the one 
-            passed to the factory constructor) and later verifying each
-            mock can become repetitive and tedious.
-            <para>
-            This factory class helps in that scenario by providing a 
-            simplified creation of multiple mocks with a default 
-            <see cref="T:Moq.MockBehavior"/> (unless overriden by calling 
-            <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/>) and posterior verification.
-            </para>
-            </remarks>
-            <example group="factory">
-            The following is a straightforward example on how to 
-            create and automatically verify strict mocks using a <see cref="T:Moq.MockFactory"/>:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // no need to call Verifiable() on the setup 
-            // as we'll be validating all of them anyway.
-            foo.Setup(f =&gt; f.Do());
-            bar.Setup(b =&gt; b.Redo());
-            
-            // exercise the mocks here
-            
-            factory.VerifyAll(); 
-            // At this point all setups are already checked 
-            // and an optional MockException might be thrown. 
-            // Note also that because the mocks are strict, any invocation 
-            // that doesn't have a matching setup will also throw a MockException.
-            </code>
-            The following examples shows how to setup the factory 
-            to create loose mocks and later verify only verifiable setups:
-            <code>
-            var factory = new MockFactory(MockBehavior.Loose);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // this setup will be verified when we verify the factory
-            foo.Setup(f =&gt; f.Do()).Verifiable();
-            	
-            // this setup will NOT be verified 
-            foo.Setup(f =&gt; f.Calculate());
-            	
-            // this setup will be verified when we verify the factory
-            bar.Setup(b =&gt; b.Redo()).Verifiable();
-            
-            // exercise the mocks here
-            // note that because the mocks are Loose, members 
-            // called in the interfaces for which no matching
-            // setups exist will NOT throw exceptions, 
-            // and will rather return default values.
-            
-            factory.Verify();
-            // At this point verifiable setups are already checked 
-            // and an optional MockException might be thrown.
-            </code>
-            The following examples shows how to setup the factory with a 
-            default strict behavior, overriding that default for a 
-            specific mock:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            // this particular one we want loose
-            var foo = factory.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            var bar = factory.Create&lt;IBar&gt;();
-            
-            // specify setups
-            
-            // exercise the mocks here
-            
-            factory.Verify();
-            </code>
-            </example>
-            <seealso cref="T:Moq.MockBehavior"/>
-        </member>
-        <member name="M:Moq.MockFactory.#ctor(Moq.MockBehavior)">
-            <summary>
-            Initializes the factory with the given <paramref name="defaultBehavior"/> 
-            for newly created mocks from the factory.
-            </summary>
-            <param name="defaultBehavior">The behavior to use for mocks created 
-            using the <see cref="M:Moq.MockFactory.Create``1"/> factory method if not overriden 
-            by using the <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/> overload.</param>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1">
-            <summary>
-            Creates a new mock with the default <see cref="T:Moq.MockBehavior"/> 
-            specified at factory construction time.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example ignore="true">
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;();
-            // use mock on tests
-            
-            factory.VerifyAll();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(System.Object[])">
-            <summary>
-            Creates a new mock with the default <see cref="T:Moq.MockBehavior"/> 
-            specified at factory construction time and with the 
-            the given constructor arguments for the class.
-            </summary>
-            <remarks>
-            The mock will try to find the best match constructor given the 
-            constructor arguments, and invoke that to initialize the instance. 
-            This applies only to classes, not interfaces.
-            </remarks>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="args">Constructor arguments for mocked classes.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example ignore="true">
-            <code>
-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create&lt;MyBase&gt;("Foo", 25, true);
-            // use mock on tests
-            
-            factory.Verify();
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(Moq.MockBehavior)">
-            <summary>
-            Creates a new mock with the given <paramref name="behavior"/>.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">Behavior to use for the mock, which overrides 
-            the default behavior specified at factory construction time.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example group="factory">
-            The following example shows how to create a mock with a different 
-            behavior to that specified as the default for the factory:
-            <code>
-            var factory = new MockFactory(MockBehavior.Strict);
-            
-            var foo = factory.Create&lt;IFoo&gt;(MockBehavior.Loose);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.Create``1(Moq.MockBehavior,System.Object[])">
-            <summary>
-            Creates a new mock with the given <paramref name="behavior"/> 
-            and with the the given constructor arguments for the class.
-            </summary>
-            <remarks>
-            The mock will try to find the best match constructor given the 
-            constructor arguments, and invoke that to initialize the instance. 
-            This applies only to classes, not interfaces.
-            </remarks>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">Behavior to use for the mock, which overrides 
-            the default behavior specified at factory construction time.</param>
-            <param name="args">Constructor arguments for mocked classes.</param>
-            <returns>A new <see cref="T:Moq.Mock`1"/>.</returns>
-            <example group="factory">
-            The following example shows how to create a mock with a different 
-            behavior to that specified as the default for the factory, passing 
-            constructor arguments:
-            <code>
-            var factory = new MockFactory(MockBehavior.Default);
-            
-            var mock = factory.Create&lt;MyBase&gt;(MockBehavior.Strict, "Foo", 25, true);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.MockFactory.CreateMock``1(Moq.MockBehavior,System.Object[])">
-            <summary>
-            Implements creation of a new mock within the factory.
-            </summary>
-            <typeparam name="T">Type to mock.</typeparam>
-            <param name="behavior">The behavior for the new mock.</param>
-            <param name="args">Optional arguments for the construction of the mock.</param>
-        </member>
-        <member name="M:Moq.MockFactory.Verify">
-            <summary>
-            Verifies all verifiable expectations on all mocks created 
-            by this factory.
-            </summary>
-            <seealso cref="M:Moq.Mock.Verify"/>
-            <exception cref="T:Moq.MockException">One or more mocks had expectations that were not satisfied.</exception>
-        </member>
-        <member name="M:Moq.MockFactory.VerifyAll">
-            <summary>
-            Verifies all verifiable expectations on all mocks created 
-            by this factory.
-            </summary>
-            <seealso cref="M:Moq.Mock.Verify"/>
-            <exception cref="T:Moq.MockException">One or more mocks had expectations that were not satisfied.</exception>
-        </member>
-        <member name="M:Moq.MockFactory.VerifyMocks(System.Action{Moq.Mock})">
-            <summary>
-            Invokes <paramref name="verifyAction"/> for each mock 
-            in <see cref="P:Moq.MockFactory.Mocks"/>, and accumulates the resulting 
-            <see cref="T:Moq.MockVerificationException"/> that might be 
-            thrown from the action.
-            </summary>
-            <param name="verifyAction">The action to execute against 
-            each mock.</param>
-        </member>
-        <member name="P:Moq.MockFactory.CallBase">
-            <summary>
-            Whether the base member virtual implementation will be called 
-            for mocked classes if no setup is matched. Defaults to <see langword="false"/>.
-            </summary>
-        </member>
-        <member name="P:Moq.MockFactory.DefaultValue">
-            <summary>
-            Specifies the behavior to use when returning default values for 
-            unexpected invocations on loose mocks.
-            </summary>
-        </member>
-        <member name="P:Moq.MockFactory.Mocks">
-            <summary>
-            Gets the mocks that have been created by this factory and 
-            that will get verified together.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.Of``1">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.MockRepository.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.MockRepository.OneOf``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.MockRepository.OneOf``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.MockRepository.CreateMockQuery``1">
-            <summary>
-            Creates the mock query with the underlying queriable implementation.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.CreateQueryable``1">
-            <summary>
-            Wraps the enumerator inside a queryable.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.CreateMocks``1">
-            <summary>
-            Method that is turned into the actual call from .Query{T}, to 
-            transform the queryable query into a normal enumerable query.
-            This method is never used directly by consumers.
-            </summary>
-        </member>
-        <member name="M:Moq.MockRepository.#ctor(Moq.MockBehavior)">
-            <summary>
-            Initializes the repository with the given <paramref name="defaultBehavior"/> 
-            for newly created mocks from the repository.
-            </summary>
-            <param name="defaultBehavior">The behavior to use for mocks created 
-            using the <see cref="M:Moq.MockFactory.Create``1"/> repository method if not overriden 
-            by using the <see cref="M:Moq.MockFactory.Create``1(Moq.MockBehavior)"/> overload.</param>
-        </member>
-        <member name="T:Moq.Mocks">
-            <summary>
-            Allows querying the universe of mocks for those that behave 
-            according to the LINQ query specification.
-            </summary>
-            <devdoc>
-            This entry-point into Linq to Mocks is the only one in the root Moq 
-            namespace to ease discovery. But to get all the mocking extension 
-            methods on Object, a using of Moq.Linq must be done, so that the 
-            polluting of the intellisense for all objects is an explicit opt-in.
-            </devdoc>
-        </member>
-        <member name="M:Moq.Mocks.Of``1">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.Mocks.Of``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Access the universe of mocks of the given type, to retrieve those 
-            that behave according to the LINQ query specification.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object to query.</typeparam>
-        </member>
-        <member name="M:Moq.Mocks.OneOf``1">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mocks.OneOf``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Creates an mock object of the indicated type.
-            </summary>
-            <param name="specification">The predicate with the setup expressions.</param>
-            <typeparam name="T">The type of the mocked object.</typeparam>
-            <returns>The mocked object created.</returns>
-        </member>
-        <member name="M:Moq.Mocks.CreateMockQuery``1">
-            <summary>
-            Creates the mock query with the underlying queriable implementation.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.CreateQueryable``1">
-            <summary>
-            Wraps the enumerator inside a queryable.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.CreateMocks``1">
-            <summary>
-            Method that is turned into the actual call from .Query{T}, to 
-            transform the queryable query into a normal enumerable query.
-            This method is never used directly by consumers.
-            </summary>
-        </member>
-        <member name="M:Moq.Mocks.SetPropery``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Extension method used to support Linq-like setup properties that are not virtual but do have 
-            a getter and a setter, thereby allowing the use of Linq to Mocks to quickly initialize Dtos too :)
-            </summary>
-        </member>
-        <member name="T:Moq.QueryableMockExtensions">
-            <summary>
-            Helper extensions that are used by the query translator.
-            </summary>
-        </member>
-        <member name="M:Moq.QueryableMockExtensions.FluentMock``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Retrieves a fluent mock from the given setup expression.
-            </summary>
-        </member>
-        <member name="T:Moq.Match">
-            <summary>
-			Allows creation custom value matchers that can be used on setups and verification,
-			completely replacing the built-in <see cref="T:Moq.It"/> class with your own argument
-			matching rules.
-		</summary><remarks>
-			 See also <see cref="T:Moq.Match`1"/>.
-		</remarks>
-        </member>
-        <member name="M:Moq.Match.Matcher``1">
-            <devdoc>
-            Provided for the sole purpose of rendering the delegate passed to the 
-            matcher constructor if no friendly render lambda is provided.
-            </devdoc>
-        </member>
-        <member name="M:Moq.Match.Create``1(System.Predicate{``0})">
-            <summary>
-			Initializes the match with the condition that
-			will be checked in order to match invocation
-			values.
-		</summary><param name="condition">The condition to match against actual values.</param><remarks>
-			 <seealso cref="T:Moq.Match`1"/>
-		</remarks>
-        </member>
-        <member name="M:Moq.Match.Create``1(System.Predicate{``0},System.Linq.Expressions.Expression{System.Func{``0}})">
-            <!-- No matching elements were found for the following include tag --><include file="Match.xdoc" path="docs/doc[@for=&quot;Match.Create{T}(condition,renderExpression&quot;]/*"/>
-        </member>
-        <member name="M:Moq.Match.SetLastMatch``1(Moq.Match{``0})">
-            <devdoc>
-            This method is used to set an expression as the last matcher invoked, 
-            which is used in the SetupSet to allow matchers in the prop = value 
-            delegate expression. This delegate is executed in "fluent" mode in 
-            order to capture the value being set, and construct the corresponding 
-            methodcall.
-            This is also used in the MatcherFactory for each argument expression.
-            This method ensures that when we execute the delegate, we 
-            also track the matcher that was invoked, so that when we create the 
-            methodcall we build the expression using it, rather than the null/default 
-            value returned from the actual invocation.
-            </devdoc>
-        </member>
-        <member name="T:Moq.Match`1">
-            <summary>
-			Allows creation custom value matchers that can be used on setups and verification,
-			completely replacing the built-in <see cref="T:Moq.It"/> class with your own argument
-			matching rules.
-		</summary><typeparam name="T">Type of the value to match.</typeparam><remarks>
-			The argument matching is used to determine whether a concrete
-			invocation in the mock matches a given setup. This
-			matching mechanism is fully extensible.
-		</remarks><example>
-			Creating a custom matcher is straightforward. You just need to create a method
-			that returns a value from a call to <see cref="M:Moq.Match.Create``1(System.Predicate{``0})"/> with 
-			your matching condition and optional friendly render expression:
-			<code>
-				[Matcher]
-				public Order IsBigOrder()
-				{
-					return Match&lt;Order&gt;.Create(
-						o =&gt; o.GrandTotal &gt;= 5000, 
-						/* a friendly expression to render on failures */
-						() =&gt; IsBigOrder());
-				}
-			</code>
-			This method can be used in any mock setup invocation:
-			<code>
-				mock.Setup(m =&gt; m.Submit(IsBigOrder()).Throws&lt;UnauthorizedAccessException&gt;();
-			</code>
-			At runtime, Moq knows that the return value was a matcher (note that the method MUST be 
-			annotated with the [Matcher] attribute in order to determine this) and
-			evaluates your predicate with the actual value passed into your predicate.
-			<para>
-				Another example might be a case where you want to match a lists of orders
-				that contains a particular one. You might create matcher like the following:
-			</para>
-			<code>
-				public static class Orders
-				{
-					[Matcher]
-					public static IEnumerable&lt;Order&gt; Contains(Order order)
-					{
-						return Match&lt;IEnumerable&lt;Order&gt;&gt;.Create(orders =&gt; orders.Contains(order));
-					}
-				}
-			</code>
-			Now we can invoke this static method instead of an argument in an
-			invocation:
-			<code>
-				var order = new Order { ... };
-				var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-
-				mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-					 .Throws&lt;ArgumentException&gt;();
-			</code>
-		</example>
-        </member>
-        <member name="T:Moq.MatcherAttribute">
-            <summary>
-            Marks a method as a matcher, which allows complete replacement 
-            of the built-in <see cref="T:Moq.It"/> class with your own argument 
-            matching rules.
-            </summary>
-            <remarks>
-            <b>This feature has been deprecated in favor of the new 
-            and simpler <see cref="T:Moq.Match`1"/>.
-            </b>
-            <para>
-            The argument matching is used to determine whether a concrete 
-            invocation in the mock matches a given setup. This 
-            matching mechanism is fully extensible. 
-            </para>
-            <para>
-            There are two parts of a matcher: the compiler matcher 
-            and the runtime matcher.
-            <list type="bullet">
-            <item>
-            <term>Compiler matcher</term>
-            <description>Used to satisfy the compiler requirements for the 
-            argument. Needs to be a method optionally receiving any arguments 
-            you might need for the matching, but with a return type that 
-            matches that of the argument. 
-            <para>
-            Let's say I want to match a lists of orders that contains 
-            a particular one. I might create a compiler matcher like the following:
-            </para>
-            <code>
-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable&lt;Order&gt; Contains(Order order)
-              {
-                return null;
-              }
-            }
-            </code>
-            Now we can invoke this static method instead of an argument in an 
-            invocation:
-            <code>
-            var order = new Order { ... };
-            var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-            
-            mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-                .Throws&lt;ArgumentException&gt;();
-            </code>
-            Note that the return value from the compiler matcher is irrelevant. 
-            This method will never be called, and is just used to satisfy the 
-            compiler and to signal Moq that this is not a method that we want 
-            to be invoked at runtime.
-            </description>
-            </item>
-            <item>
-            <term>Runtime matcher</term>
-            <description>
-            The runtime matcher is the one that will actually perform evaluation 
-            when the test is run, and is defined by convention to have the 
-            same signature as the compiler matcher, but where the return 
-            value is the first argument to the call, which contains the 
-            object received by the actual invocation at runtime:
-            <code>
-              public static bool Contains(IEnumerable&lt;Order&gt; orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            </code>
-            At runtime, the mocked method will be invoked with a specific 
-            list of orders. This value will be passed to this runtime 
-            matcher as the first argument, while the second argument is the 
-            one specified in the setup (<c>x.Save(Orders.Contains(order))</c>).
-            <para>
-            The boolean returned determines whether the given argument has been 
-            matched. If all arguments to the expected method are matched, then 
-            the setup matches and is evaluated.
-            </para>
-            </description>
-            </item>
-            </list>
-            </para>
-            Using this extensible infrastructure, you can easily replace the entire 
-            <see cref="T:Moq.It"/> set of matchers with your own. You can also avoid the 
-            typical (and annoying) lengthy expressions that result when you have 
-            multiple arguments that use generics.
-            </remarks>
-            <example>
-            The following is the complete example explained above:
-            <code>
-            public static class Orders
-            {
-              [Matcher]
-              public static IEnumerable&lt;Order&gt; Contains(Order order)
-              {
-                return null;
-              }
-              
-              public static bool Contains(IEnumerable&lt;Order&gt; orders, Order order)
-              {
-                return orders.Contains(order);
-              }
-            }
-            </code>
-            And the concrete test using this matcher:
-            <code>
-            var order = new Order { ... };
-            var mock = new Mock&lt;IRepository&lt;Order&gt;&gt;();
-            
-            mock.Setup(x =&gt; x.Save(Orders.Contains(order)))
-                .Throws&lt;ArgumentException&gt;();
-                
-            // use mock, invoke Save, and have the matcher filter.
-            </code>
-            </example>
-        </member>
-        <member name="T:Moq.Matchers.MatcherAttributeMatcher">
-            <summary>
-            Matcher to treat static functions as matchers.
-            
-            mock.Setup(x => x.StringMethod(A.MagicString()));
-            
-            public static class A 
-            {
-                [Matcher]
-                public static string MagicString() { return null; }
-                public static bool MagicString(string arg)
-                {
-                    return arg == "magic";
-                }
-            }
-            
-            Will succeed if: mock.Object.StringMethod("magic");
-            and fail with any other call.
-            </summary>
-        </member>
-        <member name="T:Moq.MethodCallReturn">
-            <devdoc>
-            We need this non-generics base class so that 
-            we can use <see cref="P:Moq.MethodCallReturn.HasReturnValue"/> from 
-            generic code.
-            </devdoc>
-        </member>
-        <member name="T:Moq.MockBehavior">
-            <summary>
-            Options to customize the behavior of the mock. 
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Strict">
-            <summary>
-            Causes the mock to always throw 
-            an exception for invocations that don't have a 
-            corresponding setup.
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Loose">
-            <summary>
-            Will never throw exceptions, returning default  
-            values when necessary (null for reference types, 
-            zero for value types or empty enumerables and arrays).
-            </summary>
-        </member>
-        <member name="F:Moq.MockBehavior.Default">
-            <summary>
-            Default mock behavior, which equals <see cref="F:Moq.MockBehavior.Loose"/>.
-            </summary>
-        </member>
-        <member name="T:Moq.MockDefaultValueProvider">
-            <summary>
-            A <see cref="T:Moq.IDefaultValueProvider"/> that returns an empty default value 
-            for non-mockeable types, and mocks for all other types (interfaces and 
-            non-sealed classes) that can be mocked.
-            </summary>
-        </member>
-        <member name="T:Moq.MockException">
-            <summary>
-            Exception thrown by mocks when setups are not matched, 
-            the mock is not properly setup, etc.
-            </summary>
-            <remarks>
-            A distinct exception type is provided so that exceptions 
-            thrown by the mock can be differentiated in tests that 
-            expect other exceptions to be thrown (i.e. ArgumentException).
-            <para>
-            Richer exception hierarchy/types are not provided as 
-            tests typically should <b>not</b> catch or expect exceptions 
-            from the mocks. These are typically the result of changes 
-            in the tested class or its collaborators implementation, and 
-            result in fixes in the mock setup so that they dissapear and 
-            allow the test to pass.
-            </para>
-            </remarks>
-        </member>
-        <member name="T:Moq.MockException.ExceptionReason">
-            <summary>
-            Made internal as it's of no use for 
-            consumers, but it's important for 
-            our own tests.
-            </summary>
-        </member>
-        <member name="T:Moq.MockVerificationException">
-            <devdoc>
-            Used by the mock factory to accumulate verification 
-            failures.
-            </devdoc>
-        </member>
-        <member name="T:Moq.MockSequence">
-            <summary>
-            Helper class to setup a full trace between many mocks
-            </summary>
-        </member>
-        <member name="M:Moq.MockSequence.#ctor">
-            <summary>
-            Initialize a trace setup
-            </summary>
-        </member>
-        <member name="P:Moq.MockSequence.Cyclic">
-            <summary>
-            Allow sequence to be repeated
-            </summary>
-        </member>
-        <member name="T:Moq.MockSequenceHelper">
-            <summary>
-            define nice api
-            </summary>
-        </member>
-        <member name="M:Moq.MockSequenceHelper.InSequence``1(Moq.Mock{``0},Moq.MockSequence)">
-            <summary>
-            Perform an expectation in the trace.
-            </summary>
-        </member>
-        <member name="T:Moq.MockLegacyExtensions">
-            <summary>
-            Provides legacy API members as extensions so that 
-            existing code continues to compile, but new code 
-            doesn't see then.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.SetupSet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="M:Moq.MockLegacyExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},``1,System.String)">
-            <summary>
-            Obsolete.
-            </summary>
-        </member>
-        <member name="T:Moq.MockExtensions">
-            <summary>
-            Provides additional methods on mocks.
-            </summary>
-            <devdoc>
-            Provided as extension methods as they confuse the compiler 
-            with the overloads taking Action.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockExtensions.SetupSet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Specifies a setup on the mocked type for a call to 
-            to a property setter, regardless of its value.
-            </summary>
-            <remarks>
-            If more than one setup is set for the same property setter, 
-            the latest one wins and is the one that will be executed.
-            </remarks>
-            <typeparam name="TProperty">Type of the property. Typically omitted as it can be inferred from the expression.</typeparam>
-            <typeparam name="T">Type of the mock.</typeparam>
-            <param name="mock">The target mock for the setup.</param>
-            <param name="expression">Lambda expression that specifies the property setter.</param>
-            <example group="setups">
-            <code>
-            mock.SetupSet(x =&gt; x.Suspended);
-            </code>
-            </example>
-            <devdoc>
-            This method is not legacy, but must be on an extension method to avoid 
-            confusing the compiler with the new Action syntax.
-            </devdoc>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Verifies that a property has been set on the mock, regarless of its value.
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <param name="expression">Expression to verify.</param>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},System.String)">
-            <summary>
-            Verifies that a property has been set on the mock, specifying a failure  
-            error message. 
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <param name="expression">Expression to verify.</param>
-            <param name="failMessage">Message to show if verification fails.</param>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},Moq.Times)">
-            <summary>
-            Verifies that a property has been set on the mock, regardless 
-            of the value but only the specified number of times.
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="expression">Expression to verify.</param>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="M:Moq.MockExtensions.VerifySet``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}},Moq.Times,System.String)">
-            <summary>
-            Verifies that a property has been set on the mock, regardless 
-            of the value but only the specified number of times, and specifying a failure  
-            error message. 
-            </summary>
-            <example group="verification">
-            This example assumes that the mock has been used, 
-            and later we want to verify that a given invocation 
-            with specific parameters was performed:
-            <code>
-            var mock = new Mock&lt;IWarehouse&gt;();
-            // exercise mock
-            //...
-            // Will throw if the test code didn't set the IsClosed property.
-            mock.VerifySet(warehouse =&gt; warehouse.IsClosed);
-            </code>
-            </example>
-            <exception cref="T:Moq.MockException">The invocation was not performed on the mock.</exception>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="mock">The mock instance.</param>
-            <typeparam name="T">Mocked type.</typeparam>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="failMessage">Message to show if verification fails.</param>
-            <param name="expression">Expression to verify.</param>
-            <typeparam name="TProperty">Type of the property to verify. Typically omitted as it can 
-            be inferred from the expression's return type.</typeparam>
-        </member>
-        <member name="T:Moq.Protected.IProtectedMock`1">
-            <summary>
-            Allows setups to be specified for protected members by using their 
-            name as a string, rather than strong-typing them which is not possible 
-            due to their visibility.
-            </summary>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Setup(System.String,System.Object[])">
-            <summary>
-            Specifies a setup for a void method invocation with the given 
-            <paramref name="voidMethodName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <param name="voidMethodName">The name of the void method to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Setup``1(System.String,System.Object[])">
-            <summary>
-            Specifies a setup for an invocation on a property or a non void method with the given 
-            <paramref name="methodOrPropertyName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <param name="methodOrPropertyName">The name of the method or property to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <typeparam name="TResult">The return type of the method or property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.SetupGet``1(System.String)">
-            <summary>
-            Specifies a setup for an invocation on a property getter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.SetupSet``1(System.String,System.Object)">
-            <summary>
-            Specifies a setup for an invocation on a property setter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <param name="value">The property value. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Verify(System.String,Moq.Times,System.Object[])">
-            <summary>
-            Specifies a verify for a void method with the given <paramref name="methodName"/>,
-            optionally specifying arguments for the method call. Use in conjuntion with the default
-            <see cref="F:Moq.MockBehavior.Loose"/>.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by
-            <paramref name="times"/>.</exception>
-            <param name="methodName">The name of the void method to be verified.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.Verify``1(System.String,Moq.Times,System.Object[])">
-            <summary>
-            Specifies a verify for an invocation on a property or a non void method with the given 
-            <paramref name="methodName"/>, optionally specifying arguments for the method call.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            <param name="methodName">The name of the method or property to be invoked.</param>
-            <param name="args">The optional arguments for the invocation. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <typeparam name="TResult">The type of return value from the expression.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.VerifyGet``1(System.String,Moq.Times)">
-            <summary>
-            Specifies a verify for an invocation on a property getter with the given 
-            <paramref name="propertyName"/>.
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            </summary>
-            <param name="propertyName">The name of the property.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <typeparam name="TProperty">The type of the property.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.IProtectedMock`1.VerifySet``1(System.String,Moq.Times,System.Object)">
-            <summary>
-            Specifies a setup for an invocation on a property setter with the given 
-            <paramref name="propertyName"/>.
-            </summary>
-            <exception cref="T:Moq.MockException">The invocation was not call the times specified by 
-            <paramref name="times"/>.</exception>
-            <param name="propertyName">The name of the property.</param>
-            <param name="times">The number of times a method is allowed to be called.</param>
-            <param name="value">The property value.</param>
-            <typeparam name="TProperty">The type of the property. If argument matchers are used, 
-            remember to use <see cref="T:Moq.Protected.ItExpr"/> rather than <see cref="T:Moq.It"/>.</typeparam>
-        </member>
-        <member name="T:Moq.Protected.ItExpr">
-            <summary>
-            Allows the specification of a matching condition for an 
-            argument in a protected member setup, rather than a specific 
-            argument value. "ItExpr" refers to the argument being matched.
-            </summary>
-            <remarks>
-            <para>Use this variant of argument matching instead of 
-            <see cref="T:Moq.It"/> for protected setups.</para>
-            This class allows the setup to match a method invocation 
-            with an arbitrary value, with a value in a specified range, or 
-            even one that matches a given predicate, or null.
-            </remarks>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsNull``1">
-            <summary>
-            Matches a null value of the given <typeparamref name="TValue"/> type.
-            </summary>
-            <remarks>
-            Required for protected mocks as the null value cannot be used 
-            directly as it prevents proper method overload selection.
-            </remarks>
-            <example>
-            <code>
-            // Throws an exception for a call to Remove with a null string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsNull&lt;string&gt;())
-                .Throws(new InvalidOperationException());
-            </code>
-            </example>
-            <typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsAny``1">
-            <summary>
-            Matches any value of the given <typeparamref name="TValue"/> type.
-            </summary>
-            <remarks>
-            Typically used when the actual argument value for a method 
-            call is not relevant.
-            </remarks>
-            <example>
-            <code>
-            // Throws an exception for a call to Remove with any string value.
-            mock.Protected()
-                .Setup("Remove", ItExpr.IsAny&lt;string&gt;())
-                .Throws(new InvalidOperationException());
-            </code>
-            </example>
-            <typeparam name="TValue">Type of the value.</typeparam>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.Is``1(System.Linq.Expressions.Expression{System.Func{``0,System.Boolean}})">
-            <summary>
-            Matches any value that satisfies the given predicate.
-            </summary>
-            <typeparam name="TValue">Type of the argument to check.</typeparam>
-            <param name="match">The predicate used to match the method argument.</param>
-            <remarks>
-            Allows the specification of a predicate to perform matching 
-            of method call arguments.
-            </remarks>
-            <example>
-            This example shows how to return the value <c>1</c> whenever the argument to the 
-            <c>Do</c> method is an even number.
-            <code>
-            mock.Protected()
-                .Setup("Do", ItExpr.Is&lt;int&gt;(i =&gt; i % 2 == 0))
-                .Returns(1);
-            </code>
-            This example shows how to throw an exception if the argument to the 
-            method is a negative number:
-            <code>
-            mock.Protected()
-                .Setup("GetUser", ItExpr.Is&lt;int&gt;(i =&gt; i &lt; 0))
-                .Throws(new ArgumentException());
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsInRange``1(``0,``0,Moq.Range)">
-            <summary>
-            Matches any value that is in the range specified.
-            </summary>
-            <typeparam name="TValue">Type of the argument to check.</typeparam>
-            <param name="from">The lower bound of the range.</param>
-            <param name="to">The upper bound of the range.</param>
-            <param name="rangeKind">The kind of range. See <see cref="T:Moq.Range"/>.</param>
-            <example>
-            The following example shows how to expect a method call 
-            with an integer argument within the 0..100 range.
-            <code>
-            mock.Protected()
-                .Setup("HasInventory",
-                        ItExpr.IsAny&lt;string&gt;(),
-                        ItExpr.IsInRange(0, 100, Range.Inclusive))
-                .Returns(false);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsRegex(System.String)">
-            <summary>
-            Matches a string argument if it matches the given regular expression pattern.
-            </summary>
-            <param name="regex">The pattern to use to match the string argument value.</param>
-            <example>
-            The following example shows how to expect a call to a method where the 
-            string argument matches the given regular expression:
-            <code>
-            mock.Protected()
-                .Setup("Check", ItExpr.IsRegex("[a-z]+"))
-                .Returns(1);
-            </code>
-            </example>
-        </member>
-        <member name="M:Moq.Protected.ItExpr.IsRegex(System.String,System.Text.RegularExpressions.RegexOptions)">
-            <summary>
-            Matches a string argument if it matches the given regular expression pattern.
-            </summary>
-            <param name="regex">The pattern to use to match the string argument value.</param>
-            <param name="options">The options used to interpret the pattern.</param>
-            <example>
-            The following example shows how to expect a call to a method where the 
-            string argument matches the given regular expression, in a case insensitive way:
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-                .Setup("Check", ItExpr.IsRegex("[a-z]+", RegexOptions.IgnoreCase))
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-            </example>
-        </member>
-        <member name="T:Moq.Protected.ProtectedExtension">
-            <summary>
-            Enables the <c>Protected()</c> method on <see cref="T:Moq.Mock`1"/>, 
-            allowing setups to be set for protected members by using their 
-            name as a string, rather than strong-typing them which is not possible 
-            due to their visibility.
-            </summary>
-        </member>
-        <member name="M:Moq.Protected.ProtectedExtension.Protected``1(Moq.Mock{``0})">
-            <summary>
-            Enable protected setups for the mock.
-            </summary>
-            <typeparam name="T">Mocked object type. Typically omitted as it can be inferred from the mock instance.</typeparam>
-            <param name="mock">The mock to set the protected setups on.</param>
-        </member>
-        <member name="T:ThisAssembly">
-            <group name="overview" title="Overview" order="0" />
-            <group name="setups" title="Specifying setups" order="1" />
-            <group name="returns" title="Returning values from members" order="2" />
-            <group name="verification" title="Verifying setups" order="3" />
-            <group name="advanced" title="Advanced scenarios" order="99" />
-            <group name="factory" title="Using MockFactory for consistency across mocks" order="4" />
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-        <member name="T:Moq.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.Culture">
-            <summary>
-              Overrides the current thread's CurrentUICulture property for all
-              resource lookups using this strongly typed resource class.
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-        <member name="P:Moq.Properties.Resources.AlreadyInitialized">
-            <summary>
-              Looks up a localized string similar to Mock type has already been initialized by accessing its Object property. Adding interfaces must be done before that..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ArgumentCannotBeEmpty">
-            <summary>
-              Looks up a localized string similar to Value cannot be an empty string..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.AsMustBeInterface">
-            <summary>
-              Looks up a localized string similar to Can only add interfaces to the mock..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.CantSetReturnValueForVoid">
-            <summary>
-              Looks up a localized string similar to Can&apos;t set return value for void method {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ConstructorArgsForInterface">
-            <summary>
-              Looks up a localized string similar to Constructor arguments cannot be passed for interface mocks..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ConstructorNotFound">
-            <summary>
-              Looks up a localized string similar to A matching constructor for the given arguments was not found on the mocked type..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.EventNofFound">
-            <summary>
-              Looks up a localized string similar to Could not locate event for attach or detach method {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.FieldsNotSupported">
-            <summary>
-              Looks up a localized string similar to Expression {0} involves a field access, which is not supported. Use properties instead..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.InvalidMockClass">
-            <summary>
-              Looks up a localized string similar to Type to mock must be an interface or an abstract or non-sealed class. .
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.InvalidMockGetType">
-             <summary>
-               Looks up a localized string similar to Cannot retrieve a mock with the given object type {0} as it&apos;s not the main type of the mock or any of its additional interfaces.
-            Please cast the argument to one of the supported types: {1}.
-            Remember that there&apos;s no generics covariance in the CLR, so your object must be one of these types in order for the call to succeed..
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqBinaryOperatorNotSupported">
-            <summary>
-              Looks up a localized string similar to The equals (&quot;==&quot; or &quot;=&quot; in VB) and the conditional &apos;and&apos; (&quot;&amp;&amp;&quot; or &quot;AndAlso&quot; in VB) operators are the only ones supported in the query specification expression. Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqMethodNotSupported">
-            <summary>
-              Looks up a localized string similar to LINQ method &apos;{0}&apos; not supported..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.LinqMethodNotVirtual">
-            <summary>
-              Looks up a localized string similar to Expression contains a call to a method which is not virtual (overridable in VB) or abstract. Unsupported expression: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MemberMissing">
-            <summary>
-              Looks up a localized string similar to Member {0}.{1} does not exist..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MethodIsPublic">
-             <summary>
-               Looks up a localized string similar to Method {0}.{1} is public. Use strong-typed Expect overload instead:
-            mock.Setup(x =&gt; x.{1}());
-            .
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MockExceptionMessage">
-             <summary>
-               Looks up a localized string similar to {0} invocation failed with mock behavior {1}.
-            {2}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MoreThanNCalls">
-            <summary>
-              Looks up a localized string similar to Expected only {0} calls to {1}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.MoreThanOneCall">
-            <summary>
-              Looks up a localized string similar to Expected only one call to {0}..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtLeast">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at least {2} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtLeastOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at least once, but was never performed: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtMost">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at most {3} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsAtMostOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock at most once, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsBetweenExclusive">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock between {2} and {3} times (Exclusive), but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsBetweenInclusive">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock between {2} and {3} times (Inclusive), but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsExactly">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock exactly {2} times, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsNever">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock should never have been performed, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoMatchingCallsOnce">
-             <summary>
-               Looks up a localized string similar to {0}
-            Expected invocation on the mock once, but was {4} times: {1}.
-             </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.NoSetup">
-            <summary>
-              Looks up a localized string similar to All invocations on the mock must have a corresponding setup..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ObjectInstanceNotMock">
-            <summary>
-              Looks up a localized string similar to Object instance was not created by Moq..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.OutExpressionMustBeConstantValue">
-            <summary>
-              Looks up a localized string similar to Out expression must evaluate to a constant value..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyGetNotFound">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not have a getter..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyMissing">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not exist..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyNotReadable">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} is write-only..
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-        </member>
-        <member name="P:Moq.Properties.Resources.PropertyNotWritable">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} is read-only..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.PropertySetNotFound">
-            <summary>
-              Looks up a localized string similar to Property {0}.{1} does not have a setter..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.RaisedUnassociatedEvent">
-            <summary>
-              Looks up a localized string similar to Cannot raise a mocked event unless it has been associated (attached) to a concrete event in a mocked object..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.RefExpressionMustBeConstantValue">
-            <summary>
-              Looks up a localized string similar to Ref expression must evaluate to a constant value..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.ReturnValueRequired">
-            <summary>
-              Looks up a localized string similar to Invocation needs to return a value and therefore must have a corresponding setup that provides it..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupLambda">
-            <summary>
-              Looks up a localized string similar to A lambda expression is expected as the argument to It.Is&lt;T&gt;..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNever">
-            <summary>
-              Looks up a localized string similar to Invocation {0} should not have been made..
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupNotMethod">
-            <summary>
-              Looks up a localized string similar to Expression is not a method invocation: {0}.
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-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupOnNonMemberMethod">
-            <summary>
-              Looks up a localized string similar to Expression references a method that does not belong to the mocked object: {0}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.SetupOnNonOverridableMember">
-            <summary>
-              Looks up a localized string similar to Invalid setup on a non-virtual (overridable in VB) member: {0}.
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-            <summary>
-              Looks up a localized string similar to Type {0} does not implement required interface {1}.
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-        <member name="P:Moq.Properties.Resources.TypeNotInheritFromType">
-            <summary>
-              Looks up a localized string similar to Type {0} does not from required type {1}.
-            </summary>
-        </member>
-        <member name="P:Moq.Properties.Resources.UnexpectedPublicProperty">
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-               Looks up a localized string similar to To specify a setup for public property {0}.{1}, use the typed overloads, such as:
-            mock.Setup(x =&gt; x.{1}).Returns(value);
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-              Looks up a localized string similar to Unsupported expression: {0}.
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-        <member name="P:Moq.Properties.Resources.UnsupportedIntermediateExpression">
-            <summary>
-              Looks up a localized string similar to Only property accesses are supported in intermediate invocations on a setup. Unsupported expression {0}..
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-        <member name="P:Moq.Properties.Resources.UnsupportedMember">
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-              Looks up a localized string similar to Member {0} is not supported for protected mocking..
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-            <summary>
-              Looks up a localized string similar to Setter expression can only use static custom matchers..
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-        <member name="P:Moq.Properties.Resources.VerficationFailed">
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-               Looks up a localized string similar to The following setups were not matched:
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-        <member name="P:Moq.Properties.Resources.VerifyOnNonVirtualMember">
-            <summary>
-              Looks up a localized string similar to Invalid verify on a non-virtual (overridable in VB) member: {0}.
-            </summary>
-        </member>
-        <member name="T:Moq.Range">
-            <summary>
-            Kind of range to use in a filter specified through 
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-        </member>
-        <member name="M:Moq.SequenceExtensions.SetupSequence``2(Moq.Mock{``0},System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Return a sequence of values, once per call.
-            </summary>
-        </member>
-        <member name="T:Moq.Times">
-            <summary>
-			Defines the number of invocations allowed by a mocked method.
-		</summary>
-        </member>
-        <member name="M:Moq.Times.AtLeast(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked <paramref name="callCount"/> times as minimum.
-		</summary><param name="callCount">The minimun number of times.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtLeastOnce">
-            <summary>
-			Specifies that a mocked method should be invoked one time as minimum.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtMost(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked <paramref name="callCount"/> time as maximun.
-		</summary><param name="callCount">The maximun number of times.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.AtMostOnce">
-            <summary>
-			Specifies that a mocked method should be invoked one time as maximun.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Between(System.Int32,System.Int32,Moq.Range)">
-            <summary>
-			Specifies that a mocked method should be invoked between <paramref name="callCountFrom"/> and
-			<paramref name="callCountTo"/> times.
-		</summary><param name="callCountFrom">The minimun number of times.</param><param name="callCountTo">The maximun number of times.</param><param name="rangeKind">
-			The kind of range. See <see cref="T:Moq.Range"/>.
-		</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Exactly(System.Int32)">
-            <summary>
-			Specifies that a mocked method should be invoked exactly <paramref name="callCount"/> times.
-		</summary><param name="callCount">The times that a method or property can be called.</param><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Never">
-            <summary>
-			Specifies that a mocked method should not be invoked.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.Once">
-            <summary>
-			Specifies that a mocked method should be invoked exactly one time.
-		</summary><returns>An object defining the allowed number of invocations.</returns>
-        </member>
-        <member name="M:Moq.Times.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:Moq.Times.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:Moq.Times.op_Equality(Moq.Times,Moq.Times)">
-            <summary>
-			Determines whether two specified <see cref="T:Moq.Times"/> objects have the same value.
-		</summary><param name="left">
-			The first <see cref="T:Moq.Times"/>.
-		</param><param name="right">
-			The second <see cref="T:Moq.Times"/>.
-		</param><returns>
-			<c>true</c> if the value of left is the same as the value of right; otherwise, <c>false</c>.
-		</returns>
-        </member>
-        <member name="M:Moq.Times.op_Inequality(Moq.Times,Moq.Times)">
-            <summary>
-			Determines whether two specified <see cref="T:Moq.Times"/> objects have different values.
-		</summary><param name="left">
-			The first <see cref="T:Moq.Times"/>.
-		</param><param name="right">
-			The second <see cref="T:Moq.Times"/>.
-		</param><returns>
-			<c>true</c> if the value of left is different from the value of right; otherwise, <c>false</c>.
-		</returns>
-        </member>
-    </members>
-</doc>
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-<html>
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-		<h1>NUnit Acceptance Tests</h1>
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-		<p>Now, beginning with NUnit 2.4, NUnit has top-level tests using Ward Cunningham's 
-			FIT framework. At this time, the tests are pretty rudimentary, but it's a start 
-			and it's a framework for doing more.
-			<h2>Running the Tests</h2>
-		<p>Open a console or shell window and navigate to the NUnit bin directory, which 
-			contains this file. To run the test under Microsoft .Net, enter the command
-			<pre>    runFile NUnitFitTests.html TestResults.html .</pre>
-			To run it under Mono, enter
-			<pre>    mono runFile.exe NUnitFitTests.html TestResults.html .</pre>
-			Note the space and dot at the end of each command. The results of your test 
-			will be in TestResults.html in the same directory.
-			<h2>Platform and CLR Version</h2>
-			<table BORDER cellSpacing="0" cellPadding="5">
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-					<td colspan="2">NUnit.Fixtures.PlatformInfo</td>
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-			<h2>Verify Unit Tests</h2>
-		<p>
-		Load and run the NUnit unit tests, verifying that the results are as expected. 
-		When these tests are run on different platforms, different numbers of tests may 
-		be skipped, so the values for Skipped and Run tests are informational only.
-		<p>
-		The number of tests in each assembly should be constant across all platforms - 
-		any discrepancy usually means that one of the test source files was not 
-		compiled on the platform. There should be no failures and no tests ignored.
-		<p><b>Note:</b>
-		At the moment, the nunit.extensions.tests assembly is failing because the 
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-		<p>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="6">NUnit.Fixtures.AssemblyRunner</td>
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-					<td>Assembly</td>
-					<td>Tests()</td>
-					<td>Run()</td>
-					<td>Skipped()</td>
-					<td>Ignored()</td>
-					<td>Failures()</td>
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-				<tr>
-					<td>nunit.framework.tests.dll</td>
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-					<td>355</td>
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-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.util.tests.dll</td>
-					<td>238</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.mocks.tests.dll</td>
-					<td>43</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.extensions.tests.dll</td>
-					<td>5</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit-console.tests.dll</td>
-					<td>40</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.uikit.tests.dll</td>
-					<td>34</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit-gui.tests.dll</td>
-					<td>15</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.fixtures.tests.dll</td>
-					<td>6</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-			</table>
-			<h2>Code Snippet Tests</h2>
-		<p>
-		These tests create a test assembly from a snippet of code and then load and run 
-		the tests that it contains, verifying that the structure of the loaded tests is 
-		as expected and that the number of tests run, skipped, ignored or failed is 
-		correct.
-		<p>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="6">NUnit.Fixtures.SnippetRunner</td>
-				</tr>
-				<tr>
-					<td>Code</td>
-					<td>Tree()</td>
-					<td>Run()</td>
-					<td>Skipped()</td>
-					<td>Ignored()</td>
-					<td>Failures()</td>
-				</tr>
-				<tr>
-					<td><pre>public class TestClass
-{
-}</pre>
-					</td>
-					<td>EMPTY</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-}</pre>
-					</td>
-					<td>TestClass</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-    [Test]
-    public void T1() { }
-    [Test]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass
-&gt;T1
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>3</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass1
-{
-    [Test]
-    public void T1() { }
-}
-
-[TestFixture]
-public class TestClass2
-{
-    [Test]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass1
-&gt;T1
-TestClass2
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>3</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-    [Test]
-    public void T1() { }
-    [Test, Ignore]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass
-&gt;T1
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>2</td>
-					<td>0</td>
-					<td>1</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-    [Test]
-    public void T1() { }
-    [Test, Explicit]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass
-&gt;T1
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>2</td>
-					<td>1</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-			</table>
-			<h2>Summary Information</h2>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="2">fit.Summary</td>
-				</tr>
-			</table>
-	</body>
-</html>
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/NUnitFitTests.html b/src/packages/NUnit.2.5.9.10348/Tools/NUnitFitTests.html
deleted file mode 100644
index ca5cd4f..0000000
--- a/src/packages/NUnit.2.5.9.10348/Tools/NUnitFitTests.html
+++ /dev/null
@@ -1,277 +0,0 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN">
-<html>
-	<body>
-		<h1>NUnit Acceptance Tests</h1>
-		<p>
-		Developers love self-referential programs! Hence, NUnit has always run all it's 
-		own tests, even those that are not really unit tests.
-		<p>Now, beginning with NUnit 2.4, NUnit has top-level tests using Ward Cunningham's 
-			FIT framework. At this time, the tests are pretty rudimentary, but it's a start 
-			and it's a framework for doing more.
-			<h2>Running the Tests</h2>
-		<p>Open a console or shell window and navigate to the NUnit bin directory, which 
-			contains this file. To run the test under Microsoft .Net, enter the command
-			<pre>    runFile NUnitFitTests.html TestResults.html .</pre>
-			To run it under Mono, enter
-			<pre>    mono runFile.exe NUnitFitTests.html TestResults.html .</pre>
-			Note the space and dot at the end of each command. The results of your test 
-			will be in TestResults.html in the same directory.
-			<h2>Platform and CLR Version</h2>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="2">NUnit.Fixtures.PlatformInfo</td>
-				</tr>
-			</table>
-			<h2>Verify Unit Tests</h2>
-		<p>
-		Load and run the NUnit unit tests, verifying that the results are as expected. 
-		When these tests are run on different platforms, different numbers of tests may 
-		be skipped, so the values for Skipped and Run tests are informational only.
-		<p>
-		The number of tests in each assembly should be constant across all platforms - 
-		any discrepancy usually means that one of the test source files was not 
-		compiled on the platform. There should be no failures and no tests ignored.
-		<p><b>Note:</b>
-		At the moment, the nunit.extensions.tests assembly is failing because the 
-		fixture doesn't initialize addins in the test domain.
-		<p>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="6">NUnit.Fixtures.AssemblyRunner</td>
-				</tr>
-				<tr>
-					<td>Assembly</td>
-					<td>Tests()</td>
-					<td>Run()</td>
-					<td>Skipped()</td>
-					<td>Ignored()</td>
-					<td>Failures()</td>
-				</tr>
-				<tr>
-					<td>nunit.framework.tests.dll</td>
-					<td>397</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.core.tests.dll</td>
-					<td>355</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.util.tests.dll</td>
-					<td>238</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.mocks.tests.dll</td>
-					<td>43</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.extensions.tests.dll</td>
-					<td>5</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit-console.tests.dll</td>
-					<td>40</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.uikit.tests.dll</td>
-					<td>34</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit-gui.tests.dll</td>
-					<td>15</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td>nunit.fixtures.tests.dll</td>
-					<td>6</td>
-					<td>&nbsp;</td>
-					<td>&nbsp;</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-			</table>
-			<h2>Code Snippet Tests</h2>
-		<p>
-		These tests create a test assembly from a snippet of code and then load and run 
-		the tests that it contains, verifying that the structure of the loaded tests is 
-		as expected and that the number of tests run, skipped, ignored or failed is 
-		correct.
-		<p>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="6">NUnit.Fixtures.SnippetRunner</td>
-				</tr>
-				<tr>
-					<td>Code</td>
-					<td>Tree()</td>
-					<td>Run()</td>
-					<td>Skipped()</td>
-					<td>Ignored()</td>
-					<td>Failures()</td>
-				</tr>
-				<tr>
-					<td><pre>public class TestClass
-{
-}</pre>
-					</td>
-					<td>EMPTY</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-}</pre>
-					</td>
-					<td>TestClass</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-    [Test]
-    public void T1() { }
-    [Test]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass
-&gt;T1
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>3</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass1
-{
-    [Test]
-    public void T1() { }
-}
-
-[TestFixture]
-public class TestClass2
-{
-    [Test]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass1
-&gt;T1
-TestClass2
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>3</td>
-					<td>0</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-    [Test]
-    public void T1() { }
-    [Test, Ignore]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass
-&gt;T1
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>2</td>
-					<td>0</td>
-					<td>1</td>
-					<td>0</td>
-				</tr>
-				<tr>
-					<td><pre>using NUnit.Framework;
-
-[TestFixture]
-public class TestClass
-{
-    [Test]
-    public void T1() { }
-    [Test, Explicit]
-    public void T2() { }
-    [Test]
-    public void T3() { }
-}</pre>
-					</td>
-					<td><pre>TestClass
-&gt;T1
-&gt;T2
-&gt;T3</pre>
-					</td>
-					<td>2</td>
-					<td>1</td>
-					<td>0</td>
-					<td>0</td>
-				</tr>
-			</table>
-			<h2>Summary Information</h2>
-			<table BORDER cellSpacing="0" cellPadding="5">
-				<tr>
-					<td colspan="2">fit.Summary</td>
-				</tr>
-			</table>
-	</body>
-</html>
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/NUnitTests.config b/src/packages/NUnit.2.5.9.10348/Tools/NUnitTests.config
deleted file mode 100644
index fb15771..0000000
--- a/src/packages/NUnit.2.5.9.10348/Tools/NUnitTests.config
+++ /dev/null
@@ -1,85 +0,0 @@
-<?xml version="1.0" encoding="utf-8" ?>
-<configuration>
-<!--
-	 This is the configuration file for the NUnitTests.nunit test project. You may
-	 need to create a similar configuration file for your own test project. 
- -->	 
-
-<!--
-	 The <NUnit> section is only needed if you want to use a non-default value
-	 for any of the settings. It is commented out below. If you are going to use
-   it, you must deifne the NUnit section group and the sections you need.
- 
-   The syntax shown here works for most runtimes. If NUnit fails at startup, you
-   can try specifying the name of the assembly containing the NameValueSectionHandler:
-   
-      <section name="TestCaseBuilder" type="System.Configuration.NameValueSectionHandler, System" />
-      
-   If that fails, try the fully qualified name of the assembly:
-   
-      <section name="TestCaseBuilder" type="System.Configuration.NameValueSectionHandler, System, 
-             Version=2.0.50727.832, Culture=neutral, PublicKeyToken=b77a5c561934e089" />
-             
-   Unfortunately, this last approach makes your config file non-portable across runtimes.
-   -->
-
-<!--
-  <configSections>
-		<sectionGroup name="NUnit">
-			<section name="TestCaseBuilder" type="System.Configuration.NameValueSectionHandler"/>
-			<section name="TestRunner" type="System.Configuration.NameValueSectionHandler"/>
-		</sectionGroup>
-	</configSections>
- -->
-
-  <appSettings>
-		<!--   User application and configured property settings go here.-->
-		<!--   Example: <add key="settingName" value="settingValue"/> -->
-		<add key="test.setting" value="54321" />
-	</appSettings>
-
-<!-- Sample NUnit section group showing all default values -->
-<!--
-	<NUnit>
-		<TestCaseBuilder>
-			<add key="OldStyleTestCases" value="false" />
-		</TestCaseBuilder>
-		<TestRunner>
-			<add key="ApartmentState" value="MTA" />
-			<add key="ThreadPriority" value="Normal" />
-      <add key="DefaultLogThreshold" value="Info" />
-		</TestRunner>
-	</NUnit>
--->
-  
-   <!--
-    The following <runtime> section allows running nunit tests under 
-    .NET 1.0 by redirecting assemblies. The appliesTo attribute
-    causes the section to be ignored except under .NET 1.0.
-   --> 
-	<runtime>
-		<assemblyBinding xmlns="urn:schemas-microsoft-com:asm.v1"
-				appliesTo="v1.0.3705">
-			<dependentAssembly>
-				<assemblyIdentity name="System" publicKeyToken="b77a5c561934e089" culture="" />
-				<bindingRedirect oldVersion="1.0.5000.0" newVersion="1.0.3300.0" />
-			</dependentAssembly>
-			<dependentAssembly>
-				<assemblyIdentity name="System.Data" publicKeyToken="b77a5c561934e089" culture="" />
-				<bindingRedirect oldVersion="1.0.5000.0" newVersion="1.0.3300.0" />
-			</dependentAssembly>
-			<dependentAssembly>
-				<assemblyIdentity name="System.Drawing" publicKeyToken="b03f5f7f11d50a3a" culture="" />
-				<bindingRedirect oldVersion="1.0.5000.0" newVersion="1.0.3300.0" />
-			</dependentAssembly>
-			<dependentAssembly>
-				<assemblyIdentity name="System.Windows.Forms" publicKeyToken="b77a5c561934e089" culture="" />
-				<bindingRedirect oldVersion="1.0.5000.0" newVersion="1.0.3300.0" />
-			</dependentAssembly>
-			<dependentAssembly>
-				<assemblyIdentity name="System.Xml" publicKeyToken="b77a5c561934e089" culture="" />
-				<bindingRedirect oldVersion="1.0.5000.0" newVersion="1.0.3300.0" />
-			</dependentAssembly>
-		</assemblyBinding>
-	</runtime>
-</configuration> 
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/NUnitTests.nunit b/src/packages/NUnit.2.5.9.10348/Tools/NUnitTests.nunit
deleted file mode 100644
index e7bb7f4..0000000
--- a/src/packages/NUnit.2.5.9.10348/Tools/NUnitTests.nunit
+++ /dev/null
@@ -1,14 +0,0 @@
-<NUnitProject>
-  <Settings appbase="."/>
-  <Config name="Default" binpath="lib;tests;framework" runtimeFramework="v2.0">
-    <assembly path="tests/nunit.framework.tests.dll" />
-    <assembly path="tests/nunit.core.tests.dll" />
-    <assembly path="tests/nunit.util.tests.dll" />
-    <assembly path="tests/nunit.mocks.tests.dll" />
-    <assembly path="tests/nunit-console.tests.dll" />
-    <assembly path="tests/nunit.uiexception.tests.dll" />
-    <assembly path="tests/nunit.uikit.tests.dll" />
-    <assembly path="tests/nunit-gui.tests.dll" />
-    <assembly path="tests/nunit.fixtures.tests.dll" />
-  </Config>
-</NUnitProject>
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/agent.conf b/src/packages/NUnit.2.5.9.10348/Tools/agent.conf
deleted file mode 100644
index ddbcd8e..0000000
--- a/src/packages/NUnit.2.5.9.10348/Tools/agent.conf
+++ /dev/null
@@ -1,4 +0,0 @@
-<AgentConfig>
-  <Port>8080</Port>
-  <PathToAssemblies>.</PathToAssemblies>
-</AgentConfig>
\ No newline at end of file
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/agent.log.conf b/src/packages/NUnit.2.5.9.10348/Tools/agent.log.conf
deleted file mode 100644
index 4bd90ca..0000000
--- a/src/packages/NUnit.2.5.9.10348/Tools/agent.log.conf
+++ /dev/null
@@ -1,18 +0,0 @@
-<log4net>
-	<!-- A1 is set to be a ConsoleAppender -->
-	<appender name="A1" type="log4net.Appender.ConsoleAppender">
-
-		<!-- A1 uses PatternLayout -->
-		<layout type="log4net.Layout.PatternLayout">
-			<!-- Print the date in ISO 8601 format -->
-			<conversionPattern value="%-5level %logger - %message%newline" />
-		</layout>
-	</appender>
-	
-	<!-- Set root logger level to DEBUG and its only appender to A1 -->
-	<root>
-		<level value="DEBUG" />
-		<appender-ref ref="A1" />
-	</root>
-
-</log4net>
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/launcher.log.conf b/src/packages/NUnit.2.5.9.10348/Tools/launcher.log.conf
deleted file mode 100644
index 4bd90ca..0000000
--- a/src/packages/NUnit.2.5.9.10348/Tools/launcher.log.conf
+++ /dev/null
@@ -1,18 +0,0 @@
-<log4net>
-	<!-- A1 is set to be a ConsoleAppender -->
-	<appender name="A1" type="log4net.Appender.ConsoleAppender">
-
-		<!-- A1 uses PatternLayout -->
-		<layout type="log4net.Layout.PatternLayout">
-			<!-- Print the date in ISO 8601 format -->
-			<conversionPattern value="%-5level %logger - %message%newline" />
-		</layout>
-	</appender>
-	
-	<!-- Set root logger level to DEBUG and its only appender to A1 -->
-	<root>
-		<level value="DEBUG" />
-		<appender-ref ref="A1" />
-	</root>
-
-</log4net>
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/lib/Failure.png b/src/packages/NUnit.2.5.9.10348/Tools/lib/Failure.png
deleted file mode 100644
index 2e400b2..0000000
Binary files a/src/packages/NUnit.2.5.9.10348/Tools/lib/Failure.png and /dev/null differ
diff --git a/src/packages/NUnit.2.5.9.10348/Tools/lib/Ignored.png b/src/packages/NUnit.2.5.9.10348/Tools/lib/Ignored.png
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-
-
-		    GNU GENERAL PUBLIC LICENSE
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-WILL ANY COPYRIGHT HOLDER, OR ANY OTHER PARTY WHO MAY MODIFY AND/OR
-REDISTRIBUTE THE PROGRAM AS PERMITTED ABOVE, BE LIABLE TO YOU FOR DAMAGES,
-INCLUDING ANY GENERAL, SPECIAL, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING
-OUT OF THE USE OR INABILITY TO USE THE PROGRAM (INCLUDING BUT NOT LIMITED
-TO LOSS OF DATA OR DATA BEING RENDERED INACCURATE OR LOSSES SUSTAINED BY
-YOU OR THIRD PARTIES OR A FAILURE OF THE PROGRAM TO OPERATE WITH ANY OTHER
-PROGRAMS), EVEN IF SUCH HOLDER OR OTHER PARTY HAS BEEN ADVISED OF THE
-POSSIBILITY OF SUCH DAMAGES.
-
-		     END OF TERMS AND CONDITIONS
-
-	    How to Apply These Terms to Your New Programs
-
-  If you develop a new program, and you want it to be of the greatest
-possible use to the public, the best way to achieve this is to make it
-free software which everyone can redistribute and change under these terms.
-
-  To do so, attach the following notices to the program.  It is safest
-to attach them to the start of each source file to most effectively
-convey the exclusion of warranty; and each file should have at least
-the "copyright" line and a pointer to where the full notice is found.
-
-    <one line to give the program's name and a brief idea of what it does.>
-    Copyright (C) <year>  <name of author>
-
-    This program is free software; you can redistribute it and/or modify
-    it under the terms of the GNU General Public License as published by
-    the Free Software Foundation; either version 2 of the License, or
-    (at your option) any later version.
-
-    This program is distributed in the hope that it will be useful,
-    but WITHOUT ANY WARRANTY; without even the implied warranty of
-    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
-    GNU General Public License for more details.
-
-    You should have received a copy of the GNU General Public License
-    along with this program; if not, write to the Free Software
-    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
-
-
-Also add information on how to contact you by electronic and paper mail.
-
-If the program is interactive, make it output a short notice like this
-when it starts in an interactive mode:
-
-    Gnomovision version 69, Copyright (C) year name of author
-    Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
-    This is free software, and you are welcome to redistribute it
-    under certain conditions; type `show c' for details.
-
-The hypothetical commands `show w' and `show c' should show the appropriate
-parts of the General Public License.  Of course, the commands you use may
-be called something other than `show w' and `show c'; they could even be
-mouse-clicks or menu items--whatever suits your program.
-
-You should also get your employer (if you work as a programmer) or your
-school, if any, to sign a "copyright disclaimer" for the program, if
-necessary.  Here is a sample; alter the names:
-
-  Yoyodyne, Inc., hereby disclaims all copyright interest in the program
-  `Gnomovision' (which makes passes at compilers) written by James Hacker.
-
-  <signature of Ty Coon>, 1 April 1989
-  Ty Coon, President of Vice
-
-This General Public License does not permit incorporating your program into
-proprietary programs.  If your program is a subroutine library, you may
-consider it more useful to permit linking proprietary applications with the
-library.  If this is what you want to do, use the GNU Library General
-Public License instead of this License.
\ No newline at end of file
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-  <xs:simpleType name="InterceptorTypeName_Type">
-    <xs:union memberTypes="TypeName_Type">
-      <xs:simpleType>
-        <xs:restriction base="xs:NMTOKEN">
-          <xs:enumeration value="VirtualMethodInterceptor"/>
-          <xs:enumeration value="InterfaceInterceptor"/>
-          <xs:enumeration value="TransparentProxyInterceptor"/>
-        </xs:restriction>
-      </xs:simpleType>
-    </xs:union>
-  </xs:simpleType>
-
-  <xs:simpleType name="MatchingRuleTypeName_Type">
-    <xs:union memberTypes="TypeName_Type">
-      <xs:simpleType>
-        <xs:restriction base="xs:NMTOKEN">
-          <xs:enumeration value="AssemblyMatchingRule"/>
-          <xs:enumeration value="CustomAttributeMatchingRule"/>
-          <xs:enumeration value="MemberNameMatchingRule"/>
-          <xs:enumeration value="NamespaceMatchingRule"/>
-          <xs:enumeration value="ParameterTypeMatchingRule"/>
-          <xs:enumeration value="PropertyMatchingRule"/>
-          <xs:enumeration value="TagAttributeMatchingRule"/>
-          <xs:enumeration value="TypeMatchingRule"/>
-        </xs:restriction>
-      </xs:simpleType>
-    </xs:union>
-  </xs:simpleType>
-
-  <xs:simpleType name="IdentifierName_Type">
-    <xs:restriction base="xs:string"/>
-  </xs:simpleType>
-
-  <xs:simpleType name="boolean_Type2">
-    <xs:restriction base="xs:boolean">
-      <xs:pattern value="true" />
-      <xs:pattern value="false" />
-    </xs:restriction>
-  </xs:simpleType>
-
-  <xs:complexType name="Empty"/>
-
-  <xs:complexType name="NamedElement">
-    <xs:attribute name="name" type="IdentifierName_Type" use="required"/>
-  </xs:complexType>
-
-</xs:schema>
diff --git a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.Configuration.XML b/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.Configuration.XML
deleted file mode 100644
index 5c24c78..0000000
--- a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.Configuration.XML
+++ /dev/null
@@ -1,2424 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Microsoft.Practices.Unity.Configuration</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.Unity.Configuration.AliasElement">
-            <summary>
-            A configuration element storing information about a single type alias.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElement">
-            <summary>
-            Base class for configuration elements with a default implementation of
-            public deserialization.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElement.Deserialize(System.Xml.XmlReader)">
-            <summary>
-            Load this element from the given <see cref="T:System.Xml.XmlReader"/>.
-            </summary>
-            <param name="reader">Contains the XML to initialize from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.AliasElement.#ctor">
-            <summary>
-            Construct a new, uninitialized <see cref="T:Microsoft.Practices.Unity.Configuration.AliasElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.AliasElement.#ctor(System.String,System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.Configuration.AliasElement"/> that is initialized
-            to alias <paramref name="alias"/> to the target <paramref name="targetType"/>.
-            </summary>
-            <param name="alias">Alias to use.</param>
-            <param name="targetType">Type that is aliased.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.AliasElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.AliasElement.Alias">
-            <summary>
-            The alias used for this type.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.AliasElement.TypeName">
-            <summary>
-            The fully qualified name this alias refers to.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.AliasElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.AliasElement"/>s.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollection`1">
-            <summary>
-            Specialization of <see cref="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1"/>
-            that provides a canned implementation of <see cref="M:System.Configuration.ConfigurationElementCollection.CreateNewElement"/>.
-            </summary>
-            <typeparam name="TElement">Type of configuration element in the collection.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1">
-            <summary>
-            A base helper class for implementing configuration collections.
-            </summary>
-            <typeparam name="TElement">Type of configuration element contained in 
-            the collection.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.GetElement(System.Int32)">
-            <summary>
-            Plug point to get objects out of the collection.
-            </summary>
-            <param name="index">Index in the collection to retrieve the item from.</param>
-            <returns>Item at that index or null if not present.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.GetElement(System.Object)">
-            <summary>
-            Plug point to get objects out of the collection.
-            </summary>
-            <param name="key">Key to look up the object by.</param>
-            <returns>Item with that key or null if not present.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.Deserialize(System.Xml.XmlReader)">
-            <summary>
-            Load this element from the given <see cref="T:System.Xml.XmlReader"/>.
-            </summary>
-            <param name="reader">Contains the XML to initialize from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.Add(`0)">
-            <summary>
-            Add a new element to the collection.
-            </summary>
-            <param name="element">Element to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.RemoveAt(System.Int32)">
-            <summary>
-            Remove an element from the collection at the given index.
-            </summary>
-            <param name="index">The index of the item to remove.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.Clear">
-            <summary>
-            Remove all the items in the collection.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.SerializeElementContents(System.Xml.XmlWriter,System.String)">
-            <summary>
-            Write out the contents of this collection to the given
-            <paramref name="writer"/> without a containing element
-            corresponding directly to this container element. Each
-            child element will have a tag name given by
-            <paramref name="elementName"/>.
-            </summary>
-            <param name="writer"><see cref="T:System.Xml.XmlWriter"/> to output XML to.</param>
-            <param name="elementName">Name of tag to generate.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase`1.Item(System.Int32)">
-            <summary>
-            Indexer to retrieve items in the collection by index.
-            </summary>
-            <param name="index">Index of the item to get or set.</param>
-            <returns>The item at the given index.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollection`1.CreateNewElement">
-            <summary>
-            When overridden in a derived class, creates a new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </summary>
-            <returns>
-            A new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.AliasElementCollection.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Causes the configuration system to throw an exception.
-            </summary>
-            <returns>
-            true if the unrecognized element was deserialized successfully; otherwise, false. The default is false.
-            </returns>
-            <param name="elementName">The name of the unrecognized element.</param>
-            <param name="reader">An input stream that reads XML from the configuration file.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element specified in <paramref name="elementName"/> is the &lt;clear&gt; element.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="elementName"/> starts with the reserved prefix "config" or "lock".</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.AliasElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.AliasElementCollection.Item(System.String)">
-            <summary>
-            Indexer that allows you to get or set an alias by the alias name.
-            </summary>
-            <param name="alias">Alias of element to get or set.</param>
-            <returns>The type name at that alias.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ArrayElement">
-            <summary>
-            A configuration element used to configure injection of
-            a specific set of values into an array.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement">
-            <summary>
-            Base class for configuration elements that describe a value that will
-            be injected.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterValueElement.#ctor">
-            <summary>
-            Initialize a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterValueElement.GetInjectionParameterValue(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Generate an <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object
-            that will be used to configure the container for a type registration.
-            </summary>
-            <param name="container">Container that is being configured. Supplied in order
-            to let custom implementations retrieve services; do not configure the container
-            directly in this method.</param>
-            <param name="parameterType">Type of the </param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterValueElement.GuardPropertyValueIsPresent(System.Collections.Generic.IDictionary{System.String,System.String},System.String)">
-            <summary>
-            Validate that an expected attribute is present in the given
-            dictionary and that it has a non-empty value.
-            </summary>
-            <param name="propertyValues">Dictionary of name/value pairs to check.</param>
-            <param name="requiredProperty">attribute name to check.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterValueElement.Key">
-            <summary>
-            Return a unique string that can be used to identify this object. Used
-            by the configuration collection support.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ArrayElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ArrayElement.GetInjectionParameterValue(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Generate an <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object
-            that will be used to configure the container for a type registration.
-            </summary>
-            <param name="container">Container that is being configured. Supplied in order
-            to let custom implementations retrieve services; do not configure the container
-            directly in this method.</param>
-            <param name="parameterType">Type of the </param>
-            <returns></returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ArrayElement.TypeName">
-            <summary>
-            Type of array to inject. This is actually the type of the array elements,
-            not the array type. Optional, if not specified we take the type from
-            our containing element.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ArrayElement.Values">
-            <summary>
-            Values used to calculate the contents of the array.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.AssemblyElement">
-            <summary>
-            A configuration element representing the namespace
-            tags in the config file.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.NamedElement">
-            <summary>
-            An element with a single "name" property, used for
-            the namespaces and assemblies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.NamedElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.NamedElement.Name">
-            <summary>
-            Name attribute for this element.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.AssemblyElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.AssemblyElement"/>s in configuration.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.AssemblyElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ConfigurationElementExtensions">
-            <summary>
-            Helpful extension methods when implementing configuration sections
-            that deserialize "unwrapped" elements - elements that should be
-            deserialized into a container but can be present outside
-            that container in the actual config file.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ConfigurationElementExtensions.ReadUnwrappedElement``1(System.Configuration.ConfigurationElement,System.Xml.XmlReader,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase{``0})">
-            <summary>
-            Deserialize an element of the given type, store it in
-            the collection object, and 
-            </summary>
-            <typeparam name="TElementType">Type of element to create and deserialize.</typeparam>
-            <param name="baseElement">Parent element containing element to deserialize.</param>
-            <param name="reader">Xml reader containing state to deserialize from.</param>
-            <param name="elementCollection">Collection to store the created element into.</param>
-            <returns>The created element.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ConfigurationElementExtensions.ReadElementByType``1(System.Configuration.ConfigurationElement,System.Xml.XmlReader,System.Type,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DeserializableConfigurationElementCollectionBase{``0})">
-            <summary>
-            Deserialize an element, basing the element type on the one
-            supplied at runtime, and then store the element into the
-            given <paramref name="elementCollection"/>.
-            </summary>
-            <remarks>This method is useful when reading elements into a polymorphic collection.</remarks>
-            <typeparam name="TElementType">Base type of element to store.</typeparam>
-            <param name="baseElement">Element that contains the collection being stored into.</param>
-            <param name="reader">Xml Reader containing state to deserialize from.</param>
-            <param name="elementType">Runtime type of element to create.</param>
-            <param name="elementCollection">Collection to store the created element into.</param>
-            <returns>The created element.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream">
-            <summary>
-            Class that tracks the current input state of the parser.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder">
-            <summary>
-            A simple implementing of the rules for a Parsing Expression Grammar
-            parsing algorithm. This supplies basic methods to do the primitives
-            of the PEG, and combinators to create larger rules.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.Any(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream)">
-            <summary>
-            The PEG "dot" operator that matches and consumes one character.
-            </summary>
-            <param name="input">Input to the parser.</param>
-            <returns>The parse result.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.Match(System.Char)">
-            <summary>
-            Parse function generator that returns a method to match a single,
-            specific character.
-            </summary>
-            <param name="charToMatch">Character to match.</param>
-            <returns>The generated parsing function.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.Match(System.Func{System.Char,System.Boolean})">
-            <summary>
-            Parse function generator that checks if the current character matches
-            the predicate supplied.
-            </summary>
-            <param name="predicate">Predicate used to determine if the character is in
-            the given range.</param>
-            <returns>The generated parsing function.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.ZeroOrMore(System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult})">
-            <summary>
-            The "*" operator - match zero or more of the inner parse expressions.
-            </summary>
-            <param name="inner">Parse method to repeat matching.</param>
-            <returns>The generated parsing function.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.Sequence(System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult}[])">
-            <summary>
-            Parsing combinator that matches all of the given expressions in
-            order, or matches none of them.
-            </summary>
-            <param name="expressions">Expressions that form the sequence to match.</param>
-            <returns>The combined sequence.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.FirstOf(System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult}[])">
-            <summary>
-            Parsing combinator that implements the PEG prioritized choice operator. Basically,
-            try each of the expressions in order, and match if any of them match, stopping on the
-            first match.
-            </summary>
-            <param name="expressions">Expressions that form the set of alternatives.</param>
-            <returns>The combined parsing method.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.Not(System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult})">
-            <summary>
-            Parsing combinator implementing the "not" predicate. This wraps
-            the given <paramref name="expression"/> parsing method with a check
-            to see if it matched. If it matched, then the Not fails, and vice
-            versa. The result consumes no input.
-            </summary>
-            <param name="expression">The parse method to wrap.</param>
-            <returns>The generated parsing function.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.EOF(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream)">
-            <summary>
-            Parsing expression that matches End of input.
-            </summary>
-            <param name="input">Parser input.</param>
-            <returns>Parse result</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.WithAction(System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult},System.Action{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult})">
-            <summary>
-            Combinator that executes an action if the given expression matched.
-            </summary>
-            <param name="expression">Parsing expression to match.</param>
-            <param name="onMatched">Action to execute if <paramref name="expression"/>
-            matched. Input is the matched text from <paramref name="expression"/>.</param>
-            <returns>The result of <paramref name="expression"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseBuilder.WithAction(System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.InputStream,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult},System.Func{Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult})">
-            <summary>
-            Combinator that executes an action if the given expression matched.
-            </summary>
-            <param name="expression">parsing expression to match.</param>
-            <param name="onMatched">Method to execute if a match happens. This method returns
-            the <see cref="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult"/> that will be returned from the combined expression.</param>
-            <returns>The result of <paramref name="onMatched"/> if expression matched, else
-            whatever <paramref name="expression"/> returned.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult">
-            <summary>
-            Object containing the result of attempting to match a PEG rule.
-            This object is the return type for all parsing methods.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult.Matched">
-            <summary>
-            Did the rule match?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult.MatchedString">
-            <summary>
-            The characters that were matched (if any)
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult.ResultData">
-            <summary>
-            Any extra information provided by the parsing expression
-            (only set if the parse matched). The nature
-            of the data varies depending on the parsing expression.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult">
-            <summary>
-            Helper methods to make it easier to pull the data
-            out of the result of a sequence expression.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.Add(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult)">
-            <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:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.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:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.Contains(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult)">
-            <summary>
-            Determines whether the <see cref="T:System.Collections.Generic.ICollection`1"/> contains a specific value.
-            </summary>
-            <returns>
-            true if <paramref name="item"/> is found in the <see cref="T:System.Collections.Generic.ICollection`1"/>; otherwise, false.
-            </returns>
-            <param name="item">The object to locate in the <see cref="T:System.Collections.Generic.ICollection`1"/>.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.CopyTo(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult[],System.Int32)">
-            <summary>
-            Copies the elements of the sequence to an <see cref="T:System.Array"/>, starting at a particular <see cref="T:System.Array"/> index.
-            </summary>
-            <param name="array">The one-dimensional <see cref="T:System.Array"/> that is the destination of the elements copied from this sequence. The <see cref="T:System.Array"/> must have zero-based indexing.</param>
-            <param name="arrayIndex">The zero-based index in <paramref name="array"/> at which copying begins.</param>
-            <exception cref="T:System.ArgumentNullException"><paramref name="array"/> is null.</exception>
-            <exception cref="T:System.ArgumentOutOfRangeException"><paramref name="arrayIndex"/> is less than 0.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="array"/> is multidimensional.
-            -or-
-            <paramref name="arrayIndex"/> is equal to or greater than the length of <paramref name="array"/>.
-            -or-
-            The number of elements in the source is greater than the available space from <paramref name="arrayIndex"/> to the end of the destination <paramref name="array"/>.
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.Remove(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult)">
-            <summary>
-            Removes the first occurrence of a specific object from the <see cref="T:System.Collections.Generic.ICollection`1"/>.
-            </summary>
-            <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>
-            <param name="item">The object to remove from 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:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.IndexOf(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult)">
-            <summary>
-            Determines the index of a specific item in the <see cref="T:System.Collections.Generic.IList`1"/>.
-            </summary>
-            <returns>
-            The index of <paramref name="item"/> if found in the list; otherwise, -1.
-            </returns>
-            <param name="item">The object to locate in the <see cref="T:System.Collections.Generic.IList`1"/>.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.Insert(System.Int32,Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ParseResult)">
-            <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:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.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="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.Count">
-            <summary>
-            Gets the number of elements contained in the <see cref="T:System.Collections.Generic.ICollection`1"/>.
-            </summary>
-            <returns>
-            The number of elements contained in the <see cref="T:System.Collections.Generic.ICollection`1"/>.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.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="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.SequenceResult.Item(System.Int32)">
-            <summary>
-            Gets or sets the element at the specified index.
-            </summary>
-            <returns>
-            The element at the specified index.
-            </returns>
-            <param name="index">The zero-based index of the element to get or set.</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 property is set and the <see cref="T:System.Collections.Generic.IList`1"/> is read-only.</exception>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeNameInfo">
-            <summary>
-            Class containing information about a type name.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeNameInfo.Name">
-            <summary>
-            The base name of the class
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeNameInfo.Namespace">
-            <summary>
-            Namespace if any
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeNameInfo.AssemblyName">
-            <summary>
-            Assembly name, if any
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.XmlWriterExtensions">
-            <summary>
-            Helper methods on <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.XmlWriterExtensions.WriteElement(System.Xml.XmlWriter,System.String,System.Action{System.Xml.XmlWriter})">
-            <summary>
-            A helper method to make it more foolproof to write elements. This takes care of writing the
-            start and end element tags, and takes a nested closure with the code to write the content of
-            the tag. That way the caller doesn't need to worry about the details of getting the start
-            and end tags correct.
-            </summary>
-            <remarks>
-            We don't support XML Namespaces here because .NET configuration doesn't use them so
-            we don't need it for this current implementation.
-            </remarks>
-            <param name="writer">XmlWriter to write to.</param>
-            <param name="elementName">Name of element.</param>
-            <param name="writeContent">Nested lambda which, when executed, will create the content for the
-            element.</param>
-            <returns><paramref name="writer"/> (for method chaining if desired).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.XmlWriterExtensions.WriteAttributeIfNotEmpty(System.Xml.XmlWriter,System.String,System.String)">
-            <summary>
-            A helper method to make it easier to output attributes. If the <paramref name="attributeValue"/> is
-            null or an empty string, output nothing, else output the given XML attribute.
-            </summary>
-            <param name="writer">Writer to output to.</param>
-            <param name="attributeName">Attribute name to write.</param>
-            <param name="attributeValue">Value for the attribute.</param>
-            <returns><paramref name="writer"/> (for method chaining if desired).</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement">
-            <summary>
-            A base class for those elements that can be used
-            to configure a unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement.#ctor">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement.ConfigureContainer(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Apply this element's configuration to the given <paramref name="container"/>.
-            </summary>
-            <param name="container">Container to configure.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement.Key">
-            <summary>
-            Return a unique key that can be used to manage this element in a collection.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DictionaryExtensions">
-            <summary>
-            A couple of useful extension methods on IDictionary
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.DictionaryExtensions.GetOrNull``2(System.Collections.Generic.IDictionary{``0,``1},``0)">
-            <summary>
-            Get the value from a dictionary, or null if there is no value.
-            </summary>
-            <typeparam name="TKey">Key type of dictionary.</typeparam>
-            <typeparam name="TValue">Value type of dictionary.</typeparam>
-            <param name="dictionary">Dictionary to search.</param>
-            <param name="key">Key to look up.</param>
-            <returns>The value at the key or null if not in the dictionary.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap`1">
-            <summary>
-            A helper class used to map element tag names to a handler method
-            used to interpret that element.
-            </summary>
-            <typeparam name="TContainingElement"></typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap`1.Add(System.String,System.Action{`0,System.Xml.XmlReader})">
-            <summary>
-            Add method to enable dictionary initializer syntax 
-            </summary>
-            <param name="elementName"></param>
-            <param name="processingAction"></param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap`1.ProcessElement(`0,System.String,System.Xml.XmlReader)">
-            <summary>
-            Process an unknown element according to the map entries.
-            </summary>
-            <param name="parentElement">Parent element that hit this unknown element.</param>
-            <param name="elementName">Name of the unknown element.</param>
-            <param name="reader">XmlReader positioned at start of element.</param>
-            <returns>true if processed, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap`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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap`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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap">
-            <summary>
-            A helper class used to map element tag names to a handler method
-            used to interpret that element.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.UnknownElementHandlerMap.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper">
-            <summary>
-            A helper class that assists in deserializing parameter and property
-            elements. These elements both have a single "value" child element that
-            specify the value to inject for the property or parameter.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper.#ctor(Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.IValueProvidingElement)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper"/> that wraps reading
-            values and storing them in the given <paramref name="parentElement"/>.
-            </summary>
-            <param name="parentElement">Element that contains the value elements.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper.GetValue(Microsoft.Practices.Unity.Configuration.ParameterValueElement)">
-            <summary>
-            Gets a <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/>, or if none is present,
-            returns a default <see cref="T:Microsoft.Practices.Unity.Configuration.DependencyElement"/>.
-            </summary>
-            <param name="currentValue">The <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/>.</param>
-            <returns>The given <paramref name="currentValue"/>, unless
-            <paramref name="currentValue"/> is null, in which case returns
-            a <see cref="T:Microsoft.Practices.Unity.Configuration.DependencyElement"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper.DeserializeUnrecognizedAttribute(System.String,System.String)">
-            <summary>
-            Helper method used during deserialization to handle
-            attributes for the dependency and value tags.
-            </summary>
-            <param name="name">attribute name.</param>
-            <param name="value">attribute value.</param>
-            <returns>true</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper.DeserializeUnknownElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Helper method used during deserialization to handle the default
-            value element tags.
-            </summary>
-            <param name="elementName">The element name.</param>
-            <param name="reader">XML data to read.</param>
-            <returns>True if deserialization succeeded, false if it failed.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper.CompleteValueElement(System.Xml.XmlReader)">
-            <summary>
-            Call this method at the end of deserialization of your element to
-            set your value element.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.ValueElementHelper.SerializeParameterValueElement(System.Xml.XmlWriter,Microsoft.Practices.Unity.Configuration.ParameterValueElement,System.Boolean)">
-            <summary>
-            Serialize a <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/> object out to XML.
-            This method is aware of and implements the shorthand attributes
-            for dependency and value elements.
-            </summary>
-            <param name="writer">Writer to output XML to.</param>
-            <param name="element">The <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/> to serialize.</param>
-            <param name="elementsOnly">If true, always output an element. If false, then
-            dependency and value elements will be serialized as attributes in the parent tag.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConstructorElement">
-            <summary>
-            Configuration element representing a constructor configuration.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.InjectionMemberElement">
-            <summary>
-            Base class for configuration elements that generate <see cref="T:Microsoft.Practices.Unity.InjectionMember"/>
-            object to configure a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InjectionMemberElement.GetInjectionMembers(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String)">
-            <summary>
-            Return the set of <see cref="T:Microsoft.Practices.Unity.InjectionMember"/>s that are needed
-            to configure the container according to this configuration element.
-            </summary>
-            <param name="container">Container that is being configured.</param>
-            <param name="fromType">Type that is being registered.</param>
-            <param name="toType">Type that <paramref name="fromType"/> is being mapped to.</param>
-            <param name="name">Name this registration is under.</param>
-            <returns>One or more <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects that should be
-            applied to the container registration.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InjectionMemberElement.GetMemberElementName(Microsoft.Practices.Unity.Configuration.InjectionMemberElement)">
-            <summary>
-            Get the standard tag name for an <see cref="T:Microsoft.Practices.Unity.Configuration.InjectionMemberElement"/>
-            taking into account currently loaded section extensions.
-            </summary>
-            <param name="memberElement">Element to get the name for.</param>
-            <returns>The element name.</returns>
-            <exception cref="T:System.ArgumentException">If the member element is not currently registered
-            with the section.</exception>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InjectionMemberElement.Key">
-            <summary>
-            Each element must have a unique key, which is generated by the subclasses.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InjectionMemberElement.ElementName">
-            <summary>
-            Element name to use to serialize this into XML.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConstructorElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConstructorElement.GetInjectionMembers(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String)">
-            <summary>
-            Return the set of <see cref="T:Microsoft.Practices.Unity.InjectionMember"/>s that are needed
-            to configure the container according to this configuration element.
-            </summary>
-            <param name="container">Container that is being configured.</param>
-            <param name="fromType">Type that is being registered.</param>
-            <param name="toType">Type that <paramref name="fromType"/> is being mapped to.</param>
-            <param name="name">Name this registration is under.</param>
-            <returns>One or more <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects that should be
-            applied to the container registration.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConstructorElement.Parameters">
-            <summary>
-            The parameters of the constructor to call.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConstructorElement.Key">
-            <summary>
-            Each element must have a unique key, which is generated by the subclasses.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConstructorElement.ElementName">
-            <summary>
-            Element name to use to serialize this into XML.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement"/>s as
-            loaded from configuration.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElementCollection.CreateNewElement">
-            <summary>
-            When overridden in a derived class, creates a new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </summary>
-            <returns>
-            A new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ContainerElement">
-            <summary>
-            A configuration element class defining the set of registrations to be
-            put into a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElement.Configure(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Original configuration API kept for backwards compatibility.
-            </summary>
-            <param name="container">Container to configure</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElement.ConfigureContainer(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Apply the configuration information in this element to the
-            given <paramref name="container"/>.
-            </summary>
-            <param name="container">Container to configure.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElement.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Gets a value indicating whether an unknown element is encountered during deserialization.
-            </summary>
-            <returns>
-            true when an unknown element is encountered while deserializing; otherwise, false.
-            </returns>
-            <param name="elementName">The name of the unknown subelement.</param>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> being used for deserialization.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element identified by <paramref name="elementName"/> is locked.
-            - or -
-            One or more of the element's attributes is locked.
-            - or -
-            <paramref name="elementName"/> is unrecognized, or the element has an unrecognized attribute.
-            - or -
-            The element has a Boolean attribute with an invalid value.
-            - or -
-            An attempt was made to deserialize a property more than once.
-            - or -
-            An attempt was made to deserialize a property that is not a valid member of the element.
-            - or -
-            The element cannot contain a CDATA or text element.
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElement.Name">
-            <summary>
-            Name for this container configuration as given in the config file.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElement.Registrations">
-            <summary>
-            The type registrations in this container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElement.Instances">
-            <summary>
-            Any instances to register in the container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElement.Extensions">
-            <summary>
-            Any extensions to add to the container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElement.ConfiguringElements">
-            <summary>
-            Set of any extra configuration elements that were added by a
-            section extension.
-            </summary>
-            <remarks>
-            This is not marked as a configuration property because we don't want
-            the actual property to show up as a nested element in the configuration.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ContainerExtensionElement">
-            <summary>
-            Configuration element representing an extension to add to a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerExtensionElement.ConfigureContainer(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Add the extension specified in this element to the container.
-            </summary>
-            <param name="container">Container to configure.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerExtensionElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerExtensionElement.TypeName">
-            <summary>
-            Type of the extension to add.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ContainerExtensionElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.ContainerExtensionElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerExtensionElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.DependencyElement">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/> derived class that describes
-            a parameter that should be resolved through the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.DependencyElement.#ctor">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.DependencyElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.DependencyElement.#ctor(System.Collections.Generic.IDictionary{System.String,System.String})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.DependencyElement"/> with
-            properties initialized from the contents of 
-            <paramref name="attributeValues"/>.
-            </summary>
-            <param name="attributeValues">Dictionary of name/value pairs to
-            initialize this object with.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.DependencyElement.Microsoft#Practices#Unity#Configuration#IAttributeOnlyElement#SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.DependencyElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>. This
-            method always outputs an explicit &lt;dependency&gt; tag, instead of providing
-            attributes to the parent method.
-            </summary>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.DependencyElement.GetInjectionParameterValue(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Generate an <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object
-            that will be used to configure the container for a type registration.
-            </summary>
-            <param name="container">Container that is being configured. Supplied in order
-            to let custom implementations retrieve services; do not configure the container
-            directly in this method.</param>
-            <param name="parameterType">Type of the </param>
-            <returns></returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.DependencyElement.Name">
-            <summary>
-            Name to use to when resolving. If empty, resolves the default.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.DependencyElement.TypeName">
-            <summary>
-            Name of type this dependency should resolve to. This is optional;
-            without it the container will resolve the type of whatever
-            property or parameter this element is contained in.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElement">
-            <summary>
-            Base class used to derive new elements that can occur
-            directly within a container element.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElement.#ctor">
-            <summary>
-            Initialize a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElement.ConfigureContainer(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            When overridden in a derived class, this method will make configuration
-            calls into the given <paramref name="container"/> according to its contents.
-            </summary>
-            <param name="container">The container to configure.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElement.Key">
-            <summary>
-            Unique key generated for use in the collection class.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElementCollection.CreateNewElement">
-            <summary>
-            When overridden in a derived class, creates a new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </summary>
-            <returns>
-            A new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionConfigurationElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ExtensionElementMap">
-            <summary>
-            This class manages the set of extension elements
-            added by section elements.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.Clear">
-            <summary>
-            Clear the current set of extension elements.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.AddContainerConfiguringElement(System.String,System.String,System.Type)">
-            <summary>
-            Register a new ContainerExtensionConfigurationElement with he section so it
-            can be read.
-            </summary>
-            <param name="prefix">prefix if any.</param>
-            <param name="tag">tag name.</param>
-            <param name="elementType">Type of element to register.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.AddInjectionMemberElement(System.String,System.String,System.Type)">
-            <summary>
-            Register a new <see cref="T:Microsoft.Practices.Unity.Configuration.InjectionMemberElement"/> with the section
-            so it can be read.
-            </summary>
-            <param name="prefix">prefix if any.</param>
-            <param name="tag">Tag name.</param>
-            <param name="elementType">Type of element to register.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.AddParameterValueElement(System.String,System.String,System.Type)">
-            <summary>
-            Register a new <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/> with the section
-            so it can be read.
-            </summary>
-            <param name="prefix">prefix if any.</param>
-            <param name="tag">Tag name.</param>
-            <param name="elementType">Type of element to register.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.GetContainerConfiguringElementType(System.String)">
-            <summary>
-            Retrieve the <see cref="T:Microsoft.Practices.Unity.Configuration.ContainerConfiguringElement"/> registered for the given
-            tag.
-            </summary>
-            <param name="tag">Tag to look up.</param>
-            <returns>Type of element, or null if not registered.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.GetInjectionMemberElementType(System.String)">
-            <summary>
-            Retrieve the ContainerExtensionConfigurationElement registered for the given
-            tag.
-            </summary>
-            <param name="tag">Tag to look up.</param>
-            <returns>Type of element, or null if not registered.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.GetParameterValueElementType(System.String)">
-            <summary>
-            Retrieve the ContainerExtensionConfigurationElement registered for the given
-            tag.
-            </summary>
-            <param name="tag">Tag to look up.</param>
-            <returns>Type of element, or null if not registered.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ExtensionElementMap.GetTagForExtensionElement(System.Configuration.ConfigurationElement)">
-            <summary>
-            Retrieve the correct tag to use when serializing the given
-            <paramref name="element"/> to XML.
-            </summary>
-            <param name="element">Element to be serialized.</param>
-            <returns>The tag for that element type.</returns>
-            <exception cref="T:System.ArgumentException"> if the element is of a type that
-            is not registered with the section already.</exception>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.InjectionMemberElementCollection">
-            <summary>
-            A polymorphic collection of <see cref="T:Microsoft.Practices.Unity.Configuration.InjectionMemberElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InjectionMemberElementCollection.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Causes the configuration system to throw an exception.
-            </summary>
-            <returns>
-            true if the unrecognized element was deserialized successfully; otherwise, false. The default is false.
-            </returns>
-            <param name="elementName">The name of the unrecognized element.</param>
-            <param name="reader">An input stream that reads XML from the configuration file. </param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element specified in <paramref name="elementName"/> is the &lt;clear&gt; element.
-            </exception><exception cref="T:System.ArgumentException"><paramref name="elementName"/> starts with the reserved prefix "config" or "lock".
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InjectionMemberElementCollection.CreateNewElement">
-            <summary>
-            When overridden in a derived class, creates a new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </summary>
-            <returns>
-            A new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InjectionMemberElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InjectionMemberElementCollection.Item(System.String)">
-            <summary>
-            Indexer that lets you access elements by their key.
-            </summary>
-            <param name="key">Key to retrieve element with.</param>
-            <returns>The element.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.InstanceElement">
-            <summary>
-            A configuration element that describes an instance to add to the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InstanceElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InstanceElement.ConfigureContainer(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Add the instance defined by this element to the given container.
-            </summary>
-            <param name="container">Container to configure.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InstanceElement.Name">
-            <summary>
-            Name to register instance under
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InstanceElement.Value">
-            <summary>
-            Value for this instance
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InstanceElement.TypeName">
-            <summary>
-            Type of the instance. If not given, defaults to string
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InstanceElement.TypeConverterTypeName">
-            <summary>
-            Type name for the type converter to use to create the instance. If not
-            given, defaults to the default type converter for this instance type.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.InstanceElement.Key">
-            <summary>
-            Key used to keep these instances unique in the config collection.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.InstanceElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.InstanceElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.InstanceElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.IValueProvidingElement">
-            <summary>
-            An element that has a child Value property.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.IValueProvidingElement.Value">
-            <summary>
-            String that will be deserialized to provide the value.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.IValueProvidingElement.DestinationName">
-            <summary>
-            A string describing where the value this element contains
-            is being used. For example, if setting a property Prop1,
-            this should return "property Prop1" (in english).
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.LifetimeElement">
-            <summary>
-            A configuration element that represents lifetime managers.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.LifetimeElement.CreateLifetimeManager">
-            <summary>
-            Create the <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> described by
-            this element.
-            </summary>
-            <returns>A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.LifetimeElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.LifetimeElement.TypeName">
-            <summary>
-            Type of the lifetime manager.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.LifetimeElement.Value">
-            <summary>
-            Extra initialization information used by the type converter for this lifetime manager.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.LifetimeElement.TypeConverterTypeName">
-            <summary>
-            Type of <see cref="T:System.ComponentModel.TypeConverter"/> to use to create the
-            lifetime manager.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.MethodElement">
-            <summary>
-            A configuration element representing a method to call.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.MethodElement.#ctor">
-            <summary>
-            Construct a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.MethodElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.MethodElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.MethodElement.GetInjectionMembers(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String)">
-            <summary>
-            Return the set of <see cref="T:Microsoft.Practices.Unity.InjectionMember"/>s that are needed
-            to configure the container according to this configuration element.
-            </summary>
-            <param name="container">Container that is being configured.</param>
-            <param name="fromType">Type that is being registered.</param>
-            <param name="toType">Type that <paramref name="fromType"/> is being mapped to.</param>
-            <param name="name">Name this registration is under.</param>
-            <returns>One or more <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects that should be
-            applied to the container registration.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.MethodElement.Name">
-            <summary>
-            Name of the method to call.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.MethodElement.Parameters">
-            <summary>
-            Parameters to the method call.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.MethodElement.Key">
-            <summary>
-            Each element must have a unique key, which is generated by the subclasses.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.MethodElement.ElementName">
-            <summary>
-            Element name to use to serialize this into XML.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.NamespaceElement">
-            <summary>
-            A configuration element representing the namespace
-            tags in the config file.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.NamespaceElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.NamespaceElement"/>s in configuration.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.NamespaceElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.OptionalElement">
-            <summary>
-            A configuration element that specifies that a value
-            is optional.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.OptionalElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.OptionalElement.GetInjectionParameterValue(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Generate an <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object
-            that will be used to configure the container for a type registration.
-            </summary>
-            <param name="container">Container that is being configured. Supplied in order
-            to let custom implementations retrieve services; do not configure the container
-            directly in this method.</param>
-            <param name="parameterType">Type of the </param>
-            <returns></returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.OptionalElement.Name">
-            <summary>
-            Name used to resolve the dependency, leave out or blank to resolve default.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.OptionalElement.TypeName">
-            <summary>
-            Type of dependency to resolve. If left out, resolved the type of
-            the containing parameter or property.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ParameterElement">
-            <summary>
-            Configuration element representing a parameter passed to a constructor
-            or a method.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.#ctor">
-            <summary>
-            Construct a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterElement"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.GetParameterValue(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Returns the required <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> needed
-            to configure the container so that the correct value is injected.
-            </summary>
-            <param name="container">Container being configured.</param>
-            <param name="parameterType">Type of the parameter.</param>
-            <returns>The value to use to configure the container.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.Matches(System.Reflection.ParameterInfo)">
-            <summary>
-            Does the information in this <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterElement"/> match
-            up with the given <paramref name="parameterInfo"/>?
-            </summary>
-            <param name="parameterInfo">Information about the parameter.</param>
-            <returns>True if this is a match, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.DeserializeElement(System.Xml.XmlReader,System.Boolean)">
-            <summary>
-            Reads XML from the configuration file.
-            </summary>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> that reads from the configuration file.</param>
-            <param name="serializeCollectionKey">true to serialize only the collection key properties; otherwise, false.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element to read is locked.
-            - or -
-            An attribute of the current node is not recognized.
-            - or -
-            The lock status of the current node cannot be determined.  
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.OnDeserializeUnrecognizedAttribute(System.String,System.String)">
-            <summary>
-            Gets a value indicating whether an unknown attribute is encountered during deserialization.
-            </summary>
-            <returns>
-            true when an unknown attribute is encountered while deserializing; otherwise, false.
-            </returns>
-            <param name="name">The name of the unrecognized attribute.</param>
-            <param name="value">The value of the unrecognized attribute.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Gets a value indicating whether an unknown element is encountered during deserialization.
-            </summary>
-            <returns>
-            true when an unknown element is encountered while deserializing; otherwise, false.
-            </returns>
-            <param name="elementName">The name of the unknown subelement.</param>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> being used for deserialization.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element identified by <paramref name="elementName"/> is locked.
-            - or -
-            One or more of the element's attributes is locked.
-            - or -
-            <paramref name="elementName"/> is unrecognized, or the element has an unrecognized attribute.
-            - or -
-            The element has a Boolean attribute with an invalid value.
-            - or -
-            An attempt was made to deserialize a property more than once.
-            - or -
-            An attempt was made to deserialize a property that is not a valid member of the element.
-            - or -
-            The element cannot contain a CDATA or text element.
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterElement.Name">
-            <summary>
-            Name of this parameter.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterElement.TypeName">
-            <summary>
-            Type of this parameter.
-            </summary>
-            <remarks>This is only needed in order to disambiguate method overloads. Normally
-            the parameter name is sufficient.</remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterElement.Value">
-            <summary>
-            Element that describes the value for this property.
-            </summary>
-            <remarks>
-            This is NOT marked as a ConfigurationProperty because this
-            child element is polymorphic, and the element tag determines
-            the type. Standard configuration properties only let you do
-            this if it's a collection, but we only want one value. Thus
-            the separate property. The element is deserialized in 
-            <see cref="M:Microsoft.Practices.Unity.Configuration.ParameterElement.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)"/>.</remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterElement.DestinationName">
-            <summary>
-            A string describing where the value this element contains
-            is being used. For example, if setting a property Prop1,
-            this should return "property Prop1" (in english).
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ParameterElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterElement"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ParameterValueElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.ParameterValueElement"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterValueElementCollection.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Causes the configuration system to throw an exception.
-            </summary>
-            <returns>
-            true if the unrecognized element was deserialized successfully; otherwise, false. The default is false.
-            </returns>
-            <param name="elementName">The name of the unrecognized element. </param>
-            <param name="reader">An input stream that reads XML from the configuration file. </param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element specified in <paramref name="elementName"/> is the &lt;clear&gt; element.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="elementName"/> starts with the reserved prefix "config" or "lock".</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterValueElementCollection.CreateNewElement">
-            <summary>
-            When overridden in a derived class, creates a new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </summary>
-            <returns>
-            A new <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ParameterValueElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterValueElementCollection.DeserializedElementHolder.Value">
-            <summary>
-            String that will be deserialized to provide the value.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ParameterValueElementCollection.DeserializedElementHolder.DestinationName">
-            <summary>
-            A string describing where the value this element contains
-            is being used. For example, if setting a property Prop1,
-            this should return "property Prop1" (in english).
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.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:Microsoft.Practices.Unity.Configuration.Properties.Resources.CannotCreateContainerConfiguringElement">
-            <summary>
-              Looks up a localized string similar to An abstract ContainerConfiguringElement cannot be created. Please specify a concrete type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.CannotCreateExtensionConfigurationElement">
-            <summary>
-              Looks up a localized string similar to An abstract ExtensionConfigurationElement object cannot be created. Please specify a concrete type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.CannotCreateInjectionMemberElement">
-            <summary>
-              Looks up a localized string similar to An abstract InjectionMemberElement object cannot be created. Please specify a concrete type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.CannotCreateParameterValueElement">
-            <summary>
-              Looks up a localized string similar to An abstract ParameterValueElement object cannot be created. Please specify a concrete type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.CouldNotResolveType">
-            <summary>
-              Looks up a localized string similar to The type name or alias {0} could not be resolved. Please check your configuration file and verify this type name..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.DependencyForGenericParameterWithTypeSet">
-            <summary>
-              Looks up a localized string similar to The dependency element for generic parameter {0} must not have an explicit type name but has &apos;{1}&apos;..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.DependencyForOptionalGenericParameterWithTypeSet">
-            <summary>
-              Looks up a localized string similar to The optional dependency element for generic parameter {0} must not have an explicit type name but has &apos;{1}&apos;..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.DestinationNameFormat">
-            <summary>
-              Looks up a localized string similar to {0} {1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.DuplicateParameterValueElement">
-            <summary>
-              Looks up a localized string similar to The injection configuration for {0} has multiple values..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ElementTypeNotRegistered">
-            <summary>
-              Looks up a localized string similar to The configuration element type {0} has not been registered with the section..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ElementWithAttributesAndParameterValueElements">
-            <summary>
-              Looks up a localized string similar to The injection configuration for {0} is specified through both attributes and child value elements..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ExtensionTypeNotFound">
-            <summary>
-              Looks up a localized string similar to Could not load section extension type {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ExtensionTypeNotValid">
-            <summary>
-              Looks up a localized string similar to The extension type {0} does not derive from SectionExtension..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.InvalidExtensionElementType">
-            <summary>
-              Looks up a localized string similar to The extension element type {0} that is being added does not derive from ContainerConfiguringElement, InjectionMemberElement, or ParameterValueElement. An extension element must derive from one of these types..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.InvalidValueAttributes">
-            <summary>
-              Looks up a localized string similar to No valid attributes were found to construct the value for the {0}. Please check the configuration file..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.NoMatchingConstructor">
-            <summary>
-              Looks up a localized string similar to Configuration is incorrect, the type {0} does not have a constructor that takes parameters named {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.NoMatchingMethod">
-            <summary>
-              Looks up a localized string similar to Configuration is incorrect, the type {0} does not have a method named {1} that takes parameters named {2}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.NoSuchContainer">
-            <summary>
-              Looks up a localized string similar to The container named &quot;{0}&quot; is not defined in this configuration section..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.NoSuchProperty">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a property named {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.NotAnArray">
-            <summary>
-              Looks up a localized string similar to The configuration is set to inject an array, but the type {0} is not an array type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.Parameter">
-            <summary>
-              Looks up a localized string similar to parameter.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.Property">
-            <summary>
-              Looks up a localized string similar to property.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.RequiredPropertyMissing">
-            <summary>
-              Looks up a localized string similar to The attribute {0} must be present and non-empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ValueNotAllowedForGenericArrayType">
-            <summary>
-              Looks up a localized string similar to The value element for {1} was specified for the generic array type {0}. Value elements are not allowed for generic array types..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ValueNotAllowedForGenericParameterType">
-            <summary>
-              Looks up a localized string similar to The value element for {1} was specified for the generic parameter type {0}. Value elements are not allowed for generic parameter types..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.Properties.Resources.ValueNotAllowedForOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The value element for {1} was specified for the generic type {0}. Value elements are not allowed for generic types..
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.PropertyElement">
-            <summary>
-            A class representing a property configuration element.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.PropertyElement.#ctor">
-            <summary>
-            Construct a new instance of <see cref="T:Microsoft.Practices.Unity.Configuration.PropertyElement"/>
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.PropertyElement.DeserializeElement(System.Xml.XmlReader,System.Boolean)">
-            <summary>
-            Reads XML from the configuration file.
-            </summary>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> that reads from the configuration file.</param>
-            <param name="serializeCollectionKey">true to serialize only the collection key properties; otherwise, false.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element to read is locked.
-            - or -
-            An attribute of the current node is not recognized.
-            - or -
-            The lock status of the current node cannot be determined.  
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.PropertyElement.OnDeserializeUnrecognizedAttribute(System.String,System.String)">
-            <summary>
-            Gets a value indicating whether an unknown attribute is encountered during deserialization.
-            </summary>
-            <returns>
-            true when an unknown attribute is encountered while deserializing; otherwise, false.
-            </returns>
-            <param name="name">The name of the unrecognized attribute.</param>
-            <param name="value">The value of the unrecognized attribute.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.PropertyElement.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Gets a value indicating whether an unknown element is encountered during deserialization.
-            </summary>
-            <returns>
-            true when an unknown element is encountered while deserializing; otherwise, false.
-            </returns>
-            <param name="elementName">The name of the unknown subelement.</param>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> being used for deserialization.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element identified by <paramref name="elementName"/> is locked.
-            - or -
-            One or more of the element's attributes is locked.
-            - or -
-            <paramref name="elementName"/> is unrecognized, or the element has an unrecognized attribute.
-            - or -
-            The element has a Boolean attribute with an invalid value.
-            - or -
-            An attempt was made to deserialize a property more than once.
-            - or -
-            An attempt was made to deserialize a property that is not a valid member of the element.
-            - or -
-            The element cannot contain a CDATA or text element.
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.PropertyElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.PropertyElement.GetInjectionMembers(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String)">
-            <summary>
-            Return the set of <see cref="T:Microsoft.Practices.Unity.InjectionMember"/>s that are needed
-            to configure the container according to this configuration element.
-            </summary>
-            <param name="container">Container that is being configured.</param>
-            <param name="fromType">Type that is being registered.</param>
-            <param name="toType">Type that <paramref name="fromType"/> is being mapped to.</param>
-            <param name="name">Name this registration is under.</param>
-            <returns>One or more <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects that should be
-            applied to the container registration.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.PropertyElement.Name">
-            <summary>
-            Name of the property that will be set.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.PropertyElement.Key">
-            <summary>
-            Each element must have a unique key, which is generated by the subclasses.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.PropertyElement.Value">
-            <summary>
-            String that will be deserialized to provide the value.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.PropertyElement.DestinationName">
-            <summary>
-            A string describing where the value this element contains
-            is being used. For example, if setting a property Prop1,
-            this should return "property Prop1" (in english).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.PropertyElement.ElementName">
-            <summary>
-            Element name to use to serialize this into XML.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.RegisterElement">
-            <summary>
-            A configuration element representing a single container type registration.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.RegisterElement.ConfigureContainer(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Apply the registrations from this element to the given container.
-            </summary>
-            <param name="container">Container to configure.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.RegisterElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.RegisterElement.TypeName">
-            <summary>
-            The type that is registered.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.RegisterElement.Name">
-            <summary>
-            Name registered under.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.RegisterElement.MapToName">
-            <summary>
-            Type that is mapped to.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.RegisterElement.Lifetime">
-            <summary>
-            Lifetime manager to register for this registration.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.RegisterElement.InjectionMembers">
-            <summary>
-            Any injection members (constructor, properties, etc.) that are specified for
-            this registration.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.RegisterElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.RegisterElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.RegisterElementCollection.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Causes the configuration system to throw an exception.
-            </summary>
-            <returns>
-            true if the unrecognized element was deserialized successfully; otherwise, false. The default is false.
-            </returns>
-            <param name="elementName">The name of the unrecognized element. </param>
-            <param name="reader">An input stream that reads XML from the configuration file. </param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element specified in <paramref name="elementName"/> is the &lt;clear&gt; element.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="elementName"/> starts with the reserved prefix "config" or "lock".</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.RegisterElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.SectionExtension">
-            <summary>
-            Base class for Unity configuration section extensions.
-            Derived classes are used to add custom elements and aliases
-            into the configuration section being loaded.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtension.AddExtensions(Microsoft.Practices.Unity.Configuration.SectionExtensionContext)">
-            <summary>
-            Add the extensions to the section via the context.
-            </summary>
-            <param name="context">Context object that can be used to add elements and aliases.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.SectionExtensionContext">
-            <summary>
-            An object that gives the ability to add
-            elements and aliases to a configuration section.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionContext.AddAlias(System.String,System.Type)">
-            <summary>
-            Add a new alias to the configuration section. This is useful
-            for those extensions that add commonly used types to configuration
-            so users don't have to alias them repeatedly.
-            </summary>
-            <param name="newAlias">The alias to use.</param>
-            <param name="aliasedType">Type the alias maps to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionContext.AddAlias``1(System.String)">
-            <summary>
-            Add a new alias to the configuration section. This is useful
-            for those extensions that add commonly used types to configuration
-            so users don't have to alias them repeatedly.
-            </summary>
-            <typeparam name="TAliased">Type the alias maps to.</typeparam>
-            <param name="alias">The alias to use</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionContext.AddElement(System.String,System.Type)">
-            <summary>
-            Add a new element to the configuration section schema.
-            </summary>
-            <param name="tag">Tag name in the XML.</param>
-            <param name="elementType">Type the tag maps to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionContext.AddElement``1(System.String)">
-            <summary>
-            Add a new element to the configuration section schema.
-            </summary>
-            <typeparam name="TElement">Type the tag maps to.</typeparam>
-            <param name="tag">Tag name in the XML.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.SectionExtensionElement">
-            <summary>
-            A configuration element used to specify which extensions to
-            add to the configuration schema.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionElement.DeserializeElement(System.Xml.XmlReader,System.Boolean)">
-            <summary>
-            Reads XML from the configuration file.
-            </summary>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> that reads from the configuration file.</param>
-            <param name="serializeCollectionKey">true to serialize only the collection key properties; otherwise, false.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">The element to read is locked.
-            - or -
-            An attribute of the current node is not recognized.
-            - or -
-            The lock status of the current node cannot be determined.  
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.SectionExtensionElement.TypeName">
-            <summary>
-            Type of the section extender object that will provide new elements to the schema.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.SectionExtensionElement.Prefix">
-            <summary>
-            Optional prefix that will be added to the element names added by this
-            section extender. If left out, no prefix will be added.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.SectionExtensionElement.ExtensionObject">
-            <summary>
-            The extension object represented by this element.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.SectionExtensionElementCollection">
-            <summary>
-            A collection of <see cref="T:Microsoft.Practices.Unity.Configuration.SectionExtensionElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.SectionExtensionElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
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-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolver">
-            <summary>
-            Type that manage access to a set of type aliases and implements
-            the logic for converting aliases to their actual types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolver.SetAliases(Microsoft.Practices.Unity.Configuration.UnityConfigurationSection)">
-            <summary>
-            Set the set of aliases to use for resolution.
-            </summary>
-            <param name="section">Configuration section containing the various
-            type aliases, namespaces and assemblies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolver.ResolveType(System.String)">
-            <summary>
-            Resolves a type alias or type FullName to a concrete type.
-            </summary>
-            <param name="typeNameOrAlias">Type alias or type FullName</param>
-            <returns>Type object or null if resolve fails.</returns>
-            <exception cref="T:System.InvalidOperationException">Thrown if alias lookup fails.</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolver.ResolveType(System.String,System.Boolean)">
-            <summary>
-            Resolves a type alias or type FullName to a concrete type.
-            </summary>
-            <param name="typeNameOrAlias">Alias or name to resolve.</param>
-            <param name="throwIfResolveFails">if true and the alias does not
-            resolve, throw an <see cref="T:System.InvalidOperationException"/>, otherwise 
-            return null on failure.</param>
-            <returns>The type object or null if resolve fails and 
-            <paramref name="throwIfResolveFails"/> is false.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolver.ResolveTypeWithDefault(System.String,System.Type)">
-            <summary>
-            Resolve a type alias or type full name to a concrete type.
-            If <paramref name="typeNameOrAlias"/> is null or empty, return the
-            given <paramref name="defaultValue"/> instead.
-            </summary>
-            <param name="typeNameOrAlias">Type alias or full name to resolve.</param>
-            <param name="defaultValue">Value to return if typeName is null or empty.</param>
-            <returns>The concrete <see cref="T:System.Type"/>.</returns>
-            <exception cref="T:System.InvalidOperationException">Thrown if alias lookup fails.</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolver.ResolveTypeWithDefault(System.String,System.Type,System.Boolean)">
-            <summary>
-            Resolve a type alias or type full name to a concrete type.
-            If <paramref name="typeNameOrAlias"/> is null or empty, return the
-            given <paramref name="defaultValue"/> instead.
-            </summary>
-            <param name="typeNameOrAlias">Type alias or full name to resolve.</param>
-            <param name="defaultValue">Value to return if typeName is null or empty.</param>
-            <param name="throwIfResolveFails">if true and the alias does not
-            resolve, throw an <see cref="T:System.InvalidOperationException"/>, otherwise 
-            return null on failure.</param>
-            <returns>The concrete <see cref="T:System.Type"/>.</returns>
-            <exception cref="T:System.InvalidOperationException">Thrown if alias lookup fails and
-            <paramref name="throwIfResolveFails"/> is true.</exception>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolverImpl">
-            <summary>
-            A helper class that implements the actual logic for resolving a shorthand
-            type name (alias or raw type name) into an actual type object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolverImpl.#ctor(System.Collections.Generic.IEnumerable{System.Collections.Generic.KeyValuePair{System.String,System.String}},System.Collections.Generic.IEnumerable{System.String},System.Collections.Generic.IEnumerable{System.String})">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolverImpl"/> that uses the given
-            sequence of alias, type name pairs to resolve types.
-            </summary>
-            <param name="aliasesSequence">Type aliases from the configuration file.</param>
-            <param name="assemblies">Assembly names to search.</param>
-            <param name="namespaces">Namespaces to search.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolverImpl.ResolveType(System.String,System.Boolean)">
-            <summary>
-            Resolves a type alias or type FullName to a concrete type.
-            </summary>
-            <param name="typeNameOrAlias">Alias or name to resolve.</param>
-            <param name="throwIfResolveFails">if true and the alias does not
-            resolve, throw an <see cref="T:System.InvalidOperationException"/>, otherwise 
-            return null on failure.</param>
-            <returns>The type object or null if resolve fails and 
-            <paramref name="throwIfResolveFails"/> is false.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ConfigurationHelpers.TypeResolverImpl.ResolveTypeWithDefault(System.String,System.Type,System.Boolean)">
-            <summary>
-            Resolve a type alias or type full name to a concrete type.
-            If <paramref name="typeNameOrAlias"/> is null or empty, return the
-            given <paramref name="defaultValue"/> instead.
-            </summary>
-            <param name="typeNameOrAlias">Type alias or full name to resolve.</param>
-            <param name="defaultValue">Value to return if typeName is null or empty.</param>
-            <param name="throwIfResolveFails">if true and the alias does not
-            resolve, throw an <see cref="T:System.InvalidOperationException"/>, otherwise 
-            return null on failure.</param>
-            <returns>
-            <para>If <paramref name="typeNameOrAlias"/> is null or an empty string,
-            then return <paramref name="defaultValue"/>.</para>
-            <para>Otherwise, return the resolved type object. If the resolution fails
-            and <paramref name="throwIfResolveFails"/> is false, then return null.</para>
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection">
-            <summary>
-            A configuration section describing configuration for an <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/>.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.SectionName">
-            <summary>
-            The name of the section where unity configuration is expected to be found.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.XmlNamespace">
-            <summary>
-            XML Namespace string used for IntelliSense in this section.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.Configure(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Apply the configuration in the default container element to the given container.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <returns>The passed in <paramref name="container"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.Configure(Microsoft.Practices.Unity.IUnityContainer,System.String)">
-            <summary>
-            Apply the configuration in the default container element to the given container.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="configuredContainerName">Name of the container element to use to configure the container.</param>
-            <returns>The passed in <paramref name="container"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.DeserializeSection(System.Xml.XmlReader)">
-            <summary>
-            Reads XML from the configuration file.
-            </summary>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> object, which reads from the configuration file. </param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException"><paramref name="reader"/> found no elements in the configuration file.</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.OnDeserializeUnrecognizedElement(System.String,System.Xml.XmlReader)">
-            <summary>
-            Gets a value indicating whether an unknown element is encountered during deserialization.
-            </summary>
-            <returns>
-            true when an unknown element is encountered while deserializing; otherwise, false.
-            </returns>
-            <param name="elementName">The name of the unknown subelement.</param>
-            <param name="reader">The <see cref="T:System.Xml.XmlReader"/> being used for deserialization.</param>
-            <exception cref="T:System.Configuration.ConfigurationErrorsException">
-                                The element identified by <paramref name="elementName"/> is locked.
-                                - or -
-                                One or more of the element's attributes is locked.
-                                - or -
-                            <paramref name="elementName"/> is unrecognized, or the element has an unrecognized attribute.
-                                - or -
-                                The element has a Boolean attribute with an invalid value.
-                                - or -
-                                An attempt was made to deserialize a property more than once.
-                                - or -
-                                An attempt was made to deserialize a property that is not a valid member of the element.
-                                - or -
-                                The element cannot contain a CDATA or text element.
-            </exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.SerializeSection(System.Configuration.ConfigurationElement,System.String,System.Configuration.ConfigurationSaveMode)">
-            <summary>
-            Creates an XML string containing an unmerged view of the <see cref="T:System.Configuration.ConfigurationSection"/> object as a single section to write to a file.
-            </summary>
-            <returns>
-            An XML string containing an unmerged view of the <see cref="T:System.Configuration.ConfigurationSection"/> object.
-            </returns>
-            <param name="parentElement">The <see cref="T:System.Configuration.ConfigurationElement"/> instance to use as the parent when performing the un-merge.</param>
-            <param name="name">The name of the section to create.</param>
-            <param name="saveMode">The <see cref="T:System.Configuration.ConfigurationSaveMode"/> instance to use when writing to a string.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.CurrentSection">
-            <summary>
-            The current <see cref="T:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection"/> that is being deserialized
-            or being configured from.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.Xmlns">
-            <summary>
-            Storage for XML namespace. The namespace isn't used or validated by config, but
-            it is useful for Visual Studio XML IntelliSense to kick in.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.Containers">
-            <summary>
-            The set of containers defined in this configuration section.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.TypeAliases">
-            <summary>
-            The set of type aliases defined in this configuration file.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.SectionExtensions">
-            <summary>
-            Any schema extensions that are added.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.Namespaces">
-            <summary>
-            Any namespaces added to the type search list.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.Assemblies">
-            <summary>
-            Any assemblies added to the type search list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.ExtensionContext.AddAlias(System.String,System.Type)">
-            <summary>
-            Add a new alias to the configuration section. This is useful
-            for those extensions that add commonly used types to configuration
-            so users don't have to alias them repeatedly.
-            </summary>
-            <param name="newAlias">The alias to use.</param>
-            <param name="aliasedType">Type the alias maps to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityConfigurationSection.ExtensionContext.AddElement(System.String,System.Type)">
-            <summary>
-            Add a new element to the configuration section schema.
-            </summary>
-            <param name="tag">Tag name in the XML.</param>
-            <param name="elementType">Type the tag maps to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ContainerElementCollection">
-            <summary>
-            Collection element for <see cref="T:Microsoft.Practices.Unity.Configuration.ContainerElement"/>s.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElementCollection.GetElement(System.Int32)">
-            <summary>
-            Plug point to get objects out of the collection.
-            </summary>
-            <param name="index">Index in the collection to retrieve the item from.</param>
-            <returns>Item at that index or null if not present.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElementCollection.GetElement(System.Object)">
-            <summary>
-            Plug point to get objects out of the collection.
-            </summary>
-            <param name="key">Key to look up the object by.</param>
-            <returns>Item with that key or null if not present.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ContainerElementCollection.GetElementKey(System.Configuration.ConfigurationElement)">
-            <summary>
-            Gets the element key for a specified configuration element when overridden in a derived class.
-            </summary>
-            <returns>
-            An <see cref="T:System.Object"/> that acts as the key for the specified <see cref="T:System.Configuration.ConfigurationElement"/>.
-            </returns>
-            <param name="element">The <see cref="T:System.Configuration.ConfigurationElement"/> to return the key for. </param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElementCollection.Item(System.String)">
-            <summary>
-            Retrieve a stored <see cref="T:Microsoft.Practices.Unity.Configuration.ContainerElement"/> by name.
-            </summary>
-            <param name="name">Name to look up.</param>
-            <returns>The stored container or null if not in the collection.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ContainerElementCollection.Default">
-            <summary>
-            Return the default container in the collection. The default is the one without a name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.UnityContainerExtensions">
-            <summary>
-            Extensions to <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> to simplify
-            loading configuration into a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityContainerExtensions.LoadConfiguration(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.Configuration.UnityConfigurationSection,System.String)">
-            <summary>
-            Apply configuration from the given section and named container
-            into the given container.
-            </summary>
-            <param name="container">Unity container to configure.</param>
-            <param name="section">Configuration section with config information.</param>
-            <param name="containerName">Named container.</param>
-            <returns><paramref name="container"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityContainerExtensions.LoadConfiguration(Microsoft.Practices.Unity.IUnityContainer,System.String)">
-            <summary>
-            Apply configuration from the default section (named "unity" pulled out of
-            ConfigurationManager) and the named container.
-            </summary>
-            <param name="container">Unity container to configure.</param>
-            <param name="containerName">Named container element in configuration.</param>
-            <returns><paramref name="container"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityContainerExtensions.LoadConfiguration(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Apply configuration from the default section and unnamed container element.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <returns><paramref name="container"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.UnityContainerExtensions.LoadConfiguration(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.Configuration.UnityConfigurationSection)">
-            <summary>
-            Apply configuration from the default container in the given section.
-            </summary>
-            <param name="container">Unity container to configure.</param>
-            <param name="section">Configuration section.</param>
-            <returns><paramref name="container"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Configuration.ValueElement">
-            <summary>
-            Element that describes a constant value that will be
-            injected into the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ValueElement.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.Configuration.ValueElement"/> object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ValueElement.#ctor(System.Collections.Generic.IDictionary{System.String,System.String})">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.Configuration.ValueElement"/> object,
-            initializing properties from the contents of
-            <paramref name="propertyValues"/>.
-            </summary>
-            <param name="propertyValues">Name/value pairs which
-            contain the values to initialize properties to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ValueElement.Microsoft#Practices#Unity#Configuration#IAttributeOnlyElement#SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>.
-            </summary>
-            <remarks>The caller of this method has already written the start element tag before
-            calling this method, so deriving classes only need to write the element content, not
-            the start or end tags.</remarks>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ValueElement.SerializeContent(System.Xml.XmlWriter)">
-            <summary>
-            Write the contents of this element to the given <see cref="T:System.Xml.XmlWriter"/>. This
-            method always outputs an explicit &lt;dependency&gt; tag, instead of providing
-            attributes to the parent method.
-            </summary>
-            <param name="writer">Writer to send XML content to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Configuration.ValueElement.GetInjectionParameterValue(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Generate an <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object
-            that will be used to configure the container for a type registration.
-            </summary>
-            <param name="container">Container that is being configured. Supplied in order
-            to let custom implementations retrieve services; do not configure the container
-            directly in this method.</param>
-            <param name="parameterType">Type of the parameter to get the value for.</param>
-            <returns>The required <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ValueElement.Value">
-            <summary>
-            Value for this element
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Configuration.ValueElement.TypeConverterTypeName">
-            <summary>
-            
-            </summary>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.Configuration.dll b/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.Configuration.dll
deleted file mode 100644
index 870581c..0000000
Binary files a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.Configuration.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.RegistrationByConvention.XML b/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.RegistrationByConvention.XML
deleted file mode 100644
index 7846440..0000000
--- a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.RegistrationByConvention.XML
+++ /dev/null
@@ -1,328 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Microsoft.Practices.Unity.RegistrationByConvention</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.Unity.AllClasses">
-            <summary>
-            Provides helper methods to retrieve classes from assemblies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Reflection.Assembly[])">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>.
-            </summary>
-            <param name="assemblies">The assemblies.</param>
-            <returns>All visible, non-abstract classes found in the assemblies.</returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>All exceptions thrown while getting types from the assemblies are ignored, and the types that can be retrieved are returned.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Boolean,System.Reflection.Assembly[])">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>, and optionally skips errors.
-            </summary>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <param name="assemblies">The assemblies.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>
-            If <paramref name="skipOnError"/> is <see langword="true"/>, all exceptions thrown while getting types from the assemblies are ignored, and the types 
-            that can be retrieved are returned; otherwise, the original exception is thrown.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Collections.Generic.IEnumerable{System.Reflection.Assembly},System.Boolean)">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>.
-            </summary>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <param name="assemblies">The assemblies.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>
-            If <paramref name="skipOnError"/> is <see langword="true"/>, all exceptions thrown while getting types from the assemblies are ignored, and the types 
-            that can be retrieved are returned; otherwise, the original exception is thrown.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromLoadedAssemblies(System.Boolean,System.Boolean,System.Boolean,System.Boolean)">
-            <summary>
-            Returns all visible, non-abstract classes from all assemblies that are loaded in the current application domain.
-            </summary>
-            <param name="includeSystemAssemblies"><see langword="false" /> to include system assemblies; otherwise, <see langword="false" />. Defaults to <see langword="false" />.</param>
-            <param name="includeUnityAssemblies"><see langword="false" /> to include the Unity assemblies; otherwise, <see langword="false" />. Defaults to <see langword="false" />.</param>
-            <param name="includeDynamicAssemblies"><see langword="false" /> to include dynamic assemblies; otherwise, <see langword="false" />. Defaults to <see langword="false" />.</param>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <returns>
-            All visible, non-abstract classes in the loaded assemblies.
-            </returns>
-            <remarks>
-            If <paramref name="skipOnError" /> is <see langword="true" />, all exceptions thrown while getting types from the assemblies are ignored, and the types
-            that can be retrieved are returned; otherwise, the original exception is thrown.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssembliesInBasePath(System.Boolean,System.Boolean,System.Boolean)">
-            <summary>
-            Returns all visible, non-abstract classes from all assemblies that are located in the base folder of the current application domain.
-            </summary>
-            <param name="includeSystemAssemblies"><see langword="false" /> to include system assemblies; otherwise, <see langword="false" />. Defaults to <see langword="false" />.</param>
-            <param name="includeUnityAssemblies"><see langword="false" /> to include the Unity assemblies; otherwise, <see langword="false" />. Defaults to <see langword="false" />.</param>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <remarks>
-            If <paramref name="skipOnError" /> is <see langword="true" />, all exceptions thrown while loading assemblies or getting types from the assemblies are ignored, and the types
-            that can be retrieved are returned; otherwise, the original exception is thrown.
-            </remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DuplicateTypeMappingException">
-            <summary>
-            The exception that is thrown when registering multiple types would result in an type mapping being overwritten.
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-        </member>
-        <member name="M:Microsoft.Practices.Unity.DuplicateTypeMappingException.#ctor(System.String,System.Type,System.Type,System.Type)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.DuplicateTypeMappingException"/> class.
-            </summary>
-            <param name="name">The name for the mapping.</param>
-            <param name="mappedFromType">The source type for the mapping.</param>
-            <param name="currentMappedToType">The type currently mapped.</param>
-            <param name="newMappedToType">The new type to map.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.Name">
-            <summary>
-            Gets the name for the mapping.
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-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.MappedFromType">
-            <summary>
-            Gets the source type for the mapping.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.CurrentMappedToType">
-            <summary>
-            Gets the type currently mapped.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.NewMappedToType">
-            <summary>
-            Gets the new type to map.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.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:Microsoft.Practices.Unity.Properties.Resources.DuplicateTypeMappingException">
-            <summary>
-              Looks up a localized string similar to An attempt to override an existing mapping was detected for type {1} with name &quot;{0}&quot;, currently mapped to type {2}, to type {3}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ExceptionNullAssembly">
-            <summary>
-              Looks up a localized string similar to The set of assemblies contains a null element..
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegistrationConvention">
-            <summary>
-            Represents a set of types to register and their registration settings.
-            </summary>
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-            <summary>
-            Gets types to register.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetFromTypes">
-            <summary>
-            Gets a function to get the types that will be requested for each type to configure.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetName">
-            <summary>
-            Gets a function to get the name to use for the registration of each type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetLifetimeManager">
-            <summary>
-            Gets a function to get the <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the registration of each type. Defaults to no lifetime management.
-            </summary>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetInjectionMembers">
-            <summary>
-            Gets a function to get the additional <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects for the registration of each type. Defaults to no injection members.
-            </summary>
-            <returns></returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerRegistrationByConventionExtensions">
-            <summary>
-            Provides a set of convenience overloads to the
-            <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> interface to support registration of multiple types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerRegistrationByConventionExtensions.RegisterTypes(Microsoft.Practices.Unity.IUnityContainer,System.Collections.Generic.IEnumerable{System.Type},System.Func{System.Type,System.Collections.Generic.IEnumerable{System.Type}},System.Func{System.Type,System.String},System.Func{System.Type,Microsoft.Practices.Unity.LifetimeManager},System.Func{System.Type,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionMember}},System.Boolean)">
-            <summary>
-            Registers the supplied types by using the specified rules for name, lifetime manager, injection members, and registration types.
-            </summary>
-            <param name="container">The container to configure.</param>
-            <param name="types">The types to register. The methods in the <see cref="T:Microsoft.Practices.Unity.AllClasses"/> class can be used to scan assemblies to get types, and further filtering can be performed using LINQ queries.</param>
-            <param name="getFromTypes">A function that gets the types that will be requested for each type to configure. It can be a method from the <see cref="T:Microsoft.Practices.Unity.WithMappings"/> class or a custom function. Defaults to no registration types, and registers only the supplied types.</param>
-            <param name="getName">A function that gets the name to use for the registration of each type. It can be a method from the <see cref="T:Microsoft.Practices.Unity.WithName"/> or a custom function. Defaults to no name.</param>
-            <param name="getLifetimeManager">A function that gets the <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the registration of each type. It can be a method from the <see cref="T:Microsoft.Practices.Unity.WithLifetime"/> class or a custom function. Defaults to no lifetime management.</param>
-            <param name="getInjectionMembers">A function that gets the additional <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects for the registration of each type. Defaults to no injection members.</param>
-            <param name="overwriteExistingMappings"><see langword="true"/> to overwrite existing mappings; otherwise, <see langword="false"/>. Defaults to <see langword="false"/>.</param>
-            <returns>
-            The container that this method was called on.
-            </returns>
-            <exception cref="T:System.ArgumentException">A new registration would overwrite an existing mapping and <paramref name="overwriteExistingMappings"/> is <see langword="false"/>.</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerRegistrationByConventionExtensions.RegisterTypes(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.RegistrationConvention,System.Boolean)">
-            <summary>
-            Registers the types according to the <paramref name="convention"/>.
-            </summary>
-            <param name="container">The container to configure.</param>
-            <param name="convention">The convention to determine which types will be registered and how.</param>
-            <param name="overwriteExistingMappings"><see langword="true"/> to overwrite existing mappings; otherwise, <see langword="false"/>. Defaults to <see langword="false"/>.</param>
-            <returns>
-            The container that this method was called on.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.WithLifetime">
-            <summary>
-            Provides helper methods to specify the lifetime for a type with registration by convention.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.None(System.Type)">
-            <summary>
-            Returns a <see langword="null"/> <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A lifetime manager</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.ContainerControlled(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A container controlled lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.ExternallyControlled(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>An externally controlled lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.Hierarchical(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.HierarchicalLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A hierarchical lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.PerResolve(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A per resolve lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.Transient(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.TransientLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A transient lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.Custom``1(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="T">The custom <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> type.</typeparam>
-            <param name="type">The type.</param>
-            <returns>
-            A lifetime manager.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.PerThread(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.PerThreadLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A per thread lifetime manager.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.WithMappings">
-            <summary>
-            Provides helper methods to map types to the types interfaces to which register them.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.None(System.Type)">
-            <summary>
-            Returns no types.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An empty enumeration.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.FromMatchingInterface(System.Type)">
-            <summary>
-            Returns an enumeration with the interface that matches the name of <paramref name="implementationType"/>.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An enumeration with the first interface matching the name of <paramref name="implementationType"/> (for example, if type is MyType, a matching interface is IMyType),
-            or an empty enumeration if no such interface is found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.FromAllInterfaces(System.Type)">
-            <summary>
-            Returns an enumeration with all the interfaces implemented by <paramref name="implementationType"/>.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An enumeration with all the interfaces implemented by the implementation type except <see cref="T:System.IDisposable"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.FromAllInterfacesInSameAssembly(System.Type)">
-            <summary>
-            Returns an enumeration with all the interfaces implemented by <paramref name="implementationType"/> that belong to the same assembly as implementationType.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An enumeration with all the interfaces implemented by the implementation type that belong to the same assembly.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.WithName">
-            <summary>
-            Provides helper methods to get type names.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithName.TypeName(System.Type)">
-            <summary>
-            Returns the type name.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>The type name.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithName.Default(System.Type)">
-            <summary>
-            Returns null for the registration name.
-            </summary>
-            <param name="type">The type.</param>
-            <returns><see langword="null"/></returns>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.RegistrationByConvention.dll b/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.RegistrationByConvention.dll
deleted file mode 100644
index fc76a46..0000000
Binary files a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.RegistrationByConvention.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.dll b/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.dll
deleted file mode 100644
index 0d8c004..0000000
Binary files a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.xml b/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.xml
deleted file mode 100644
index f99ca70..0000000
--- a/src/packages/Unity.4.0.1/lib/net45/Microsoft.Practices.Unity.xml
+++ /dev/null
@@ -1,5916 +0,0 @@
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-<doc>
-    <assembly>
-        <name>Microsoft.Practices.Unity</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.Unity.IRegisteredNamesPolicy">
-            <summary>
-            Provides access to the names registered for a container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy">
-            <summary>
-            Represents a builder policy interface. Since there are no fixed requirements
-            for policies, it acts as a marker interface from which to derive all other
-            policy interfaces.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IRegisteredNamesPolicy.GetRegisteredNames(System.Type)">
-            <summary>
-            Gets the names registered for a type.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>The names registered for <paramref name="type"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LazyDynamicMethodBuildPlanCreatorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy"/> implementation
-            that constructs a build plan for creating <see cref="T:System.Lazy`1"/> objects.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that can create and return an <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy"/>
-            for the given build key.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Create a build plan using the given context and build key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="buildKey">Current build key.</param>
-            <returns>The build plan.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LazyDynamicMethodBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Creates a build plan using the given context and build key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="buildKey">Current build key.</param>
-            <returns>
-            The build plan.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions">
-            <summary>
-            Provides extension methods to the <see cref="T:System.Type"/> class due to the introduction 
-            of <see cref="T:System.Reflection.TypeInfo"/> class in the .NET for Windows Store apps.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetConstructor(System.Type,System.Type[])">
-            <summary>
-            Returns the constructor in <paramref name="type"/> that matches the specified constructor parameter types.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <param name="constructorParameters">The constructor parameter types.</param>
-            <returns>The constructor that matches the specified parameter types.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetMethodsHierarchical(System.Type)">
-            <summary>
-            Returns the non-static declared methods of a type or its base types.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <returns>An enumerable of the <see cref="T:System.Reflection.MethodInfo"/> objects.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetMethodHierarchical(System.Type,System.String,System.Type[])">
-            <summary>
-            Returns the non-static method of a type or its based type.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <param name="methodName">The name of the method to seek.</param>
-            <param name="closedParameters">The (closed) parameter type signature of the method.</param>
-            <returns>The discovered <see cref="T:System.Reflection.MethodInfo"/></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetPropertiesHierarchical(System.Type)">
-            <summary>
-            Returns the declared properties of a type or its base types.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <returns>An enumerable of the <see cref="T:System.Reflection.PropertyInfo"/> objects.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.ParametersMatch(System.Reflection.ParameterInfo[],System.Type[])">
-            <summary>
-            Determines if the types in a parameter set ordinally matches the set of supplied types.
-            </summary>
-            <param name="parameters"></param>
-            <param name="closedConstructorParameterTypes"></param>
-            <returns></returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyResolutionAttribute">
-            <summary>
-            Base class for attributes that can be placed on parameters
-            or properties to specify how to resolve the value for
-            that parameter or property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyResolutionAttribute.CreateResolver(System.Type)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            will be used to get the value for the member this attribute is
-            applied to.
-            </summary>
-            <param name="typeToResolve">Type of parameter or property that
-            this attribute is decoration.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionConstructorAttribute">
-            <summary>
-            This attribute is used to indicate which constructor to choose when
-            the container attempts to build a type.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMethodAttribute">
-            <summary>
-            This attribute is used to mark methods that should be called when
-            the container is building an object.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyAttribute">
-            <summary>
-            This attribute is used to mark properties and parameters as targets for injection.
-            </summary>
-            <remarks>
-            For properties, this attribute is necessary for injection to happen. For parameters,
-            it's not needed unless you want to specify additional information to control how
-            the parameter is resolved.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyAttribute.#ctor">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> with no name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyAttribute.#ctor(System.String)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> with the given name.
-            </summary>
-            <param name="name">Name to use when resolving this dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyAttribute.CreateResolver(System.Type)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            will be used to get the value for the member this attribute is
-            applied to.
-            </summary>
-            <param name="typeToResolve">Type of parameter or property that
-            this attribute is decoration.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DependencyAttribute.Name">
-            <summary>
-            The name specified in the constructor.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalDependencyAttribute">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.DependencyResolutionAttribute"/> used to mark a dependency
-            as optional - the container will try to resolve it, and return null
-            if the resolution fails rather than throw.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyAttribute.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyAttribute"/> object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyAttribute.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyAttribute"/> object that
-            specifies a named dependency.
-            </summary>
-            <param name="name">Name of the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyAttribute.CreateResolver(System.Type)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            will be used to get the value for the member this attribute is
-            applied to.
-            </summary>
-            <param name="typeToResolve">Type of parameter or property that
-            this attribute is decoration.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyAttribute.Name">
-            <summary>
-            Name of the dependency.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.CompositeResolverOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that composites other
-            ResolverOverride objects. The GetResolver operation then
-            returns the resolver from the first child override that
-            matches the current context and request.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolverOverride">
-            <summary>
-            Base class for all override objects passed in the
-            <see cref="M:Microsoft.Practices.Unity.IUnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])"/> method.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.OnType``1">
-            <summary>
-            Wrap this resolver in one that verifies the type of the object being built.
-            This allows you to narrow any override down to a specific type easily.
-            </summary>
-            <typeparam name="T">Type to constrain the override to.</typeparam>
-            <returns>The new override.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.OnType(System.Type)">
-            <summary>
-            Wrap this resolver in one that verifies the type of the object being built.
-            This allows you to narrow any override down to a specific type easily.
-            </summary>
-            <param name="typeToOverride">Type to constrain the override to.</param>
-            <returns>The new override.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.Add(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> to the collection
-            that is checked.
-            </summary>
-            <param name="newOverride">item to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.AddRange(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the collection.
-            </summary>
-            <param name="newOverrides">items to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerRegistration">
-            <summary>
-            Class that returns information about the types registered in a container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.RegisteredType">
-            <summary>
-            The type that was passed to the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method
-            as the "from" type, or the only type if type mapping wasn't done.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.MappedToType">
-            <summary>
-            The type that this registration is mapped to. If no type mapping was done, the
-            <see cref="P:Microsoft.Practices.Unity.ContainerRegistration.RegisteredType"/> property and this one will have the same value.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.Name">
-            <summary>
-            Name the type was registered under. Null for default registration.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.LifetimeManagerType">
-            <summary>
-            The registered lifetime manager instance.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.LifetimeManager">
-            <summary>
-            The lifetime manager for this registration.
-            </summary>
-            <remarks>
-            This property will be null if this registration is for an open generic.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that overrides
-            the value injected whenever there is a dependency of the
-            given type, regardless of where it appears in the object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> to override
-            the given type with the given value.
-            </summary>
-            <param name="typeToConstruct">Type of the dependency.</param>
-            <param name="dependencyValue">Value to use.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> that lets you
-            specify the dependency type using generic syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency to override.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride`1.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.DependencyOverride`1"/> object that will
-            override the given dependency, and pass the given value.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-            <remarks>
-            This class isn't really a collection, it just implements IEnumerable
-            so that we get use of the nice C# collection initializer syntax.
-            </remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OverrideCollection`3">
-            <summary>
-            Base helper class for creating collections of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects
-            for use in passing a bunch of them to the resolve call. This base class provides
-            the mechanics needed to allow you to use the C# collection initializer syntax.
-            </summary>
-            <typeparam name="TOverride">Concrete type of the <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> this class collects.</typeparam>
-            <typeparam name="TKey">Key used to create the underlying override object.</typeparam>
-            <typeparam name="TValue">Value that the override returns.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)">
-            <summary>
-            Add a new override to the collection with the given key and value.
-            </summary>
-            <param name="key">Key - for example, a parameter or property name.</param>
-            <param name="value">Value - the value to be returned by the override.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.MakeOverride(`1,`2)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverrides.MakeOverride(System.Type,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.#ctor(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs"/> object with the
-            given child container object.
-            </summary>
-            <param name="childContext">An <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> for the newly created child
-            container.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContainer">
-            <summary>
-            The newly created child container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContext">
-            <summary>
-            An extension context for the created child container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameterBase">
-            <summary>
-            Base class for <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> subclasses that let you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameterValue">
-            <summary>
-            Base type for objects that are used to configure parameters for
-            constructor or method injection, or for getting the value to
-            be injected into a property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])">
-            <summary>
-            Convert the given set of arbitrary values to a sequence of InjectionParameterValue
-            objects. The rules are: If it's already an InjectionParameterValue, return it. If
-            it's a Type, return a ResolvedParameter object for that type. Otherwise return
-            an InjectionParameter object for that value.
-            </summary>
-            <param name="values">The values to build the sequence from.</param>
-            <returns>The resulting converted sequence.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameter(System.Object)">
-            <summary>
-            Convert an arbitrary value to an InjectionParameterValue object. The rules are: 
-            If it's already an InjectionParameterValue, return it. If it's a Type, return a
-            ResolvedParameter object for that type. Otherwise return an InjectionParameter
-            object for that value.
-            </summary>
-            <param name="value">The value to convert.</param>
-            <returns>The resulting <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.InjectionParameterValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericParameterBase.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalGenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved, providing the <see langword="null"/>
-            value if resolving fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionFactory">
-            <summary>
-            A class that lets you specify a factory method the container
-            will use to create the object.
-            </summary>
-            <remarks>This is a significantly easier way to do the same
-            thing the old static factory extension was used for.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMember">
-            <summary>
-            Base class for objects that can be used to configure what
-            class members get injected by the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="typeToCreate">Type to register.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null. This parameter is ignored in this implementation.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that can be passed to
-            <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> to configure a
-            parameter or property as an optional dependency.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypedInjectionValue">
-            <summary>
-            A base class for implementing <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> classes
-            that deal in explicit types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.TypedInjectionValue"/> that exposes
-            information about the given <paramref name="parameterType"/>.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterType">
-            <summary>
-            The type of parameter this object represents.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/> and <paramref name="name"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-            <param name="name">Name for the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.OptionalParameter"></see> that lets you
-            specify the type of the dependency using generics syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/> with the given
-            <paramref name="name"/>.
-            </summary>
-            <param name="name">Name of the dependency.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeManager">
-            <summary>
-            A special lifetime manager which works like <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/>,
-            except that in the presence of child containers, each child gets it's own instance
-            of the object, instead of sharing one in the common parent.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds onto the instance given to it.
-            When the <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/> is disposed,
-            the instance is disposed with it.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager">
-            <summary>
-            Base class for Lifetime managers which need to synchronize calls to
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.
-            </summary>
-            <remarks>
-            <para>
-            The purpose of this class is to provide a basic implementation of the lifetime manager synchronization pattern.
-            </para>
-            <para>
-            Calls to the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/> method of a <see cref="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager"/> 
-            instance acquire a lock, and if the instance has not been initialized with a value yet the lock will only be released 
-            when such an initialization takes place by calling the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/> method or if 
-            the build request which resulted in the call to the GetValue method fails.
-            </para>
-            </remarks>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManager">
-            <summary>
-            Base class for Lifetime managers - classes that control how
-            and when instances are created by the Unity container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that controls how instances are
-            persisted and recovered from an external store. Used to implement
-            things like singletons and per-http-request lifetime.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.RemoveValue">
-            <summary>
-            Remove the value this lifetime policy is managing from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery">
-            <summary>
-            This interface provides a hook for the builder context to
-            implement error recovery when a builder strategy throws
-            an exception. Since we can't get try/finally blocks onto
-            the call stack for later stages in the chain, we instead
-            add these objects to the context. If there's an exception,
-            all the current IRequiresRecovery instances will have
-            their Recover methods called.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>Calls to this method acquire a lock which is released only if a non-null value
-            has been set for the lifetime manager.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Performs the actual retrieval of a value from the backing store associated 
-            with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>
-            after it has acquired its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>Setting a value will attempt to release the lock acquired by 
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Performs the actual storage of the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/>
-            before releasing its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose(System.Boolean)">
-            <summary>
-            Standard Dispose pattern implementation. Not needed, but it keeps FxCop happy.
-            </summary>
-            <param name="disposing">Always true, since we don't have a finalizer.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerResolveLifetimeManager">
-            <summary>
-            This is a custom lifetime manager that acts like <see cref="T:Microsoft.Practices.Unity.TransientLifetimeManager"/>,
-            but also provides a signal to the default build plan, marking the type so that
-            instances are reused across the build up object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that does not
-            itself manage an instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that stores the
-            give value. This value will be returned by <see cref="M:Microsoft.Practices.Unity.LifetimeManager.GetValue"/>
-            but is not stored in the lifetime manager, nor is the value disposed.
-            This Lifetime manager is intended only for internal use, which is why the
-            normal <see cref="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)"/> method is not used here.
-            </summary>
-            <param name="value">Value to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later. In this class,
-            this is a noop, since it has special hooks down in the guts.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store. Noop in this class.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy">
-            <summary>
-            A strategy that handles Hierarchical lifetimes across a set of parent/child
-            containers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown. Although you
-            can implement this interface directly, you may also choose to use
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> as the base class for your strategies, as
-            this class provides useful helper methods and makes support BuildUp and TearDown
-            optional.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that will attempt to
-            resolve a value, and return null if it cannot rather than throwing.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy">
-            <summary>
-            A strategy that is used at build plan execution time
-            to resolve a dependent value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given name and type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-            <param name="name">Name to resolve with.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.DependencyType">
-            <summary>
-            Type this resolver will resolve.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Name">
-            <summary>
-            Name this resolver will resolve.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions">
-            <summary>
-            Extension methods on <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to provide convenience
-            overloads (generic versions, mostly).
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Clear``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.ClearDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Set``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.SetDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface to register the policy under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildOperation">
-            <summary>
-            Base class for the current operation stored in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildOperation.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildOperation"/>.
-            </summary>
-            <param name="typeBeingConstructed">Type currently being built.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuildOperation.TypeBeingConstructed">
-            <summary>
-            The type that's currently being built.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DeferredResolveBuildPlanPolicy">
-            <summary>
-            Build plan for <see cref="T:System.Func`1"/> that will return a Func that will resolve the requested type
-            through this container later.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy">
-            <summary>
-            A build plan is an object that, when invoked, will create a new object
-            or fill in a given existing one. It encapsulates all the information
-            gathered by the strategies to construct a particular object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.OverriddenBuildPlanMarkerPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions">
-            <summary>
-            The almost inevitable collection of extra helper methods on
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/> to augment the rich set of what
-            LINQ already gives us.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.ForEach``1(System.Collections.Generic.IEnumerable{``0},System.Action{``0})">
-            <summary>
-            Execute the provided <paramref name="action"/> on every item in <paramref name="sequence"/>.
-            </summary>
-            <typeparam name="TItem">Type of the items stored in <paramref name="sequence"/></typeparam>
-            <param name="sequence">Sequence of items to process.</param>
-            <param name="action">Code to run over each item.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String,System.Func{``0,System.String})">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the given <paramref name="converter"/>.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <param name="converter">The conversion function to change TItem -&gt; string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String)">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the item's <see cref="M:System.Object.ToString"/> method.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that lets you
-            override a named parameter passed to a constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> object that will
-            override the given named constructor parameter, and pass the given
-            value.
-            </summary>
-            <param name="parameterName">Name of the constructor parameter.</param>
-            <param name="parameterValue">Value to pass for the constructor.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that lets you override
-            the value for a specified property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/>.
-            </summary>
-            <param name="propertyName">The property name.</param>
-            <param name="propertyValue">Value to use for the property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/> that lets you
-            specify multiple property overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration">
-            <summary>
-            Interface defining the configuration interface exposed by the
-            Static Factory extension.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator">
-            <summary>
-            Base interface for all extension configuration interfaces.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator.Container">
-            <summary>
-            Retrieve the container instance that we are currently configuring.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>Any policies added to this object are transient
-            and will be erased at the end of the buildup.</remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class with a <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>, 
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/>, <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> and the 
-            build key used to start this build operation. 
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="policies">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to use for this context.</param>
-            <param name="originalBuildKey">Build key to start building.</param>
-            <param name="existing">The existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="existing">Existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.Unity.CompositeResolverOverride)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="resolverOverrides">The resolver overrides.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>
-            Any modifications will be transient (meaning, they will be forgotten when 
-            the outer BuildUp for this context is finished executing).
-            </remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException">
-            <summary>
-            Represents that a dependency could not be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with no extra information.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given message.
-            </summary>
-            <param name="message">Some random message.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String,System.Exception)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given
-            message and inner exception.
-            </summary>
-            <param name="message">Some random message</param>
-            <param name="innerException">Inner exception.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.Object)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the build key of the object begin built.
-            </summary>
-            <param name="buildKey">The build key of the object begin built.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException">
-            <summary>
-            The exception thrown when injection is attempted on a method
-            that is an open generic or has out or ref params.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with no
-            message.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            </summary>
-            <param name="message">Message to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String,System.Exception)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            and inner exception.
-            </summary>
-            <param name="message">Message to return.</param>
-            <param name="innerException">Inner exception</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions">
-            <summary>
-            Extension methods to provide convenience overloads over the
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Start a recursive build up operation to retrieve the default
-            value for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type of object to build.</typeparam>
-            <param name="context">Parent context.</param>
-            <returns>Resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            Start a recursive build up operation to retrieve the named
-            implementation for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type to resolve.</typeparam>
-            <param name="context">Parent context.</param>
-            <param name="name">Name to resolve with.</param>
-            <returns>The resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.AddResolverOverrides(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the context, specified as a 
-            variable argument list.
-            </summary>
-            <param name="context">Context to add overrides to.</param>
-            <param name="overrides">The overrides.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack">
-            <summary>
-            Data structure that stores the set of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/>
-            objects and executes them when requested.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose(System.Boolean)">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-            <param name="disposing">
-            true to release managed and unmanaged resources; false to release only unmanaged resources.
-            </param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.System#Collections#IEnumerable#GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPolicyList">
-            <summary>
-            A custom collection over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyList">
-            <summary>
-            A custom collection wrapper over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class with another policy list.
-            </summary>
-            <param name="innerPolicyList">An inner policy list to search.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PolicyList.Count">
-            <summary>
-            Gets the number of items in the locator.
-            </summary>
-            <value>
-            The number of items in the locator.
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.RecoveryStack">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> which will notify an object about
-            the completion of a BuildUp operation, or start of a TearDown operation.
-            </summary>
-            <remarks>
-            This strategy checks the object that is passing through the builder chain to see if it
-            implements IBuilderAware and if it does, it will call <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)"/>
-            and <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown"/>. This strategy is meant to be used from the
-            <see cref="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization"/> stage.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderAware">
-            <summary>
-            Implemented on a class when it wants to receive notifications
-            about the build process.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being built up.
-            </summary>
-            <param name="buildKey">The key of the object that was just built up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being torn down.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStage">
-            <summary>
-            Enumeration to represent the object builder stages.
-            </summary>
-            <remarks>
-            The order of the values in the enumeration is the order in which the stages are run.
-            </remarks>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PreCreation">
-            <summary>
-            Strategies in this stage run before creation. Typical work done in this stage might
-            include strategies that use reflection to set policies into the context that other
-            strategies would later use.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Creation">
-            <summary>
-            Strategies in this stage create objects. Typically you will only have a single policy-driven
-            creation strategy in this stage.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Initialization">
-            <summary>
-            Strategies in this stage work on created objects. Typical work done in this stage might
-            include setter injection and method calls.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization">
-            <summary>
-            Strategies in this stage work on objects that are already initialized. Typical work done in
-            this stage might include looking to see if the object implements some notification interface
-            to discover when its initialization stage has been completed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping. This parameter can be null
-            (called when getting container registrations).</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy"/> with the new build key.
-            </summary>
-            <param name="newBuildKey">The new build key.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping, unused in this implementation.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy">
-            <summary>
-            Represents a strategy for mapping build keys in the build up operation.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.  Looks for the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/>
-            and if found maps the build key for the current operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/> that can map
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy"/> instance
-            that will map generic types.
-            </summary>
-            <param name="destinationKey">Build key to map to. This must be or contain an open generic type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that will look for a build plan
-            in the current context. If it exists, it invokes it, otherwise
-            it creates one and stores it for later, and invokes it.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that chooses
-            constructors based on these criteria: first, pick a constructor marked with the
-            <typeparamref name="TInjectionConstructorMarkerAttribute"/> attribute. If there
-            isn't one, then choose the constructor with the longest parameter list. If that is ambiguous,
-            then throw.
-            </summary>
-            <exception cref="T:System.InvalidOperationException">Thrown when the constructor to choose is ambiguous.</exception>
-            <typeparam name="TInjectionConstructorMarkerAttribute">Attribute used to mark the constructor to call.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that, when implemented,
-            will determine which constructor to call from the build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.ConstructorLengthComparer.Compare(System.Reflection.ConstructorInfo,System.Reflection.ConstructorInfo)">
-            <summary>
-            Compares two objects and returns a value indicating whether one is less than, equal to, or greater than the other.
-            </summary>
-            <param name="y">The second object to compare.</param>
-            <param name="x">The first object to compare.</param>
-            <returns>
-            Value Condition Less than zero is less than y. Zero equals y. Greater than zero is greater than y.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.ConstructorInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1">
-            <summary>
-            Base class for return values from selector policies that
-            return a MemberInfo of some sort plus a list of parameter
-            keys to look up the parameter resolvers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters">
-            <summary>
-            Base class for return of selector policies that need
-            to keep track of a set of parameter resolvers.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.AddParameterResolver(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Adds the parameter resolver. Resolvers are assumed
-            to be in the order of the parameters to the member.
-            </summary>
-            <param name="newResolver">The new resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.GetParameterResolvers">
-            <summary>
-            Gets the parameter resolvers.
-            </summary>
-            <returns>An array with the parameter resolvers.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.#ctor(`0)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1"/>, storing
-            the given member info.
-            </summary>
-            <param name="memberInfo">Member info to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.MemberInfo">
-            <summary>
-            The member info stored.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.#ctor(System.Reflection.ConstructorInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor"/> instance which
-            contains the given constructor.
-            </summary>
-            <param name="constructor">The constructor to wrap.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.Constructor">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="constructorSignature">A string representing the constructor being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ConstructorSignature">
-            <summary>
-            String describing the constructor being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that emits IL to call constructors
-            as part of creating a build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <remarks>Existing object is an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext"/>.</remarks>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetPerBuildSingleton(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to set up a PerResolveLifetimeManager lifetime manager
-            if the current object is such.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.CreateSignatureString(System.Reflection.ConstructorInfo)">
-            <summary>
-            Build up the string that will represent the constructor signature
-            in any exception message.
-            </summary>
-            <param name="constructor"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToInvokingConstructor(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructInterface(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an interface (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructAbstractClass(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an abstract class (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructDelegate(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an delegate other than Func{T} or Func{IEnumerable{T}}.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObject(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObjectWithInvalidConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved because of an invalid constructor.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-            <param name="signature">The signature of the invalid constructor.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ConstructorSignature">
-            <summary>
-            Constructor we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.#ctor(System.Type)">
-            <summary>
-            
-            </summary>
-            <param name="typeToBuild"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.AddToBuildPlan(System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="expression"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.CreateParameterExpression(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy,System.Type,System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="resolver"></param>
-            <param name="parameterType"></param>
-            <param name="setOperationExpression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,System.String)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolverKey">Key the resolver was stored under.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolver">The configured resolver.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.TypeToBuild">
-            <summary>
-            The type that is to be built with the dynamic build plan.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.ContextParameter">
-            <summary>
-            The context parameter representing the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> used when the build plan is executed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.#ctor(Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod)">
-            <summary>
-            
-            </summary>
-            <param name="buildMethod"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy"/> implementation
-            that constructs a build plan via dynamic IL emission.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy"/> that
-            uses the given strategy chain to construct the build plan.
-            </summary>
-            <param name="strategies">The strategy chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Construct a build plan.
-            </summary>
-            <param name="context">The current build context.</param>
-            <param name="buildKey">The current build key.</param>
-            <returns>The created build plan.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.MethodSignature">
-            <summary>
-            Method we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="methodSignature">A string representing the method being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.MethodSignature">
-            <summary>
-            String describing the method being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to call
-            chosen methods (as specified by the current <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>)
-            as part of object build up.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToInvokingMethod(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertyOperation">
-            <summary>
-            A base class that holds the information shared by all operations
-            performed by the container while setting properties.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString">
-            <summary>
-            Generate the description of this operation.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PropertyOperation.PropertyName">
-            <summary>
-            The property value currently being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to resolve properties
-            on an object being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToResolvingPropertyValue(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToSettingProperty(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being set, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">Type property is on.</param>
-            <param name="propertyName">Name of property being set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FactoryDelegateBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that will examine the given
-            types and return a sequence of <see cref="T:System.Reflection.MethodInfo"/> objects
-            that should be called as part of building the object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that selects
-            methods by looking for the given <typeparamref name="TMarkerAttribute"/>
-            attribute on those methods.
-            </summary>
-            <typeparam name="TMarkerAttribute">Type of attribute used to mark methods
-            to inject.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-            <typeparam name="TMarkerAttribute">Attribute that marks methods that should
-            be called.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.MethodInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMethod.#ctor(System.Reflection.MethodInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod"/> instance which
-            contains the given method.
-            </summary>
-            <param name="method">The method</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMethod.Method">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that returns a sequence
-            of properties that should be injected for the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that looks
-            for properties marked with the <typeparamref name="TResolutionAttribute"/>
-            attribute that are also settable and not indexers.
-            </summary>
-            <typeparam name="TResolutionAttribute"></typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty">
-            <summary>
-            Objects of this type are returned from
-            <see cref="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            This class combines the <see cref="T:System.Reflection.PropertyInfo"/> about
-            the property with the string key used to look up the resolver
-            for this property's value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedProperty.#ctor(System.Reflection.PropertyInfo,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty"/>
-            with the given <see cref="T:System.Reflection.PropertyInfo"/> and key.
-            </summary>
-            <param name="property">The property.</param>
-            <param name="resolver"></param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Property">
-            <summary>
-            PropertyInfo for this property.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Resolver">
-            <summary>
-            IDependencyResolverPolicy for this property
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy">
-            <summary>
-            A builder policy that lets you keep track of the current
-            resolvers and will remove them from the given policy set.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.GetTracker(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Get an instance that implements <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>,
-            either the current one in the policy set or creating a new one if it doesn't
-            exist.
-            </summary>
-            <param name="policies">Policy list to look up from.</param>
-            <param name="buildKey">Build key to track.</param>
-            <returns>The resolver tracker.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.TrackKey(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Object)">
-            <summary>
-            Add a key to be tracked to the current tracker.
-            </summary>
-            <param name="policies">Policy list containing the resolvers and trackers.</param>
-            <param name="buildKey">Build key for the resolvers being tracked.</param>
-            <param name="resolverKey">Key for the resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Remove the resolvers for the given build key.
-            </summary>
-            <param name="policies">Policy list containing the build key.</param>
-            <param name="buildKey">Build key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            calls back into the build chain to build up the dependency, passing
-            a type given at compile time as its build key.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Create a new instance storing the given type.
-            </summary>
-            <param name="typeToBuild">Type to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain">
-            <summary>
-            This interface defines a standard method to convert any <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> regardless
-            of the stage enum into a regular, flat strategy chain.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain.MakeStrategyChain">
-            <summary>
-            Convert this <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> into
-            a flat <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.
-            </summary>
-            <returns>The flattened <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the Buildup methods on the strategies.
-            </summary>
-            <param name="context">Context for the build process.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy">
-            <summary>
-            A builder policy used to create lifetime policy instances.
-            Used by the LifetimeStrategy when instantiating open
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> implementation that uses
-            a <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/> to figure out if an object
-            has already been created and to update or remove that
-            object from some backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1">
-            <summary>
-            Represents a chain of responsibility for builder strategies partitioned by stages.
-            </summary>
-            <typeparam name="TStageEnum">The stage enumeration to partition the strategies.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor(Microsoft.Practices.ObjectBuilder2.StagedStrategyChain{`0})">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class with an inner strategy chain to use when building.
-            </summary>
-            <param name="innerChain">The inner strategy chain to use first when finding strategies in the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy,`0)">
-            <summary>
-            Adds a strategy to the chain at a particular stage.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.AddNew``1(`0)">
-            <summary>
-            Add a new strategy for the <paramref name="stage"/>.
-            </summary>
-            <typeparam name="TStrategy">The <see cref="T:System.Type"/> of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/></typeparam>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Clear">
-            <summary>
-            Clear the current strategy chain list.
-            </summary>
-            <remarks>
-            This will not clear the inner strategy chain if this instance was created with one.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.MakeStrategyChain">
-            <summary>
-            Makes a strategy chain based on this instance.
-            </summary>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor(System.Collections.IEnumerable)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class with a collection of strategies.
-            </summary>
-            <param name="strategies">A collection of strategies to initialize the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy)">
-            <summary>
-            Adds a strategy to the chain.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.AddRange(System.Collections.IEnumerable)">
-            <summary>
-            Adds strategies to the chain.
-            </summary>
-            <param name="strategyEnumerable">The strategies to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context to build up.
-            </summary>
-            <param name="context">Context for the build processes.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.System#Collections#Generic#IEnumerable{Microsoft#Practices#ObjectBuilder2#IBuilderStrategy}#GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through the collection.
-             </summary>
-            
-             <returns>
-             A <see cref="T:System.Collections.Generic.IEnumerator`1"></see> that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through a collection.
-             </summary>
-            
-             <returns>
-             An <see cref="T:System.Collections.IEnumerator"></see> object that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey">
-            <summary>
-            Build key used to combine a type object with a string name. Used by
-            ObjectBuilder to indicate exactly what is being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance with the given
-            type and name.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for the default
-            buildup of the given type.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance. It is
-            initialized for the default key for the given type.
-            </summary>
-            <typeparam name="T">Type to build.</typeparam>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1(System.String)">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for
-            the given type and key.
-            </summary>
-            <typeparam name="T">Type to build</typeparam>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance initialized with the given type and name.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Equals(System.Object)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. Also, comparing
-            against a different type will also return false.</remarks>
-            <param name="obj">Object to compare to.</param>
-            <returns>True if the two keys are equal, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.GetHashCode">
-            <summary>
-            Calculate a hash code for this instance.
-            </summary>
-            <returns>A hash code.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Equality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for equality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>True if the values of the keys are the same, else false.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Inequality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for inequality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. If either field differs
-            the keys are not equal.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>false if the values of the keys are the same, else true.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.ToString">
-            <summary>
-            Formats the build key as a string (primarily for debugging).
-            </summary>
-            <returns>A readable string representation of the build key.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type">
-            <summary>
-            Return the <see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> stored in this build key.
-            </summary>
-            <value>The type to build.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Name">
-            <summary>
-            Returns the name stored in this build key.
-            </summary>
-            <remarks>The name to use when building.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> so that
-            you can new up a key using generic syntax.
-            </summary>
-            <typeparam name="T">Type for the key.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type and name.
-            </summary>
-            <param name="name">Name for the key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.Sequence">
-            <summary>
-            A series of helper methods to deal with sequences -
-            objects that implement <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Collect``1(``0[])">
-            <summary>
-            A function that turns an arbitrary parameter list into an
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-            <typeparam name="T">Type of arguments.</typeparam>
-            <param name="arguments">The items to put into the collection.</param>
-            <returns>An array that contains the values of the <paramref name="arguments"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Zip``2(System.Collections.Generic.IEnumerable{``0},System.Collections.Generic.IEnumerable{``1})">
-            <summary>
-            Given two sequences, return a new sequence containing the corresponding values
-            from each one.
-            </summary>
-            <typeparam name="TFirstSequenceElement">Type of first sequence.</typeparam>
-            <typeparam name="TSecondSequenceElement">Type of second sequence.</typeparam>
-            <param name="sequence1">First sequence of items.</param>
-            <param name="sequence2">Second sequence of items.</param>
-            <returns>New sequence of pairs. This sequence ends when the shorter of sequence1 and sequence2 does.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> that lets you register a
-            delegate with the container to create an object, rather than calling
-            the object's constructor.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtension">
-            <summary>
-            Base class for all <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> extension objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.InitializeExtension(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            The container calls this method when the extension is added.
-            </summary>
-            <param name="context">A <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> instance that gives the
-            extension access to the internals of the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Remove">
-            <summary>
-            Removes the extension's functions from the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is called when extensions are being removed from the container. It can be
-            used to do things like disconnect event handlers or clean up member state. You do not
-            need to remove strategies or policies here; the container will do that automatically.
-            </para>
-            <para>
-            The default implementation of this method does nothing.</para>
-            </remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Container">
-            <summary>
-            The container this extension has been added to.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> that this extension has been added to.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Context">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> object used to manipulate
-            the inner state of the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.Initialize">
-            <summary>
-            Initialize this extension. This particular extension requires no
-            initialization work.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that
-            acts as a decorator over another <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            This checks to see if the current type being built is the
-            right one before checking the inner <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.#ctor(System.Type,Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/>
-            </summary>
-            <param name="targetType">Type to check for.</param>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/> that lets you
-            specify the type to construct via generics syntax.
-            </summary>
-            <typeparam name="T">Type to check for.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride`1.#ctor(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride`1"/>.
-            </summary>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtensions">
-            <summary>
-            Extension class that adds a set of convenience overloads to the
-            <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <typeparam name="T">Type this registration is for.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping and transient lifetime.
-            </para>
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name of this mapping.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to configure injection on.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type this registration is for.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping.
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to configure in the container.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <param name="container">Container to resolve from.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.ResolveAll``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <typeparam name="T">The type requested.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <typeparamref name="T"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <param name="container">Container to resolve through.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.AddNewExtension``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Creates a new extension object and adds it to the container.
-            </summary>
-            <typeparam name="TExtension">Type of <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add. The extension type
-            will be resolved from within the supplied <paramref name="container"/>.</typeparam>
-            <param name="container">Container to add the extension to.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Configure``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <typeparam name="TConfigurator">The configuration interface required.</typeparam>
-            <param name="container">Container to configure.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Check if a particular type has been registered with the container with
-            the default name.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Check if a particular type has been registered with the container with the default name.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExtensionContext">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> class provides the means for extension objects
-            to manipulate the internal state of the <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExtensionContext.RegisterNamedType(System.Type,System.String)">
-            <summary>
-            Store a type/name pair for later resolution.
-            </summary>
-            <remarks>
-            <para>
-            When users register type mappings (or other things) with a named key, this method
-            allows you to register that name with the container so that when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])"/>
-            method is called, that name is included in the list that is returned.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> to register.</param>
-            <param name="name">Name associated with that type.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Container">
-            <summary>
-            The container that this context is associated with.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> object.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Strategies">
-            <summary>
-            The strategies this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that the container uses to build objects.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.BuildPlanStrategies">
-            <summary>
-            The strategies this container uses to construct build plans.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that this container uses when creating
-            build plans.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Policies">
-            <summary>
-            The policies this container uses.
-            </summary>
-            <remarks>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> the that container uses to build objects.</remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Lifetime">
-            <summary>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> that this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> is used to manage <see cref="T:System.IDisposable"/> objects that the container is managing.</value>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.Registering">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer"/> method is called, providing 
-            the newly created child container to extensions to act on as they see fit.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedEventArgs">
-            <summary>
-            An EventArgs class that holds a string Name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with a null name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with the given name.
-            </summary>
-            <param name="name">Name to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.NamedEventArgs.Name">
-            <summary>
-            The name.
-            </summary>
-            <value>Name used for this EventArg object.</value>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.Registering"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterEventArgs.#ctor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.RegisterEventArgs"/>.
-            </summary>
-            <param name="typeFrom">Type to map from.</param>
-            <param name="typeTo">Type to map to.</param>
-            <param name="name">Name for the registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeFrom">
-            <summary>
-            Type to map from.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeTo">
-            <summary>
-            Type to map to.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager">
-            <summary>
-            <see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor(System.Type,System.Object,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance initialized with the given arguments.
-            </summary>
-            <param name="registeredType">Type of instance being registered.</param>
-            <param name="instance">The instance object itself.</param>
-            <param name="name">Name to register under, null if default registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager"/> object that handles how
-            the instance will be owned.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.RegisteredType">
-            <summary>
-            Type of instance being registered.
-            </summary>
-            <value>
-            Type of instance being registered.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.Instance">
-            <summary>
-            Instance object being registered.
-            </summary>
-            <value>Instance object being registered</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager">
-            <summary>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls ownership of
-            this instance.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an array containing the registered instances of a generic type parameter 
-            should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-            <remarks>A type is considered compatible if it is an array type of rank one
-            and its element type is a generic type parameter with a name matching this generic
-            parameter name configured for the receiver.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericResolvedArrayParameter.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectedMembers">
-            <summary>
-            A Unity container extension that allows you to configure
-            which constructors, properties, and methods get injected
-            via an API rather than through attributes.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="name">Name of registration</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="serviceType">Type of interface/base class being registered (may be null).</param>
-            <param name="implementationType">Type of actual implementation class being registered.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionConstructor">
-            <summary>
-            A class that holds the collection of information
-            for a constructor, so that the container can
-            be configured to call this constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.#ctor(System.Object[])">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionConstructor"/> that looks
-            for a constructor with the given set of parameters.
-            </summary>
-            <param name="parameterValues">The values for the parameters, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMethod">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> that configures the
-            container to call a method as part of buildup.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionMethod"/> instance which will configure
-            the container to call the given methods with the given parameters.
-            </summary>
-            <param name="methodName">Name of the method to call.</param>
-            <param name="methodParameters">Parameter values for the method.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.MethodNameMatches(System.Reflection.MemberInfo,System.String)">
-            <summary>
-            A small function to handle name matching. You can override this
-            to do things like case insensitive comparisons.
-            </summary>
-            <param name="targetMethod">MethodInfo for the method you're checking.</param>
-            <param name="nameToMatch">Name of the method you're looking for.</param>
-            <returns>True if a match, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter">
-            <summary>
-            A class that holds on to the given value and provides
-            the required <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            when the container is configured.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, using the runtime type of that value as the
-            type of the parameter.
-            </summary>
-            <param name="parameterValue">Value to be injected for this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, associated with the given type.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-            <param name="parameterValue">Value of the parameter</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that makes it a
-            little easier to specify the type of the parameter.
-            </summary>
-            <typeparam name="TParameter">Type of parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter`1.#ctor(`0)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionParameter`1"/>.
-            </summary>
-            <param name="parameterValue">Value for the parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionProperty">
-            <summary>
-            This class stores information about which properties to inject,
-            and will configure the container accordingly.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String)">
-            <summary>
-            Configure the container to inject the given property name,
-            resolving the value via the container.
-            </summary>
-            <param name="propertyName">Name of the property to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String,System.Object)">
-            <summary>
-            Configure the container to inject the given property name,
-            using the value supplied. This value is converted to an
-            <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object using the
-            rules defined by the <see cref="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])"/>
-            method.
-            </summary>
-            <param name="propertyName">Name of property to inject.</param>
-            <param name="propertyValue">Value for property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface being registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter">
-            <summary>
-            A class that stores a type, and generates a 
-            resolver object that resolves all the named instances or the
-            type registered in a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given element type and collection of element values.
-            </summary>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given array and element types and collection of element values.
-            </summary>
-            <param name="arrayParameterType">The type for the array of elements to resolve.</param>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TElement">Type of the elements for the array of the parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter`1.#ctor(System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1"/> that
-            resolves to the given element generic type with the given element values.
-            </summary>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainer">
-            <summary>
-            Interface defining the behavior of the Unity dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the TypeMappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Configure(System.Type)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds a weak reference to
-            it's managed instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManagerFactory">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy"/> that
-            creates instances of the type of the given Lifetime Manager
-            by resolving them through the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.#ctor(Microsoft.Practices.Unity.ExtensionContext,System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.LifetimeManagerFactory"/> that will
-            return instances of the given type, creating them by
-            resolving through the container.
-            </summary>
-            <param name="containerContext">Container to resolve with.</param>
-            <param name="lifetimeType">Type of LifetimeManager to create.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.LifetimeManagerFactory.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerThreadLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds the instances given to it, 
-            keeping one instance per thread.
-            </summary>
-            <remarks>
-            <para>
-            This LifetimeManager does not dispose the instances it holds.
-            </para>
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.PerThreadLifetimeManager"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy for the 
-            current thread.
-            </summary>
-            <returns>the object desired, or <see langword="null"/> if no such object is currently 
-            stored for the current thread.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later when requested
-            in the current thread.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-            <remarks>Not implemented for this lifetime manager.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TransientLifetimeManager">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> implementation that does nothing,
-            thus ensuring that instances are created new every time.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ArrayResolutionStrategy">
-            <summary>
-            This strategy implements the logic that will call container.ResolveAll
-            when an array parameter is detected.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ArrayResolutionStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Do the PreBuildUp stage of construction. This is where the actual work is performed.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that is
-            aware of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <remarks>
-            This implementation looks for the Unity <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> on the
-            parameter and uses it to create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            for this parameter.</remarks>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that is aware
-            of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that is aware of
-            the build keys used by the unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> implementation that returns
-            the value set in the constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.#ctor(System.Object)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy"/>
-            which will return the given value when resolved.
-            </summary>
-            <param name="dependencyValue">The value to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that stores a
-            type and name, and at resolution time puts them together into a
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            with the given type and name.
-            </summary>
-            <param name="type">The type.</param>
-            <param name="name">The name (may be null).</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Type">
-            <summary>
-            The type that this resolver resolves.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Name">
-            <summary>
-            The name that this resolver resolves.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that resolves to
-            to an array populated with the values that result from resolving other instances
-            of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.#ctor(System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy"/>
-            with the given type and a collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            instances to use when populating the result.
-            </summary>
-            <param name="elementType">The type.</param>
-            <param name="elementPolicies">The resolver policies to use when populating an array.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>An array populated with the results of resolving the resolver policies.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that selects
-            the given constructor and creates the appropriate resolvers to call it with
-            the specified parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.#ctor(System.Reflection.ConstructorInfo,Microsoft.Practices.Unity.InjectionParameterValue[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy"/> that
-            will return the given constructor, being passed the given injection values
-            as parameters.
-            </summary>
-            <param name="ctor">The constructor to call.</param>
-            <param name="parameterValues">Set of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describes how to obtain the values for the constructor parameters.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper">
-            <summary>
-            Helper class for implementing selector policies that need to
-            set up dependency resolver policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper.AddParameterResolvers(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue},Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters)">
-            <summary>
-            Add dependency resolvers to the parameter set.
-            </summary>
-            <param name="typeToBuild">Type that's currently being built (used to resolve open generics).</param>
-            <param name="policies">PolicyList to add the resolvers to.</param>
-            <param name="parameterValues">Objects supplying the dependency resolvers.</param>
-            <param name="result">Result object to store the keys in.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> implementation that calls the specific
-            methods with the given parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.AddMethodAndParameters(System.Reflection.MethodInfo,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue})">
-            <summary>
-            Add the given method and parameter collection to the list of methods
-            that will be returned when the selector's <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>
-            method is called.
-            </summary>
-            <param name="method">Method to call.</param>
-            <param name="parameters">sequence of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describe how to create the method parameter values.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> which returns
-            the set of specific properties that the selector was configured with.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.AddPropertyAndValue(System.Reflection.PropertyInfo,Microsoft.Practices.Unity.InjectionParameterValue)">
-            <summary>
-            Add a property that will be par of the set returned when the 
-            <see cref="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/> is called.
-            </summary>
-            <param name="property">The property to set.</param>
-            <param name="value"><see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object describing
-            how to create the value to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolutionFailedException">
-            <summary>
-            The exception thrown by the Unity container when
-            an attempt to resolve a dependency fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolutionFailedException.#ctor(System.Type,System.String,System.Exception,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolutionFailedException"/> that records
-            the exception for the given type and name.
-            </summary>
-            <param name="typeRequested">Type requested from the container.</param>
-            <param name="nameRequested">Name requested from the container.</param>
-            <param name="innerException">The actual exception that caused the failure of the build.</param>
-            <param name="context">The build context representing the failed operation.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.TypeRequested">
-            <summary>
-            The type that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.NameRequested">
-            <summary>
-            The name that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter">
-            <summary>
-            A class that stores a name and type, and generates a 
-            resolver object that resolves the parameter via the
-            container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves to the given type.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves the given type and name.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-            <param name="name">Name to use when resolving parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TParameter">Type of the parameter</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and the default name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and name.
-            </summary>
-            <param name="name">Name to use to resolve this parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityServiceLocator">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/> that wraps a Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.#ctor(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.UnityServiceLocator"/> class for a container.
-            </summary>
-            <param name="container">The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> to wrap with the <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/>
-            interface implementation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetInstance(System.Type,System.String)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of resolving
-                        the requested service instance.
-            </summary>
-            <param name="serviceType">Type of instance requested.</param><param name="key">Name of registered service you want. May be null.</param>
-            <returns>
-            The requested service instance.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetAllInstances(System.Type)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of
-                        resolving all the requested service instances.
-            </summary>
-            <param name="serviceType">Type of service requested.</param>
-            <returns>
-            Sequence of service instance objects.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Guard">
-            <summary>
-            A static helper class that includes various parameter checking routines.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNull(System.Object,System.String)">
-            <summary>
-            Throws <see cref="T:System.ArgumentNullException"/> if the given argument is null.
-            </summary>
-            <exception cref="T:System.ArgumentNullException"> if tested value if null.</exception>
-            <param name="argumentValue">Argument value to test.</param>
-            <param name="argumentName">Name of the argument being tested.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNullOrEmpty(System.String,System.String)">
-            <summary>
-            Throws an exception if the tested string argument is null or the empty string.
-            </summary>
-            <exception cref="T:System.ArgumentNullException">Thrown if string value is null.</exception>
-            <exception cref="T:System.ArgumentException">Thrown if the string is empty</exception>
-            <param name="argumentValue">Argument value to check.</param>
-            <param name="argumentName">Name of argument being checked.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.TypeIsAssignable(System.Type,System.Type,System.String)">
-            <summary>
-            Verifies that an argument type is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentValueType">The type of the value being assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.InstanceIsAssignable(System.Type,System.Object,System.String)">
-            <summary>
-            Verifies that an argument instance is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy, or instance can be 
-            assigned through a runtime wrapper, as is the case for COM Objects).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentInstance">The instance that will be assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedTypesRegistry">
-            <summary>
-            A helper class to manage the names that get registered in the container  
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage">
-            <summary>
-            The build stages we use in the Unity container
-            strategy pipeline.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Setup">
-            <summary>
-            First stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.TypeMapping">
-            <summary>
-            Second stage. Type mapping occurs here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Lifetime">
-            <summary>
-            Third stage. lifetime managers are checked here,
-            and if they're available the rest of the pipeline is skipped.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PreCreation">
-            <summary>
-            Fourth stage. Reflection over constructors, properties, etc. is
-            performed here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Creation">
-            <summary>
-            Fifth stage. Instance creation happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Initialization">
-            <summary>
-            Sixth stage. Property sets and method injection happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PostInitialization">
-            <summary>
-            Seventh and final stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.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:Microsoft.Practices.Unity.Properties.Resources.AmbiguousInjectionConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors of length {1}. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ArgumentMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.BuildFailedException">
-            <summary>
-              Looks up a localized string similar to The current build operation (build key {2}) failed: {3} (Strategy type {0}, index {1}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructAbstractClass">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an abstract class and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructDelegate">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is delegate and cannot be constructed. Unity only supports resolving Func&lt;T&gt; and Func&lt;IEnumerable&lt;T&gt;&gt; by default..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructInterface">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an interface and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotExtractTypeFromBuildKey">
-            <summary>
-              Looks up a localized string similar to Cannot extract type from build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is an open generic method. Open generic methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectIndexer">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is an indexer. Indexed properties cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParam">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} has an out parameter. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one out parameter. Methods with out parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithRefParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one ref parameter.Methods with ref parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectOpenGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} is marked for injection, but it is an open generic method. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectStaticMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is static. Static methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotResolveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is an open generic type. An open generic type cannot be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of constructor {1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The parameter {0} could not be resolved when attempting to call constructor {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ExceptionNullParameterValue">
-            <summary>
-              Looks up a localized string similar to Parameter type inference does not work for null values. Indicate the parameter type explicitly using a properly configured instance of the InjectionParameter or InjectionParameter&lt;T&gt; classes..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingConstructorOperation">
-            <summary>
-              Looks up a localized string similar to Calling constructor {0}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingMethodOperation">
-            <summary>
-              Looks up a localized string similar to Calling method {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.KeyAlreadyPresent">
-            <summary>
-              Looks up a localized string similar to An item with the given key is already present in the dictionary..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.LifetimeManagerInUse">
-            <summary>
-              Looks up a localized string similar to The lifetime manager is already registered. Lifetime managers cannot be reused, please create a new one..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MarkerBuildPlanInvoked">
-            <summary>
-              Looks up a localized string similar to The override marker build plan policy has been invoked. This should never happen, looks like a bug in the container..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of method {1}.{2}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for parameter &quot;{1}&quot; of method {0} could not be resolved. .
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MissingDependency">
-            <summary>
-              Looks up a localized string similar to Could not resolve dependency for build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MultipleInjectionConstructors">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors marked with the InjectionConstructor attribute. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} must be an open generic type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveSameNumberOfGenericArguments">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} does not have the same number of generic arguments as the target type {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoConstructorFound">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have an accessible constructor..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoMatchingGenericArgument">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a generic argument named &quot;{1}&quot;.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoOperationExceptionReason">
-            <summary>
-              Looks up a localized string similar to while resolving.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a constructor that takes the parameters ({1})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchMethod">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a public method named {1} that takes the parameters ({2})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchProperty">
-            <summary>
-              Looks up a localized string similar to The type {0} does not contain an instance property named {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is not a generic type, and you are attempting to inject a generic parameter named &quot;{1}&quot;..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAnArrayTypeWithRankOne">
-            <summary>
-              Looks up a localized string similar to The type {0} is not an array type with rank 1, and you are attempting to use a [DependencyArray] attribute on a parameter or property with this type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.OptionalDependenciesMustBeReferenceTypes">
-            <summary>
-              Looks up a localized string similar to Optional dependencies must be reference types. The type {0} is a value type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyNotSettable">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is not settable..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyTypeMismatch">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is of type {2}, and cannot be injected with a value of type {3}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyValueResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for the property &quot;{0}&quot; could not be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ProvidedStringArgMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionFailed">
-             <summary>
-               Looks up a localized string similar to Resolution of the dependency failed, type = &quot;{0}&quot;, name = &quot;{1}&quot;.
-            Exception occurred while: {2}.
-            Exception is: {3} - {4}
-            -----------------------------------------------
-            At the time of the exception, the container was:
-            .
-             </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionWithMappingTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1} (mapped from {2}, {3}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolvingPropertyValueOperation">
-            <summary>
-              Looks up a localized string similar to Resolving value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SelectedConstructorHasRefParameters">
-            <summary>
-              Looks up a localized string similar to The constructor {1} selected for type {0} has ref or out parameters. Such parameters are not supported for constructor injection..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SettingPropertyOperation">
-            <summary>
-              Looks up a localized string similar to Setting value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypeIsNotConstructable">
-            <summary>
-              Looks up a localized string similar to The type {0} cannot be constructed. You must configure the container to supply this value..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypesAreNotAssignable">
-            <summary>
-              Looks up a localized string similar to The type {1} cannot be assigned to variables of type {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.UnknownType">
-            <summary>
-              Looks up a localized string similar to &lt;unknown&gt;.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer">
-            <summary>
-            A simple, extensible dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor(Microsoft.Practices.Unity.UnityContainer)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> with the given parent container.
-            </summary>
-            <param name="parent">The parent <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>. The current object
-            will apply its own settings first, and then check the parent for additional ones.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            RegisterType a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            RegisterType an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <para>If true, the container will take over the lifetime of the instance,
-            calling Dispose on it (if it's <see cref="T:System.IDisposable"/>) when the container is Disposed.</para>
-            <para>
-             If false, container will not maintain a strong reference to <paramref name="instance"/>. User is responsible
-            for disposing instance, and for keeping the instance from being garbage collected.</para></param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Get an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Configure(System.Type)">
-            <summary>
-            Get access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            Disposing the container also disposes any child containers,
-            and disposes any instances whose lifetimes are managed
-            by the container.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose(System.Boolean)">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            This class doesn't have a finalizer, so <paramref name="disposing"/> will always be true.</remarks>
-            <param name="disposing">True if being called from the IDisposable.Dispose
-            method, false if being called from a finalizer.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ClearExistingBuildPlan(System.Type,System.String)">
-            <summary>
-            Remove policies associated with building this type. This removes the
-            compiled build plan so that it can be rebuilt with the new settings
-            the next time this type is resolved.
-            </summary>
-            <param name="typeToInject">Type of object to clear the plan for.</param>
-            <param name="name">Name the object is being registered with.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl">
-            <summary>
-            Implementation of the ExtensionContext that is actually used
-            by the UnityContainer implementation.
-            </summary>
-            <remarks>
-            This is a nested class so that it can access state in the
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deleted file mode 100644
index 0d8c004..0000000
Binary files a/src/packages/Unity.4.0.1/lib/portable-net45+wp80+win8+wpa81+MonoAndroid10+MonoTouch10/Microsoft.Practices.Unity.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/portable-net45+wp80+win8+wpa81+MonoAndroid10+MonoTouch10/Microsoft.Practices.Unity.xml b/src/packages/Unity.4.0.1/lib/portable-net45+wp80+win8+wpa81+MonoAndroid10+MonoTouch10/Microsoft.Practices.Unity.xml
deleted file mode 100644
index f99ca70..0000000
--- a/src/packages/Unity.4.0.1/lib/portable-net45+wp80+win8+wpa81+MonoAndroid10+MonoTouch10/Microsoft.Practices.Unity.xml
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-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.OnType``1">
-            <summary>
-            Wrap this resolver in one that verifies the type of the object being built.
-            This allows you to narrow any override down to a specific type easily.
-            </summary>
-            <typeparam name="T">Type to constrain the override to.</typeparam>
-            <returns>The new override.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.OnType(System.Type)">
-            <summary>
-            Wrap this resolver in one that verifies the type of the object being built.
-            This allows you to narrow any override down to a specific type easily.
-            </summary>
-            <param name="typeToOverride">Type to constrain the override to.</param>
-            <returns>The new override.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.Add(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> to the collection
-            that is checked.
-            </summary>
-            <param name="newOverride">item to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.AddRange(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the collection.
-            </summary>
-            <param name="newOverrides">items to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerRegistration">
-            <summary>
-            Class that returns information about the types registered in a container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.RegisteredType">
-            <summary>
-            The type that was passed to the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method
-            as the "from" type, or the only type if type mapping wasn't done.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.MappedToType">
-            <summary>
-            The type that this registration is mapped to. If no type mapping was done, the
-            <see cref="P:Microsoft.Practices.Unity.ContainerRegistration.RegisteredType"/> property and this one will have the same value.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.Name">
-            <summary>
-            Name the type was registered under. Null for default registration.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.LifetimeManagerType">
-            <summary>
-            The registered lifetime manager instance.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.LifetimeManager">
-            <summary>
-            The lifetime manager for this registration.
-            </summary>
-            <remarks>
-            This property will be null if this registration is for an open generic.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that overrides
-            the value injected whenever there is a dependency of the
-            given type, regardless of where it appears in the object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> to override
-            the given type with the given value.
-            </summary>
-            <param name="typeToConstruct">Type of the dependency.</param>
-            <param name="dependencyValue">Value to use.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> that lets you
-            specify the dependency type using generic syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency to override.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride`1.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.DependencyOverride`1"/> object that will
-            override the given dependency, and pass the given value.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-            <remarks>
-            This class isn't really a collection, it just implements IEnumerable
-            so that we get use of the nice C# collection initializer syntax.
-            </remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OverrideCollection`3">
-            <summary>
-            Base helper class for creating collections of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects
-            for use in passing a bunch of them to the resolve call. This base class provides
-            the mechanics needed to allow you to use the C# collection initializer syntax.
-            </summary>
-            <typeparam name="TOverride">Concrete type of the <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> this class collects.</typeparam>
-            <typeparam name="TKey">Key used to create the underlying override object.</typeparam>
-            <typeparam name="TValue">Value that the override returns.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)">
-            <summary>
-            Add a new override to the collection with the given key and value.
-            </summary>
-            <param name="key">Key - for example, a parameter or property name.</param>
-            <param name="value">Value - the value to be returned by the override.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.MakeOverride(`1,`2)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverrides.MakeOverride(System.Type,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.#ctor(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs"/> object with the
-            given child container object.
-            </summary>
-            <param name="childContext">An <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> for the newly created child
-            container.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContainer">
-            <summary>
-            The newly created child container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContext">
-            <summary>
-            An extension context for the created child container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameterBase">
-            <summary>
-            Base class for <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> subclasses that let you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameterValue">
-            <summary>
-            Base type for objects that are used to configure parameters for
-            constructor or method injection, or for getting the value to
-            be injected into a property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])">
-            <summary>
-            Convert the given set of arbitrary values to a sequence of InjectionParameterValue
-            objects. The rules are: If it's already an InjectionParameterValue, return it. If
-            it's a Type, return a ResolvedParameter object for that type. Otherwise return
-            an InjectionParameter object for that value.
-            </summary>
-            <param name="values">The values to build the sequence from.</param>
-            <returns>The resulting converted sequence.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameter(System.Object)">
-            <summary>
-            Convert an arbitrary value to an InjectionParameterValue object. The rules are: 
-            If it's already an InjectionParameterValue, return it. If it's a Type, return a
-            ResolvedParameter object for that type. Otherwise return an InjectionParameter
-            object for that value.
-            </summary>
-            <param name="value">The value to convert.</param>
-            <returns>The resulting <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.InjectionParameterValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericParameterBase.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalGenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved, providing the <see langword="null"/>
-            value if resolving fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionFactory">
-            <summary>
-            A class that lets you specify a factory method the container
-            will use to create the object.
-            </summary>
-            <remarks>This is a significantly easier way to do the same
-            thing the old static factory extension was used for.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMember">
-            <summary>
-            Base class for objects that can be used to configure what
-            class members get injected by the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="typeToCreate">Type to register.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null. This parameter is ignored in this implementation.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that can be passed to
-            <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> to configure a
-            parameter or property as an optional dependency.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypedInjectionValue">
-            <summary>
-            A base class for implementing <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> classes
-            that deal in explicit types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.TypedInjectionValue"/> that exposes
-            information about the given <paramref name="parameterType"/>.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterType">
-            <summary>
-            The type of parameter this object represents.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/> and <paramref name="name"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-            <param name="name">Name for the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.OptionalParameter"></see> that lets you
-            specify the type of the dependency using generics syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/> with the given
-            <paramref name="name"/>.
-            </summary>
-            <param name="name">Name of the dependency.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeManager">
-            <summary>
-            A special lifetime manager which works like <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/>,
-            except that in the presence of child containers, each child gets it's own instance
-            of the object, instead of sharing one in the common parent.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds onto the instance given to it.
-            When the <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/> is disposed,
-            the instance is disposed with it.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager">
-            <summary>
-            Base class for Lifetime managers which need to synchronize calls to
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.
-            </summary>
-            <remarks>
-            <para>
-            The purpose of this class is to provide a basic implementation of the lifetime manager synchronization pattern.
-            </para>
-            <para>
-            Calls to the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/> method of a <see cref="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager"/> 
-            instance acquire a lock, and if the instance has not been initialized with a value yet the lock will only be released 
-            when such an initialization takes place by calling the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/> method or if 
-            the build request which resulted in the call to the GetValue method fails.
-            </para>
-            </remarks>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManager">
-            <summary>
-            Base class for Lifetime managers - classes that control how
-            and when instances are created by the Unity container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that controls how instances are
-            persisted and recovered from an external store. Used to implement
-            things like singletons and per-http-request lifetime.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.RemoveValue">
-            <summary>
-            Remove the value this lifetime policy is managing from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery">
-            <summary>
-            This interface provides a hook for the builder context to
-            implement error recovery when a builder strategy throws
-            an exception. Since we can't get try/finally blocks onto
-            the call stack for later stages in the chain, we instead
-            add these objects to the context. If there's an exception,
-            all the current IRequiresRecovery instances will have
-            their Recover methods called.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>Calls to this method acquire a lock which is released only if a non-null value
-            has been set for the lifetime manager.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Performs the actual retrieval of a value from the backing store associated 
-            with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>
-            after it has acquired its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>Setting a value will attempt to release the lock acquired by 
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Performs the actual storage of the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/>
-            before releasing its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose(System.Boolean)">
-            <summary>
-            Standard Dispose pattern implementation. Not needed, but it keeps FxCop happy.
-            </summary>
-            <param name="disposing">Always true, since we don't have a finalizer.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerResolveLifetimeManager">
-            <summary>
-            This is a custom lifetime manager that acts like <see cref="T:Microsoft.Practices.Unity.TransientLifetimeManager"/>,
-            but also provides a signal to the default build plan, marking the type so that
-            instances are reused across the build up object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that does not
-            itself manage an instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that stores the
-            give value. This value will be returned by <see cref="M:Microsoft.Practices.Unity.LifetimeManager.GetValue"/>
-            but is not stored in the lifetime manager, nor is the value disposed.
-            This Lifetime manager is intended only for internal use, which is why the
-            normal <see cref="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)"/> method is not used here.
-            </summary>
-            <param name="value">Value to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later. In this class,
-            this is a noop, since it has special hooks down in the guts.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store. Noop in this class.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy">
-            <summary>
-            A strategy that handles Hierarchical lifetimes across a set of parent/child
-            containers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown. Although you
-            can implement this interface directly, you may also choose to use
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> as the base class for your strategies, as
-            this class provides useful helper methods and makes support BuildUp and TearDown
-            optional.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that will attempt to
-            resolve a value, and return null if it cannot rather than throwing.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy">
-            <summary>
-            A strategy that is used at build plan execution time
-            to resolve a dependent value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given name and type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-            <param name="name">Name to resolve with.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.DependencyType">
-            <summary>
-            Type this resolver will resolve.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Name">
-            <summary>
-            Name this resolver will resolve.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions">
-            <summary>
-            Extension methods on <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to provide convenience
-            overloads (generic versions, mostly).
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Clear``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.ClearDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Set``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.SetDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface to register the policy under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildOperation">
-            <summary>
-            Base class for the current operation stored in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildOperation.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildOperation"/>.
-            </summary>
-            <param name="typeBeingConstructed">Type currently being built.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuildOperation.TypeBeingConstructed">
-            <summary>
-            The type that's currently being built.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DeferredResolveBuildPlanPolicy">
-            <summary>
-            Build plan for <see cref="T:System.Func`1"/> that will return a Func that will resolve the requested type
-            through this container later.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy">
-            <summary>
-            A build plan is an object that, when invoked, will create a new object
-            or fill in a given existing one. It encapsulates all the information
-            gathered by the strategies to construct a particular object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.OverriddenBuildPlanMarkerPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions">
-            <summary>
-            The almost inevitable collection of extra helper methods on
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/> to augment the rich set of what
-            LINQ already gives us.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.ForEach``1(System.Collections.Generic.IEnumerable{``0},System.Action{``0})">
-            <summary>
-            Execute the provided <paramref name="action"/> on every item in <paramref name="sequence"/>.
-            </summary>
-            <typeparam name="TItem">Type of the items stored in <paramref name="sequence"/></typeparam>
-            <param name="sequence">Sequence of items to process.</param>
-            <param name="action">Code to run over each item.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String,System.Func{``0,System.String})">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the given <paramref name="converter"/>.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <param name="converter">The conversion function to change TItem -&gt; string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String)">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the item's <see cref="M:System.Object.ToString"/> method.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that lets you
-            override a named parameter passed to a constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> object that will
-            override the given named constructor parameter, and pass the given
-            value.
-            </summary>
-            <param name="parameterName">Name of the constructor parameter.</param>
-            <param name="parameterValue">Value to pass for the constructor.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that lets you override
-            the value for a specified property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/>.
-            </summary>
-            <param name="propertyName">The property name.</param>
-            <param name="propertyValue">Value to use for the property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/> that lets you
-            specify multiple property overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration">
-            <summary>
-            Interface defining the configuration interface exposed by the
-            Static Factory extension.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator">
-            <summary>
-            Base interface for all extension configuration interfaces.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator.Container">
-            <summary>
-            Retrieve the container instance that we are currently configuring.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>Any policies added to this object are transient
-            and will be erased at the end of the buildup.</remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class with a <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>, 
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/>, <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> and the 
-            build key used to start this build operation. 
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="policies">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to use for this context.</param>
-            <param name="originalBuildKey">Build key to start building.</param>
-            <param name="existing">The existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="existing">Existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.Unity.CompositeResolverOverride)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="resolverOverrides">The resolver overrides.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>
-            Any modifications will be transient (meaning, they will be forgotten when 
-            the outer BuildUp for this context is finished executing).
-            </remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException">
-            <summary>
-            Represents that a dependency could not be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with no extra information.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given message.
-            </summary>
-            <param name="message">Some random message.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String,System.Exception)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given
-            message and inner exception.
-            </summary>
-            <param name="message">Some random message</param>
-            <param name="innerException">Inner exception.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.Object)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the build key of the object begin built.
-            </summary>
-            <param name="buildKey">The build key of the object begin built.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException">
-            <summary>
-            The exception thrown when injection is attempted on a method
-            that is an open generic or has out or ref params.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with no
-            message.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            </summary>
-            <param name="message">Message to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String,System.Exception)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            and inner exception.
-            </summary>
-            <param name="message">Message to return.</param>
-            <param name="innerException">Inner exception</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions">
-            <summary>
-            Extension methods to provide convenience overloads over the
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Start a recursive build up operation to retrieve the default
-            value for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type of object to build.</typeparam>
-            <param name="context">Parent context.</param>
-            <returns>Resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            Start a recursive build up operation to retrieve the named
-            implementation for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type to resolve.</typeparam>
-            <param name="context">Parent context.</param>
-            <param name="name">Name to resolve with.</param>
-            <returns>The resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.AddResolverOverrides(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the context, specified as a 
-            variable argument list.
-            </summary>
-            <param name="context">Context to add overrides to.</param>
-            <param name="overrides">The overrides.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack">
-            <summary>
-            Data structure that stores the set of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/>
-            objects and executes them when requested.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose(System.Boolean)">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-            <param name="disposing">
-            true to release managed and unmanaged resources; false to release only unmanaged resources.
-            </param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.System#Collections#IEnumerable#GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPolicyList">
-            <summary>
-            A custom collection over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyList">
-            <summary>
-            A custom collection wrapper over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class with another policy list.
-            </summary>
-            <param name="innerPolicyList">An inner policy list to search.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PolicyList.Count">
-            <summary>
-            Gets the number of items in the locator.
-            </summary>
-            <value>
-            The number of items in the locator.
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.RecoveryStack">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> which will notify an object about
-            the completion of a BuildUp operation, or start of a TearDown operation.
-            </summary>
-            <remarks>
-            This strategy checks the object that is passing through the builder chain to see if it
-            implements IBuilderAware and if it does, it will call <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)"/>
-            and <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown"/>. This strategy is meant to be used from the
-            <see cref="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization"/> stage.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderAware">
-            <summary>
-            Implemented on a class when it wants to receive notifications
-            about the build process.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being built up.
-            </summary>
-            <param name="buildKey">The key of the object that was just built up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being torn down.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStage">
-            <summary>
-            Enumeration to represent the object builder stages.
-            </summary>
-            <remarks>
-            The order of the values in the enumeration is the order in which the stages are run.
-            </remarks>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PreCreation">
-            <summary>
-            Strategies in this stage run before creation. Typical work done in this stage might
-            include strategies that use reflection to set policies into the context that other
-            strategies would later use.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Creation">
-            <summary>
-            Strategies in this stage create objects. Typically you will only have a single policy-driven
-            creation strategy in this stage.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Initialization">
-            <summary>
-            Strategies in this stage work on created objects. Typical work done in this stage might
-            include setter injection and method calls.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization">
-            <summary>
-            Strategies in this stage work on objects that are already initialized. Typical work done in
-            this stage might include looking to see if the object implements some notification interface
-            to discover when its initialization stage has been completed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping. This parameter can be null
-            (called when getting container registrations).</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy"/> with the new build key.
-            </summary>
-            <param name="newBuildKey">The new build key.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping, unused in this implementation.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy">
-            <summary>
-            Represents a strategy for mapping build keys in the build up operation.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.  Looks for the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/>
-            and if found maps the build key for the current operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/> that can map
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy"/> instance
-            that will map generic types.
-            </summary>
-            <param name="destinationKey">Build key to map to. This must be or contain an open generic type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that will look for a build plan
-            in the current context. If it exists, it invokes it, otherwise
-            it creates one and stores it for later, and invokes it.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that chooses
-            constructors based on these criteria: first, pick a constructor marked with the
-            <typeparamref name="TInjectionConstructorMarkerAttribute"/> attribute. If there
-            isn't one, then choose the constructor with the longest parameter list. If that is ambiguous,
-            then throw.
-            </summary>
-            <exception cref="T:System.InvalidOperationException">Thrown when the constructor to choose is ambiguous.</exception>
-            <typeparam name="TInjectionConstructorMarkerAttribute">Attribute used to mark the constructor to call.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that, when implemented,
-            will determine which constructor to call from the build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.ConstructorLengthComparer.Compare(System.Reflection.ConstructorInfo,System.Reflection.ConstructorInfo)">
-            <summary>
-            Compares two objects and returns a value indicating whether one is less than, equal to, or greater than the other.
-            </summary>
-            <param name="y">The second object to compare.</param>
-            <param name="x">The first object to compare.</param>
-            <returns>
-            Value Condition Less than zero is less than y. Zero equals y. Greater than zero is greater than y.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.ConstructorInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1">
-            <summary>
-            Base class for return values from selector policies that
-            return a MemberInfo of some sort plus a list of parameter
-            keys to look up the parameter resolvers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters">
-            <summary>
-            Base class for return of selector policies that need
-            to keep track of a set of parameter resolvers.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.AddParameterResolver(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Adds the parameter resolver. Resolvers are assumed
-            to be in the order of the parameters to the member.
-            </summary>
-            <param name="newResolver">The new resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.GetParameterResolvers">
-            <summary>
-            Gets the parameter resolvers.
-            </summary>
-            <returns>An array with the parameter resolvers.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.#ctor(`0)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1"/>, storing
-            the given member info.
-            </summary>
-            <param name="memberInfo">Member info to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.MemberInfo">
-            <summary>
-            The member info stored.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.#ctor(System.Reflection.ConstructorInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor"/> instance which
-            contains the given constructor.
-            </summary>
-            <param name="constructor">The constructor to wrap.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.Constructor">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="constructorSignature">A string representing the constructor being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ConstructorSignature">
-            <summary>
-            String describing the constructor being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that emits IL to call constructors
-            as part of creating a build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <remarks>Existing object is an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext"/>.</remarks>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetPerBuildSingleton(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to set up a PerResolveLifetimeManager lifetime manager
-            if the current object is such.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.CreateSignatureString(System.Reflection.ConstructorInfo)">
-            <summary>
-            Build up the string that will represent the constructor signature
-            in any exception message.
-            </summary>
-            <param name="constructor"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToInvokingConstructor(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructInterface(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an interface (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructAbstractClass(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an abstract class (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructDelegate(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an delegate other than Func{T} or Func{IEnumerable{T}}.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObject(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObjectWithInvalidConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved because of an invalid constructor.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-            <param name="signature">The signature of the invalid constructor.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ConstructorSignature">
-            <summary>
-            Constructor we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.#ctor(System.Type)">
-            <summary>
-            
-            </summary>
-            <param name="typeToBuild"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.AddToBuildPlan(System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="expression"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.CreateParameterExpression(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy,System.Type,System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="resolver"></param>
-            <param name="parameterType"></param>
-            <param name="setOperationExpression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,System.String)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolverKey">Key the resolver was stored under.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolver">The configured resolver.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.TypeToBuild">
-            <summary>
-            The type that is to be built with the dynamic build plan.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.ContextParameter">
-            <summary>
-            The context parameter representing the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> used when the build plan is executed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.#ctor(Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod)">
-            <summary>
-            
-            </summary>
-            <param name="buildMethod"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy"/> implementation
-            that constructs a build plan via dynamic IL emission.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy"/> that
-            uses the given strategy chain to construct the build plan.
-            </summary>
-            <param name="strategies">The strategy chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Construct a build plan.
-            </summary>
-            <param name="context">The current build context.</param>
-            <param name="buildKey">The current build key.</param>
-            <returns>The created build plan.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.MethodSignature">
-            <summary>
-            Method we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="methodSignature">A string representing the method being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.MethodSignature">
-            <summary>
-            String describing the method being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to call
-            chosen methods (as specified by the current <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>)
-            as part of object build up.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToInvokingMethod(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertyOperation">
-            <summary>
-            A base class that holds the information shared by all operations
-            performed by the container while setting properties.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString">
-            <summary>
-            Generate the description of this operation.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PropertyOperation.PropertyName">
-            <summary>
-            The property value currently being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to resolve properties
-            on an object being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToResolvingPropertyValue(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToSettingProperty(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being set, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">Type property is on.</param>
-            <param name="propertyName">Name of property being set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FactoryDelegateBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that will examine the given
-            types and return a sequence of <see cref="T:System.Reflection.MethodInfo"/> objects
-            that should be called as part of building the object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that selects
-            methods by looking for the given <typeparamref name="TMarkerAttribute"/>
-            attribute on those methods.
-            </summary>
-            <typeparam name="TMarkerAttribute">Type of attribute used to mark methods
-            to inject.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-            <typeparam name="TMarkerAttribute">Attribute that marks methods that should
-            be called.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.MethodInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMethod.#ctor(System.Reflection.MethodInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod"/> instance which
-            contains the given method.
-            </summary>
-            <param name="method">The method</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMethod.Method">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that returns a sequence
-            of properties that should be injected for the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that looks
-            for properties marked with the <typeparamref name="TResolutionAttribute"/>
-            attribute that are also settable and not indexers.
-            </summary>
-            <typeparam name="TResolutionAttribute"></typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty">
-            <summary>
-            Objects of this type are returned from
-            <see cref="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            This class combines the <see cref="T:System.Reflection.PropertyInfo"/> about
-            the property with the string key used to look up the resolver
-            for this property's value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedProperty.#ctor(System.Reflection.PropertyInfo,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty"/>
-            with the given <see cref="T:System.Reflection.PropertyInfo"/> and key.
-            </summary>
-            <param name="property">The property.</param>
-            <param name="resolver"></param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Property">
-            <summary>
-            PropertyInfo for this property.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Resolver">
-            <summary>
-            IDependencyResolverPolicy for this property
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy">
-            <summary>
-            A builder policy that lets you keep track of the current
-            resolvers and will remove them from the given policy set.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.GetTracker(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Get an instance that implements <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>,
-            either the current one in the policy set or creating a new one if it doesn't
-            exist.
-            </summary>
-            <param name="policies">Policy list to look up from.</param>
-            <param name="buildKey">Build key to track.</param>
-            <returns>The resolver tracker.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.TrackKey(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Object)">
-            <summary>
-            Add a key to be tracked to the current tracker.
-            </summary>
-            <param name="policies">Policy list containing the resolvers and trackers.</param>
-            <param name="buildKey">Build key for the resolvers being tracked.</param>
-            <param name="resolverKey">Key for the resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Remove the resolvers for the given build key.
-            </summary>
-            <param name="policies">Policy list containing the build key.</param>
-            <param name="buildKey">Build key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            calls back into the build chain to build up the dependency, passing
-            a type given at compile time as its build key.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Create a new instance storing the given type.
-            </summary>
-            <param name="typeToBuild">Type to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain">
-            <summary>
-            This interface defines a standard method to convert any <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> regardless
-            of the stage enum into a regular, flat strategy chain.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain.MakeStrategyChain">
-            <summary>
-            Convert this <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> into
-            a flat <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.
-            </summary>
-            <returns>The flattened <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the Buildup methods on the strategies.
-            </summary>
-            <param name="context">Context for the build process.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy">
-            <summary>
-            A builder policy used to create lifetime policy instances.
-            Used by the LifetimeStrategy when instantiating open
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> implementation that uses
-            a <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/> to figure out if an object
-            has already been created and to update or remove that
-            object from some backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1">
-            <summary>
-            Represents a chain of responsibility for builder strategies partitioned by stages.
-            </summary>
-            <typeparam name="TStageEnum">The stage enumeration to partition the strategies.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor(Microsoft.Practices.ObjectBuilder2.StagedStrategyChain{`0})">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class with an inner strategy chain to use when building.
-            </summary>
-            <param name="innerChain">The inner strategy chain to use first when finding strategies in the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy,`0)">
-            <summary>
-            Adds a strategy to the chain at a particular stage.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.AddNew``1(`0)">
-            <summary>
-            Add a new strategy for the <paramref name="stage"/>.
-            </summary>
-            <typeparam name="TStrategy">The <see cref="T:System.Type"/> of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/></typeparam>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Clear">
-            <summary>
-            Clear the current strategy chain list.
-            </summary>
-            <remarks>
-            This will not clear the inner strategy chain if this instance was created with one.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.MakeStrategyChain">
-            <summary>
-            Makes a strategy chain based on this instance.
-            </summary>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor(System.Collections.IEnumerable)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class with a collection of strategies.
-            </summary>
-            <param name="strategies">A collection of strategies to initialize the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy)">
-            <summary>
-            Adds a strategy to the chain.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.AddRange(System.Collections.IEnumerable)">
-            <summary>
-            Adds strategies to the chain.
-            </summary>
-            <param name="strategyEnumerable">The strategies to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context to build up.
-            </summary>
-            <param name="context">Context for the build processes.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.System#Collections#Generic#IEnumerable{Microsoft#Practices#ObjectBuilder2#IBuilderStrategy}#GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through the collection.
-             </summary>
-            
-             <returns>
-             A <see cref="T:System.Collections.Generic.IEnumerator`1"></see> that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through a collection.
-             </summary>
-            
-             <returns>
-             An <see cref="T:System.Collections.IEnumerator"></see> object that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey">
-            <summary>
-            Build key used to combine a type object with a string name. Used by
-            ObjectBuilder to indicate exactly what is being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance with the given
-            type and name.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for the default
-            buildup of the given type.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance. It is
-            initialized for the default key for the given type.
-            </summary>
-            <typeparam name="T">Type to build.</typeparam>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1(System.String)">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for
-            the given type and key.
-            </summary>
-            <typeparam name="T">Type to build</typeparam>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance initialized with the given type and name.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Equals(System.Object)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. Also, comparing
-            against a different type will also return false.</remarks>
-            <param name="obj">Object to compare to.</param>
-            <returns>True if the two keys are equal, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.GetHashCode">
-            <summary>
-            Calculate a hash code for this instance.
-            </summary>
-            <returns>A hash code.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Equality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for equality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>True if the values of the keys are the same, else false.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Inequality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for inequality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. If either field differs
-            the keys are not equal.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>false if the values of the keys are the same, else true.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.ToString">
-            <summary>
-            Formats the build key as a string (primarily for debugging).
-            </summary>
-            <returns>A readable string representation of the build key.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type">
-            <summary>
-            Return the <see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> stored in this build key.
-            </summary>
-            <value>The type to build.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Name">
-            <summary>
-            Returns the name stored in this build key.
-            </summary>
-            <remarks>The name to use when building.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> so that
-            you can new up a key using generic syntax.
-            </summary>
-            <typeparam name="T">Type for the key.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type and name.
-            </summary>
-            <param name="name">Name for the key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.Sequence">
-            <summary>
-            A series of helper methods to deal with sequences -
-            objects that implement <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Collect``1(``0[])">
-            <summary>
-            A function that turns an arbitrary parameter list into an
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-            <typeparam name="T">Type of arguments.</typeparam>
-            <param name="arguments">The items to put into the collection.</param>
-            <returns>An array that contains the values of the <paramref name="arguments"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Zip``2(System.Collections.Generic.IEnumerable{``0},System.Collections.Generic.IEnumerable{``1})">
-            <summary>
-            Given two sequences, return a new sequence containing the corresponding values
-            from each one.
-            </summary>
-            <typeparam name="TFirstSequenceElement">Type of first sequence.</typeparam>
-            <typeparam name="TSecondSequenceElement">Type of second sequence.</typeparam>
-            <param name="sequence1">First sequence of items.</param>
-            <param name="sequence2">Second sequence of items.</param>
-            <returns>New sequence of pairs. This sequence ends when the shorter of sequence1 and sequence2 does.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> that lets you register a
-            delegate with the container to create an object, rather than calling
-            the object's constructor.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtension">
-            <summary>
-            Base class for all <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> extension objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.InitializeExtension(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            The container calls this method when the extension is added.
-            </summary>
-            <param name="context">A <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> instance that gives the
-            extension access to the internals of the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Remove">
-            <summary>
-            Removes the extension's functions from the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is called when extensions are being removed from the container. It can be
-            used to do things like disconnect event handlers or clean up member state. You do not
-            need to remove strategies or policies here; the container will do that automatically.
-            </para>
-            <para>
-            The default implementation of this method does nothing.</para>
-            </remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Container">
-            <summary>
-            The container this extension has been added to.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> that this extension has been added to.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Context">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> object used to manipulate
-            the inner state of the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.Initialize">
-            <summary>
-            Initialize this extension. This particular extension requires no
-            initialization work.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that
-            acts as a decorator over another <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            This checks to see if the current type being built is the
-            right one before checking the inner <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.#ctor(System.Type,Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/>
-            </summary>
-            <param name="targetType">Type to check for.</param>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/> that lets you
-            specify the type to construct via generics syntax.
-            </summary>
-            <typeparam name="T">Type to check for.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride`1.#ctor(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride`1"/>.
-            </summary>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtensions">
-            <summary>
-            Extension class that adds a set of convenience overloads to the
-            <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <typeparam name="T">Type this registration is for.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping and transient lifetime.
-            </para>
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name of this mapping.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to configure injection on.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type this registration is for.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping.
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to configure in the container.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <param name="container">Container to resolve from.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.ResolveAll``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <typeparam name="T">The type requested.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <typeparamref name="T"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <param name="container">Container to resolve through.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.AddNewExtension``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Creates a new extension object and adds it to the container.
-            </summary>
-            <typeparam name="TExtension">Type of <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add. The extension type
-            will be resolved from within the supplied <paramref name="container"/>.</typeparam>
-            <param name="container">Container to add the extension to.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Configure``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <typeparam name="TConfigurator">The configuration interface required.</typeparam>
-            <param name="container">Container to configure.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Check if a particular type has been registered with the container with
-            the default name.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Check if a particular type has been registered with the container with the default name.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExtensionContext">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> class provides the means for extension objects
-            to manipulate the internal state of the <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExtensionContext.RegisterNamedType(System.Type,System.String)">
-            <summary>
-            Store a type/name pair for later resolution.
-            </summary>
-            <remarks>
-            <para>
-            When users register type mappings (or other things) with a named key, this method
-            allows you to register that name with the container so that when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])"/>
-            method is called, that name is included in the list that is returned.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> to register.</param>
-            <param name="name">Name associated with that type.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Container">
-            <summary>
-            The container that this context is associated with.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> object.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Strategies">
-            <summary>
-            The strategies this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that the container uses to build objects.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.BuildPlanStrategies">
-            <summary>
-            The strategies this container uses to construct build plans.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that this container uses when creating
-            build plans.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Policies">
-            <summary>
-            The policies this container uses.
-            </summary>
-            <remarks>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> the that container uses to build objects.</remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Lifetime">
-            <summary>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> that this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> is used to manage <see cref="T:System.IDisposable"/> objects that the container is managing.</value>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.Registering">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer"/> method is called, providing 
-            the newly created child container to extensions to act on as they see fit.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedEventArgs">
-            <summary>
-            An EventArgs class that holds a string Name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with a null name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with the given name.
-            </summary>
-            <param name="name">Name to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.NamedEventArgs.Name">
-            <summary>
-            The name.
-            </summary>
-            <value>Name used for this EventArg object.</value>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.Registering"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterEventArgs.#ctor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.RegisterEventArgs"/>.
-            </summary>
-            <param name="typeFrom">Type to map from.</param>
-            <param name="typeTo">Type to map to.</param>
-            <param name="name">Name for the registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeFrom">
-            <summary>
-            Type to map from.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeTo">
-            <summary>
-            Type to map to.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager">
-            <summary>
-            <see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor(System.Type,System.Object,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance initialized with the given arguments.
-            </summary>
-            <param name="registeredType">Type of instance being registered.</param>
-            <param name="instance">The instance object itself.</param>
-            <param name="name">Name to register under, null if default registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager"/> object that handles how
-            the instance will be owned.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.RegisteredType">
-            <summary>
-            Type of instance being registered.
-            </summary>
-            <value>
-            Type of instance being registered.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.Instance">
-            <summary>
-            Instance object being registered.
-            </summary>
-            <value>Instance object being registered</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager">
-            <summary>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls ownership of
-            this instance.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an array containing the registered instances of a generic type parameter 
-            should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-            <remarks>A type is considered compatible if it is an array type of rank one
-            and its element type is a generic type parameter with a name matching this generic
-            parameter name configured for the receiver.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericResolvedArrayParameter.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectedMembers">
-            <summary>
-            A Unity container extension that allows you to configure
-            which constructors, properties, and methods get injected
-            via an API rather than through attributes.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="name">Name of registration</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="serviceType">Type of interface/base class being registered (may be null).</param>
-            <param name="implementationType">Type of actual implementation class being registered.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionConstructor">
-            <summary>
-            A class that holds the collection of information
-            for a constructor, so that the container can
-            be configured to call this constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.#ctor(System.Object[])">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionConstructor"/> that looks
-            for a constructor with the given set of parameters.
-            </summary>
-            <param name="parameterValues">The values for the parameters, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMethod">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> that configures the
-            container to call a method as part of buildup.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionMethod"/> instance which will configure
-            the container to call the given methods with the given parameters.
-            </summary>
-            <param name="methodName">Name of the method to call.</param>
-            <param name="methodParameters">Parameter values for the method.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.MethodNameMatches(System.Reflection.MemberInfo,System.String)">
-            <summary>
-            A small function to handle name matching. You can override this
-            to do things like case insensitive comparisons.
-            </summary>
-            <param name="targetMethod">MethodInfo for the method you're checking.</param>
-            <param name="nameToMatch">Name of the method you're looking for.</param>
-            <returns>True if a match, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter">
-            <summary>
-            A class that holds on to the given value and provides
-            the required <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            when the container is configured.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, using the runtime type of that value as the
-            type of the parameter.
-            </summary>
-            <param name="parameterValue">Value to be injected for this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, associated with the given type.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-            <param name="parameterValue">Value of the parameter</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that makes it a
-            little easier to specify the type of the parameter.
-            </summary>
-            <typeparam name="TParameter">Type of parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter`1.#ctor(`0)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionParameter`1"/>.
-            </summary>
-            <param name="parameterValue">Value for the parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionProperty">
-            <summary>
-            This class stores information about which properties to inject,
-            and will configure the container accordingly.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String)">
-            <summary>
-            Configure the container to inject the given property name,
-            resolving the value via the container.
-            </summary>
-            <param name="propertyName">Name of the property to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String,System.Object)">
-            <summary>
-            Configure the container to inject the given property name,
-            using the value supplied. This value is converted to an
-            <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object using the
-            rules defined by the <see cref="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])"/>
-            method.
-            </summary>
-            <param name="propertyName">Name of property to inject.</param>
-            <param name="propertyValue">Value for property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface being registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter">
-            <summary>
-            A class that stores a type, and generates a 
-            resolver object that resolves all the named instances or the
-            type registered in a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given element type and collection of element values.
-            </summary>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given array and element types and collection of element values.
-            </summary>
-            <param name="arrayParameterType">The type for the array of elements to resolve.</param>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TElement">Type of the elements for the array of the parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter`1.#ctor(System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1"/> that
-            resolves to the given element generic type with the given element values.
-            </summary>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainer">
-            <summary>
-            Interface defining the behavior of the Unity dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the TypeMappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Configure(System.Type)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds a weak reference to
-            it's managed instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManagerFactory">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy"/> that
-            creates instances of the type of the given Lifetime Manager
-            by resolving them through the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.#ctor(Microsoft.Practices.Unity.ExtensionContext,System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.LifetimeManagerFactory"/> that will
-            return instances of the given type, creating them by
-            resolving through the container.
-            </summary>
-            <param name="containerContext">Container to resolve with.</param>
-            <param name="lifetimeType">Type of LifetimeManager to create.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.LifetimeManagerFactory.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerThreadLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds the instances given to it, 
-            keeping one instance per thread.
-            </summary>
-            <remarks>
-            <para>
-            This LifetimeManager does not dispose the instances it holds.
-            </para>
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.PerThreadLifetimeManager"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy for the 
-            current thread.
-            </summary>
-            <returns>the object desired, or <see langword="null"/> if no such object is currently 
-            stored for the current thread.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later when requested
-            in the current thread.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-            <remarks>Not implemented for this lifetime manager.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TransientLifetimeManager">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> implementation that does nothing,
-            thus ensuring that instances are created new every time.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ArrayResolutionStrategy">
-            <summary>
-            This strategy implements the logic that will call container.ResolveAll
-            when an array parameter is detected.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ArrayResolutionStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Do the PreBuildUp stage of construction. This is where the actual work is performed.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that is
-            aware of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <remarks>
-            This implementation looks for the Unity <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> on the
-            parameter and uses it to create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            for this parameter.</remarks>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that is aware
-            of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that is aware of
-            the build keys used by the unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> implementation that returns
-            the value set in the constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.#ctor(System.Object)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy"/>
-            which will return the given value when resolved.
-            </summary>
-            <param name="dependencyValue">The value to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that stores a
-            type and name, and at resolution time puts them together into a
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            with the given type and name.
-            </summary>
-            <param name="type">The type.</param>
-            <param name="name">The name (may be null).</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Type">
-            <summary>
-            The type that this resolver resolves.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Name">
-            <summary>
-            The name that this resolver resolves.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that resolves to
-            to an array populated with the values that result from resolving other instances
-            of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.#ctor(System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy"/>
-            with the given type and a collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            instances to use when populating the result.
-            </summary>
-            <param name="elementType">The type.</param>
-            <param name="elementPolicies">The resolver policies to use when populating an array.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>An array populated with the results of resolving the resolver policies.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that selects
-            the given constructor and creates the appropriate resolvers to call it with
-            the specified parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.#ctor(System.Reflection.ConstructorInfo,Microsoft.Practices.Unity.InjectionParameterValue[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy"/> that
-            will return the given constructor, being passed the given injection values
-            as parameters.
-            </summary>
-            <param name="ctor">The constructor to call.</param>
-            <param name="parameterValues">Set of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describes how to obtain the values for the constructor parameters.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper">
-            <summary>
-            Helper class for implementing selector policies that need to
-            set up dependency resolver policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper.AddParameterResolvers(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue},Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters)">
-            <summary>
-            Add dependency resolvers to the parameter set.
-            </summary>
-            <param name="typeToBuild">Type that's currently being built (used to resolve open generics).</param>
-            <param name="policies">PolicyList to add the resolvers to.</param>
-            <param name="parameterValues">Objects supplying the dependency resolvers.</param>
-            <param name="result">Result object to store the keys in.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> implementation that calls the specific
-            methods with the given parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.AddMethodAndParameters(System.Reflection.MethodInfo,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue})">
-            <summary>
-            Add the given method and parameter collection to the list of methods
-            that will be returned when the selector's <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>
-            method is called.
-            </summary>
-            <param name="method">Method to call.</param>
-            <param name="parameters">sequence of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describe how to create the method parameter values.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> which returns
-            the set of specific properties that the selector was configured with.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.AddPropertyAndValue(System.Reflection.PropertyInfo,Microsoft.Practices.Unity.InjectionParameterValue)">
-            <summary>
-            Add a property that will be par of the set returned when the 
-            <see cref="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/> is called.
-            </summary>
-            <param name="property">The property to set.</param>
-            <param name="value"><see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object describing
-            how to create the value to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolutionFailedException">
-            <summary>
-            The exception thrown by the Unity container when
-            an attempt to resolve a dependency fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolutionFailedException.#ctor(System.Type,System.String,System.Exception,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolutionFailedException"/> that records
-            the exception for the given type and name.
-            </summary>
-            <param name="typeRequested">Type requested from the container.</param>
-            <param name="nameRequested">Name requested from the container.</param>
-            <param name="innerException">The actual exception that caused the failure of the build.</param>
-            <param name="context">The build context representing the failed operation.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.TypeRequested">
-            <summary>
-            The type that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.NameRequested">
-            <summary>
-            The name that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter">
-            <summary>
-            A class that stores a name and type, and generates a 
-            resolver object that resolves the parameter via the
-            container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves to the given type.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves the given type and name.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-            <param name="name">Name to use when resolving parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TParameter">Type of the parameter</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and the default name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and name.
-            </summary>
-            <param name="name">Name to use to resolve this parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityServiceLocator">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/> that wraps a Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.#ctor(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.UnityServiceLocator"/> class for a container.
-            </summary>
-            <param name="container">The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> to wrap with the <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/>
-            interface implementation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetInstance(System.Type,System.String)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of resolving
-                        the requested service instance.
-            </summary>
-            <param name="serviceType">Type of instance requested.</param><param name="key">Name of registered service you want. May be null.</param>
-            <returns>
-            The requested service instance.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetAllInstances(System.Type)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of
-                        resolving all the requested service instances.
-            </summary>
-            <param name="serviceType">Type of service requested.</param>
-            <returns>
-            Sequence of service instance objects.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Guard">
-            <summary>
-            A static helper class that includes various parameter checking routines.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNull(System.Object,System.String)">
-            <summary>
-            Throws <see cref="T:System.ArgumentNullException"/> if the given argument is null.
-            </summary>
-            <exception cref="T:System.ArgumentNullException"> if tested value if null.</exception>
-            <param name="argumentValue">Argument value to test.</param>
-            <param name="argumentName">Name of the argument being tested.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNullOrEmpty(System.String,System.String)">
-            <summary>
-            Throws an exception if the tested string argument is null or the empty string.
-            </summary>
-            <exception cref="T:System.ArgumentNullException">Thrown if string value is null.</exception>
-            <exception cref="T:System.ArgumentException">Thrown if the string is empty</exception>
-            <param name="argumentValue">Argument value to check.</param>
-            <param name="argumentName">Name of argument being checked.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.TypeIsAssignable(System.Type,System.Type,System.String)">
-            <summary>
-            Verifies that an argument type is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentValueType">The type of the value being assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.InstanceIsAssignable(System.Type,System.Object,System.String)">
-            <summary>
-            Verifies that an argument instance is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy, or instance can be 
-            assigned through a runtime wrapper, as is the case for COM Objects).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentInstance">The instance that will be assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedTypesRegistry">
-            <summary>
-            A helper class to manage the names that get registered in the container  
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage">
-            <summary>
-            The build stages we use in the Unity container
-            strategy pipeline.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Setup">
-            <summary>
-            First stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.TypeMapping">
-            <summary>
-            Second stage. Type mapping occurs here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Lifetime">
-            <summary>
-            Third stage. lifetime managers are checked here,
-            and if they're available the rest of the pipeline is skipped.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PreCreation">
-            <summary>
-            Fourth stage. Reflection over constructors, properties, etc. is
-            performed here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Creation">
-            <summary>
-            Fifth stage. Instance creation happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Initialization">
-            <summary>
-            Sixth stage. Property sets and method injection happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PostInitialization">
-            <summary>
-            Seventh and final stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.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:Microsoft.Practices.Unity.Properties.Resources.AmbiguousInjectionConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors of length {1}. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ArgumentMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.BuildFailedException">
-            <summary>
-              Looks up a localized string similar to The current build operation (build key {2}) failed: {3} (Strategy type {0}, index {1}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructAbstractClass">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an abstract class and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructDelegate">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is delegate and cannot be constructed. Unity only supports resolving Func&lt;T&gt; and Func&lt;IEnumerable&lt;T&gt;&gt; by default..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructInterface">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an interface and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotExtractTypeFromBuildKey">
-            <summary>
-              Looks up a localized string similar to Cannot extract type from build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is an open generic method. Open generic methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectIndexer">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is an indexer. Indexed properties cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParam">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} has an out parameter. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one out parameter. Methods with out parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithRefParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one ref parameter.Methods with ref parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectOpenGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} is marked for injection, but it is an open generic method. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectStaticMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is static. Static methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotResolveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is an open generic type. An open generic type cannot be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of constructor {1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The parameter {0} could not be resolved when attempting to call constructor {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ExceptionNullParameterValue">
-            <summary>
-              Looks up a localized string similar to Parameter type inference does not work for null values. Indicate the parameter type explicitly using a properly configured instance of the InjectionParameter or InjectionParameter&lt;T&gt; classes..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingConstructorOperation">
-            <summary>
-              Looks up a localized string similar to Calling constructor {0}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingMethodOperation">
-            <summary>
-              Looks up a localized string similar to Calling method {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.KeyAlreadyPresent">
-            <summary>
-              Looks up a localized string similar to An item with the given key is already present in the dictionary..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.LifetimeManagerInUse">
-            <summary>
-              Looks up a localized string similar to The lifetime manager is already registered. Lifetime managers cannot be reused, please create a new one..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MarkerBuildPlanInvoked">
-            <summary>
-              Looks up a localized string similar to The override marker build plan policy has been invoked. This should never happen, looks like a bug in the container..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of method {1}.{2}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for parameter &quot;{1}&quot; of method {0} could not be resolved. .
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MissingDependency">
-            <summary>
-              Looks up a localized string similar to Could not resolve dependency for build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MultipleInjectionConstructors">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors marked with the InjectionConstructor attribute. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} must be an open generic type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveSameNumberOfGenericArguments">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} does not have the same number of generic arguments as the target type {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoConstructorFound">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have an accessible constructor..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoMatchingGenericArgument">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a generic argument named &quot;{1}&quot;.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoOperationExceptionReason">
-            <summary>
-              Looks up a localized string similar to while resolving.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a constructor that takes the parameters ({1})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchMethod">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a public method named {1} that takes the parameters ({2})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchProperty">
-            <summary>
-              Looks up a localized string similar to The type {0} does not contain an instance property named {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is not a generic type, and you are attempting to inject a generic parameter named &quot;{1}&quot;..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAnArrayTypeWithRankOne">
-            <summary>
-              Looks up a localized string similar to The type {0} is not an array type with rank 1, and you are attempting to use a [DependencyArray] attribute on a parameter or property with this type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.OptionalDependenciesMustBeReferenceTypes">
-            <summary>
-              Looks up a localized string similar to Optional dependencies must be reference types. The type {0} is a value type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyNotSettable">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is not settable..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyTypeMismatch">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is of type {2}, and cannot be injected with a value of type {3}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyValueResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for the property &quot;{0}&quot; could not be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ProvidedStringArgMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionFailed">
-             <summary>
-               Looks up a localized string similar to Resolution of the dependency failed, type = &quot;{0}&quot;, name = &quot;{1}&quot;.
-            Exception occurred while: {2}.
-            Exception is: {3} - {4}
-            -----------------------------------------------
-            At the time of the exception, the container was:
-            .
-             </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionWithMappingTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1} (mapped from {2}, {3}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolvingPropertyValueOperation">
-            <summary>
-              Looks up a localized string similar to Resolving value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SelectedConstructorHasRefParameters">
-            <summary>
-              Looks up a localized string similar to The constructor {1} selected for type {0} has ref or out parameters. Such parameters are not supported for constructor injection..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SettingPropertyOperation">
-            <summary>
-              Looks up a localized string similar to Setting value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypeIsNotConstructable">
-            <summary>
-              Looks up a localized string similar to The type {0} cannot be constructed. You must configure the container to supply this value..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypesAreNotAssignable">
-            <summary>
-              Looks up a localized string similar to The type {1} cannot be assigned to variables of type {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.UnknownType">
-            <summary>
-              Looks up a localized string similar to &lt;unknown&gt;.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer">
-            <summary>
-            A simple, extensible dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor(Microsoft.Practices.Unity.UnityContainer)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> with the given parent container.
-            </summary>
-            <param name="parent">The parent <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>. The current object
-            will apply its own settings first, and then check the parent for additional ones.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            RegisterType a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            RegisterType an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <para>If true, the container will take over the lifetime of the instance,
-            calling Dispose on it (if it's <see cref="T:System.IDisposable"/>) when the container is Disposed.</para>
-            <para>
-             If false, container will not maintain a strong reference to <paramref name="instance"/>. User is responsible
-            for disposing instance, and for keeping the instance from being garbage collected.</para></param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Get an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Configure(System.Type)">
-            <summary>
-            Get access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            Disposing the container also disposes any child containers,
-            and disposes any instances whose lifetimes are managed
-            by the container.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose(System.Boolean)">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            This class doesn't have a finalizer, so <paramref name="disposing"/> will always be true.</remarks>
-            <param name="disposing">True if being called from the IDisposable.Dispose
-            method, false if being called from a finalizer.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ClearExistingBuildPlan(System.Type,System.String)">
-            <summary>
-            Remove policies associated with building this type. This removes the
-            compiled build plan so that it can be rebuilt with the new settings
-            the next time this type is resolved.
-            </summary>
-            <param name="typeToInject">Type of object to clear the plan for.</param>
-            <param name="name">Name the object is being registered with.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl">
-            <summary>
-            Implementation of the ExtensionContext that is actually used
-            by the UnityContainer implementation.
-            </summary>
-            <remarks>
-            This is a nested class so that it can access state in the
-            container that would otherwise be inaccessible.
-            </remarks>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension">
-            <summary>
-            This extension supplies the default behavior of the UnityContainer API
-            by handling the context events and setting policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension.Initialize">
-            <summary>
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diff --git a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.XML b/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.XML
deleted file mode 100644
index b706e6f..0000000
--- a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.XML
+++ /dev/null
@@ -1,306 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Microsoft.Practices.Unity.RegistrationByConvention</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.Unity.AllClasses">
-            <summary>
-            Provides helper methods to retrieve classes from assemblies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Reflection.Assembly[])">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>.
-            </summary>
-            <param name="assemblies">The assemblies.</param>
-            <returns>All visible, non-abstract classes found in the assemblies.</returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>All exceptions thrown while getting types from the assemblies are ignored, and the types that can be retrieved are returned.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Boolean,System.Reflection.Assembly[])">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>, and optionally skips errors.
-            </summary>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <param name="assemblies">The assemblies.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
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-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Collections.Generic.IEnumerable{System.Reflection.Assembly},System.Boolean)">
-            <summary>
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-            </summary>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <param name="assemblies">The assemblies.</param>
-            <returns>
-            All visible, non-abstract classes.
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-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
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-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromApplication(System.Boolean,System.Boolean)">
-            <summary>
-            Returns all visible, non-abstract classes from all assemblies located where the application is installed.
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-            <param name="includeUnityAssemblies"><see langword="false"/> to include the Unity assemblies; otherwise, <see langword="false"/>. Defaults to <see langword="false"/>.</param>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
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-            <remarks>
-            If <paramref name="skipOnError"/> is <see langword="true"/>, all exceptions thrown while loading assemblies or getting types from the assemblies 
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-            <summary>
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-        <member name="M:Microsoft.Practices.Unity.DuplicateTypeMappingException.#ctor(System.String,System.Type,System.Type,System.Type)">
-            <summary>
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-            <param name="name">The name for the mapping.</param>
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-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetName">
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deleted file mode 100644
index d6b2432..0000000
Binary files a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.pri b/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.pri
deleted file mode 100644
index 7a2c9e2..0000000
Binary files a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.RegistrationByConvention.pri and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.dll b/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.dll
deleted file mode 100644
index 0d8c004..0000000
Binary files a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.xml b/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.xml
deleted file mode 100644
index f99ca70..0000000
--- a/src/packages/Unity.4.0.1/lib/win8/Microsoft.Practices.Unity.xml
+++ /dev/null
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-            <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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.MakeOverride(`1,`2)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverrides.MakeOverride(System.Type,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.#ctor(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs"/> object with the
-            given child container object.
-            </summary>
-            <param name="childContext">An <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> for the newly created child
-            container.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContainer">
-            <summary>
-            The newly created child container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContext">
-            <summary>
-            An extension context for the created child container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameterBase">
-            <summary>
-            Base class for <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> subclasses that let you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameterValue">
-            <summary>
-            Base type for objects that are used to configure parameters for
-            constructor or method injection, or for getting the value to
-            be injected into a property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])">
-            <summary>
-            Convert the given set of arbitrary values to a sequence of InjectionParameterValue
-            objects. The rules are: If it's already an InjectionParameterValue, return it. If
-            it's a Type, return a ResolvedParameter object for that type. Otherwise return
-            an InjectionParameter object for that value.
-            </summary>
-            <param name="values">The values to build the sequence from.</param>
-            <returns>The resulting converted sequence.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameter(System.Object)">
-            <summary>
-            Convert an arbitrary value to an InjectionParameterValue object. The rules are: 
-            If it's already an InjectionParameterValue, return it. If it's a Type, return a
-            ResolvedParameter object for that type. Otherwise return an InjectionParameter
-            object for that value.
-            </summary>
-            <param name="value">The value to convert.</param>
-            <returns>The resulting <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.InjectionParameterValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericParameterBase.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalGenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved, providing the <see langword="null"/>
-            value if resolving fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionFactory">
-            <summary>
-            A class that lets you specify a factory method the container
-            will use to create the object.
-            </summary>
-            <remarks>This is a significantly easier way to do the same
-            thing the old static factory extension was used for.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMember">
-            <summary>
-            Base class for objects that can be used to configure what
-            class members get injected by the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="typeToCreate">Type to register.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null. This parameter is ignored in this implementation.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that can be passed to
-            <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> to configure a
-            parameter or property as an optional dependency.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypedInjectionValue">
-            <summary>
-            A base class for implementing <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> classes
-            that deal in explicit types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.TypedInjectionValue"/> that exposes
-            information about the given <paramref name="parameterType"/>.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterType">
-            <summary>
-            The type of parameter this object represents.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/> and <paramref name="name"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-            <param name="name">Name for the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.OptionalParameter"></see> that lets you
-            specify the type of the dependency using generics syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/> with the given
-            <paramref name="name"/>.
-            </summary>
-            <param name="name">Name of the dependency.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeManager">
-            <summary>
-            A special lifetime manager which works like <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/>,
-            except that in the presence of child containers, each child gets it's own instance
-            of the object, instead of sharing one in the common parent.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds onto the instance given to it.
-            When the <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/> is disposed,
-            the instance is disposed with it.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager">
-            <summary>
-            Base class for Lifetime managers which need to synchronize calls to
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.
-            </summary>
-            <remarks>
-            <para>
-            The purpose of this class is to provide a basic implementation of the lifetime manager synchronization pattern.
-            </para>
-            <para>
-            Calls to the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/> method of a <see cref="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager"/> 
-            instance acquire a lock, and if the instance has not been initialized with a value yet the lock will only be released 
-            when such an initialization takes place by calling the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/> method or if 
-            the build request which resulted in the call to the GetValue method fails.
-            </para>
-            </remarks>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManager">
-            <summary>
-            Base class for Lifetime managers - classes that control how
-            and when instances are created by the Unity container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that controls how instances are
-            persisted and recovered from an external store. Used to implement
-            things like singletons and per-http-request lifetime.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.RemoveValue">
-            <summary>
-            Remove the value this lifetime policy is managing from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery">
-            <summary>
-            This interface provides a hook for the builder context to
-            implement error recovery when a builder strategy throws
-            an exception. Since we can't get try/finally blocks onto
-            the call stack for later stages in the chain, we instead
-            add these objects to the context. If there's an exception,
-            all the current IRequiresRecovery instances will have
-            their Recover methods called.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>Calls to this method acquire a lock which is released only if a non-null value
-            has been set for the lifetime manager.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Performs the actual retrieval of a value from the backing store associated 
-            with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>
-            after it has acquired its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>Setting a value will attempt to release the lock acquired by 
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Performs the actual storage of the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/>
-            before releasing its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose(System.Boolean)">
-            <summary>
-            Standard Dispose pattern implementation. Not needed, but it keeps FxCop happy.
-            </summary>
-            <param name="disposing">Always true, since we don't have a finalizer.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerResolveLifetimeManager">
-            <summary>
-            This is a custom lifetime manager that acts like <see cref="T:Microsoft.Practices.Unity.TransientLifetimeManager"/>,
-            but also provides a signal to the default build plan, marking the type so that
-            instances are reused across the build up object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that does not
-            itself manage an instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that stores the
-            give value. This value will be returned by <see cref="M:Microsoft.Practices.Unity.LifetimeManager.GetValue"/>
-            but is not stored in the lifetime manager, nor is the value disposed.
-            This Lifetime manager is intended only for internal use, which is why the
-            normal <see cref="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)"/> method is not used here.
-            </summary>
-            <param name="value">Value to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later. In this class,
-            this is a noop, since it has special hooks down in the guts.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store. Noop in this class.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy">
-            <summary>
-            A strategy that handles Hierarchical lifetimes across a set of parent/child
-            containers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown. Although you
-            can implement this interface directly, you may also choose to use
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> as the base class for your strategies, as
-            this class provides useful helper methods and makes support BuildUp and TearDown
-            optional.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that will attempt to
-            resolve a value, and return null if it cannot rather than throwing.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy">
-            <summary>
-            A strategy that is used at build plan execution time
-            to resolve a dependent value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given name and type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-            <param name="name">Name to resolve with.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.DependencyType">
-            <summary>
-            Type this resolver will resolve.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Name">
-            <summary>
-            Name this resolver will resolve.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions">
-            <summary>
-            Extension methods on <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to provide convenience
-            overloads (generic versions, mostly).
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Clear``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.ClearDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Set``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.SetDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface to register the policy under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildOperation">
-            <summary>
-            Base class for the current operation stored in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildOperation.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildOperation"/>.
-            </summary>
-            <param name="typeBeingConstructed">Type currently being built.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuildOperation.TypeBeingConstructed">
-            <summary>
-            The type that's currently being built.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DeferredResolveBuildPlanPolicy">
-            <summary>
-            Build plan for <see cref="T:System.Func`1"/> that will return a Func that will resolve the requested type
-            through this container later.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy">
-            <summary>
-            A build plan is an object that, when invoked, will create a new object
-            or fill in a given existing one. It encapsulates all the information
-            gathered by the strategies to construct a particular object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.OverriddenBuildPlanMarkerPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions">
-            <summary>
-            The almost inevitable collection of extra helper methods on
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/> to augment the rich set of what
-            LINQ already gives us.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.ForEach``1(System.Collections.Generic.IEnumerable{``0},System.Action{``0})">
-            <summary>
-            Execute the provided <paramref name="action"/> on every item in <paramref name="sequence"/>.
-            </summary>
-            <typeparam name="TItem">Type of the items stored in <paramref name="sequence"/></typeparam>
-            <param name="sequence">Sequence of items to process.</param>
-            <param name="action">Code to run over each item.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String,System.Func{``0,System.String})">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the given <paramref name="converter"/>.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <param name="converter">The conversion function to change TItem -&gt; string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String)">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the item's <see cref="M:System.Object.ToString"/> method.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that lets you
-            override a named parameter passed to a constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> object that will
-            override the given named constructor parameter, and pass the given
-            value.
-            </summary>
-            <param name="parameterName">Name of the constructor parameter.</param>
-            <param name="parameterValue">Value to pass for the constructor.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that lets you override
-            the value for a specified property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/>.
-            </summary>
-            <param name="propertyName">The property name.</param>
-            <param name="propertyValue">Value to use for the property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/> that lets you
-            specify multiple property overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration">
-            <summary>
-            Interface defining the configuration interface exposed by the
-            Static Factory extension.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator">
-            <summary>
-            Base interface for all extension configuration interfaces.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator.Container">
-            <summary>
-            Retrieve the container instance that we are currently configuring.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>Any policies added to this object are transient
-            and will be erased at the end of the buildup.</remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class with a <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>, 
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/>, <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> and the 
-            build key used to start this build operation. 
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="policies">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to use for this context.</param>
-            <param name="originalBuildKey">Build key to start building.</param>
-            <param name="existing">The existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="existing">Existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.Unity.CompositeResolverOverride)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="resolverOverrides">The resolver overrides.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>
-            Any modifications will be transient (meaning, they will be forgotten when 
-            the outer BuildUp for this context is finished executing).
-            </remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException">
-            <summary>
-            Represents that a dependency could not be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with no extra information.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given message.
-            </summary>
-            <param name="message">Some random message.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String,System.Exception)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given
-            message and inner exception.
-            </summary>
-            <param name="message">Some random message</param>
-            <param name="innerException">Inner exception.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.Object)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the build key of the object begin built.
-            </summary>
-            <param name="buildKey">The build key of the object begin built.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException">
-            <summary>
-            The exception thrown when injection is attempted on a method
-            that is an open generic or has out or ref params.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with no
-            message.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            </summary>
-            <param name="message">Message to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String,System.Exception)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            and inner exception.
-            </summary>
-            <param name="message">Message to return.</param>
-            <param name="innerException">Inner exception</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions">
-            <summary>
-            Extension methods to provide convenience overloads over the
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Start a recursive build up operation to retrieve the default
-            value for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type of object to build.</typeparam>
-            <param name="context">Parent context.</param>
-            <returns>Resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            Start a recursive build up operation to retrieve the named
-            implementation for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type to resolve.</typeparam>
-            <param name="context">Parent context.</param>
-            <param name="name">Name to resolve with.</param>
-            <returns>The resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.AddResolverOverrides(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the context, specified as a 
-            variable argument list.
-            </summary>
-            <param name="context">Context to add overrides to.</param>
-            <param name="overrides">The overrides.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack">
-            <summary>
-            Data structure that stores the set of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/>
-            objects and executes them when requested.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose(System.Boolean)">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-            <param name="disposing">
-            true to release managed and unmanaged resources; false to release only unmanaged resources.
-            </param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.System#Collections#IEnumerable#GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPolicyList">
-            <summary>
-            A custom collection over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyList">
-            <summary>
-            A custom collection wrapper over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class with another policy list.
-            </summary>
-            <param name="innerPolicyList">An inner policy list to search.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PolicyList.Count">
-            <summary>
-            Gets the number of items in the locator.
-            </summary>
-            <value>
-            The number of items in the locator.
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.RecoveryStack">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> which will notify an object about
-            the completion of a BuildUp operation, or start of a TearDown operation.
-            </summary>
-            <remarks>
-            This strategy checks the object that is passing through the builder chain to see if it
-            implements IBuilderAware and if it does, it will call <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)"/>
-            and <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown"/>. This strategy is meant to be used from the
-            <see cref="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization"/> stage.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderAware">
-            <summary>
-            Implemented on a class when it wants to receive notifications
-            about the build process.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being built up.
-            </summary>
-            <param name="buildKey">The key of the object that was just built up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being torn down.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStage">
-            <summary>
-            Enumeration to represent the object builder stages.
-            </summary>
-            <remarks>
-            The order of the values in the enumeration is the order in which the stages are run.
-            </remarks>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PreCreation">
-            <summary>
-            Strategies in this stage run before creation. Typical work done in this stage might
-            include strategies that use reflection to set policies into the context that other
-            strategies would later use.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Creation">
-            <summary>
-            Strategies in this stage create objects. Typically you will only have a single policy-driven
-            creation strategy in this stage.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Initialization">
-            <summary>
-            Strategies in this stage work on created objects. Typical work done in this stage might
-            include setter injection and method calls.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization">
-            <summary>
-            Strategies in this stage work on objects that are already initialized. Typical work done in
-            this stage might include looking to see if the object implements some notification interface
-            to discover when its initialization stage has been completed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping. This parameter can be null
-            (called when getting container registrations).</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy"/> with the new build key.
-            </summary>
-            <param name="newBuildKey">The new build key.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping, unused in this implementation.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy">
-            <summary>
-            Represents a strategy for mapping build keys in the build up operation.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.  Looks for the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/>
-            and if found maps the build key for the current operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/> that can map
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy"/> instance
-            that will map generic types.
-            </summary>
-            <param name="destinationKey">Build key to map to. This must be or contain an open generic type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that will look for a build plan
-            in the current context. If it exists, it invokes it, otherwise
-            it creates one and stores it for later, and invokes it.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that chooses
-            constructors based on these criteria: first, pick a constructor marked with the
-            <typeparamref name="TInjectionConstructorMarkerAttribute"/> attribute. If there
-            isn't one, then choose the constructor with the longest parameter list. If that is ambiguous,
-            then throw.
-            </summary>
-            <exception cref="T:System.InvalidOperationException">Thrown when the constructor to choose is ambiguous.</exception>
-            <typeparam name="TInjectionConstructorMarkerAttribute">Attribute used to mark the constructor to call.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that, when implemented,
-            will determine which constructor to call from the build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.ConstructorLengthComparer.Compare(System.Reflection.ConstructorInfo,System.Reflection.ConstructorInfo)">
-            <summary>
-            Compares two objects and returns a value indicating whether one is less than, equal to, or greater than the other.
-            </summary>
-            <param name="y">The second object to compare.</param>
-            <param name="x">The first object to compare.</param>
-            <returns>
-            Value Condition Less than zero is less than y. Zero equals y. Greater than zero is greater than y.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.ConstructorInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1">
-            <summary>
-            Base class for return values from selector policies that
-            return a MemberInfo of some sort plus a list of parameter
-            keys to look up the parameter resolvers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters">
-            <summary>
-            Base class for return of selector policies that need
-            to keep track of a set of parameter resolvers.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.AddParameterResolver(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Adds the parameter resolver. Resolvers are assumed
-            to be in the order of the parameters to the member.
-            </summary>
-            <param name="newResolver">The new resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.GetParameterResolvers">
-            <summary>
-            Gets the parameter resolvers.
-            </summary>
-            <returns>An array with the parameter resolvers.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.#ctor(`0)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1"/>, storing
-            the given member info.
-            </summary>
-            <param name="memberInfo">Member info to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.MemberInfo">
-            <summary>
-            The member info stored.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.#ctor(System.Reflection.ConstructorInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor"/> instance which
-            contains the given constructor.
-            </summary>
-            <param name="constructor">The constructor to wrap.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.Constructor">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="constructorSignature">A string representing the constructor being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ConstructorSignature">
-            <summary>
-            String describing the constructor being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that emits IL to call constructors
-            as part of creating a build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <remarks>Existing object is an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext"/>.</remarks>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetPerBuildSingleton(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to set up a PerResolveLifetimeManager lifetime manager
-            if the current object is such.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.CreateSignatureString(System.Reflection.ConstructorInfo)">
-            <summary>
-            Build up the string that will represent the constructor signature
-            in any exception message.
-            </summary>
-            <param name="constructor"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToInvokingConstructor(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructInterface(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an interface (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructAbstractClass(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an abstract class (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructDelegate(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an delegate other than Func{T} or Func{IEnumerable{T}}.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObject(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObjectWithInvalidConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved because of an invalid constructor.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-            <param name="signature">The signature of the invalid constructor.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ConstructorSignature">
-            <summary>
-            Constructor we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.#ctor(System.Type)">
-            <summary>
-            
-            </summary>
-            <param name="typeToBuild"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.AddToBuildPlan(System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="expression"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.CreateParameterExpression(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy,System.Type,System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="resolver"></param>
-            <param name="parameterType"></param>
-            <param name="setOperationExpression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,System.String)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolverKey">Key the resolver was stored under.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolver">The configured resolver.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.TypeToBuild">
-            <summary>
-            The type that is to be built with the dynamic build plan.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.ContextParameter">
-            <summary>
-            The context parameter representing the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> used when the build plan is executed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.#ctor(Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod)">
-            <summary>
-            
-            </summary>
-            <param name="buildMethod"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy"/> implementation
-            that constructs a build plan via dynamic IL emission.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy"/> that
-            uses the given strategy chain to construct the build plan.
-            </summary>
-            <param name="strategies">The strategy chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Construct a build plan.
-            </summary>
-            <param name="context">The current build context.</param>
-            <param name="buildKey">The current build key.</param>
-            <returns>The created build plan.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.MethodSignature">
-            <summary>
-            Method we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="methodSignature">A string representing the method being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.MethodSignature">
-            <summary>
-            String describing the method being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to call
-            chosen methods (as specified by the current <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>)
-            as part of object build up.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToInvokingMethod(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertyOperation">
-            <summary>
-            A base class that holds the information shared by all operations
-            performed by the container while setting properties.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString">
-            <summary>
-            Generate the description of this operation.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PropertyOperation.PropertyName">
-            <summary>
-            The property value currently being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to resolve properties
-            on an object being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToResolvingPropertyValue(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToSettingProperty(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being set, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">Type property is on.</param>
-            <param name="propertyName">Name of property being set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FactoryDelegateBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that will examine the given
-            types and return a sequence of <see cref="T:System.Reflection.MethodInfo"/> objects
-            that should be called as part of building the object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that selects
-            methods by looking for the given <typeparamref name="TMarkerAttribute"/>
-            attribute on those methods.
-            </summary>
-            <typeparam name="TMarkerAttribute">Type of attribute used to mark methods
-            to inject.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-            <typeparam name="TMarkerAttribute">Attribute that marks methods that should
-            be called.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.MethodInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMethod.#ctor(System.Reflection.MethodInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod"/> instance which
-            contains the given method.
-            </summary>
-            <param name="method">The method</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMethod.Method">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that returns a sequence
-            of properties that should be injected for the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that looks
-            for properties marked with the <typeparamref name="TResolutionAttribute"/>
-            attribute that are also settable and not indexers.
-            </summary>
-            <typeparam name="TResolutionAttribute"></typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty">
-            <summary>
-            Objects of this type are returned from
-            <see cref="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            This class combines the <see cref="T:System.Reflection.PropertyInfo"/> about
-            the property with the string key used to look up the resolver
-            for this property's value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedProperty.#ctor(System.Reflection.PropertyInfo,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty"/>
-            with the given <see cref="T:System.Reflection.PropertyInfo"/> and key.
-            </summary>
-            <param name="property">The property.</param>
-            <param name="resolver"></param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Property">
-            <summary>
-            PropertyInfo for this property.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Resolver">
-            <summary>
-            IDependencyResolverPolicy for this property
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy">
-            <summary>
-            A builder policy that lets you keep track of the current
-            resolvers and will remove them from the given policy set.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.GetTracker(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Get an instance that implements <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>,
-            either the current one in the policy set or creating a new one if it doesn't
-            exist.
-            </summary>
-            <param name="policies">Policy list to look up from.</param>
-            <param name="buildKey">Build key to track.</param>
-            <returns>The resolver tracker.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.TrackKey(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Object)">
-            <summary>
-            Add a key to be tracked to the current tracker.
-            </summary>
-            <param name="policies">Policy list containing the resolvers and trackers.</param>
-            <param name="buildKey">Build key for the resolvers being tracked.</param>
-            <param name="resolverKey">Key for the resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Remove the resolvers for the given build key.
-            </summary>
-            <param name="policies">Policy list containing the build key.</param>
-            <param name="buildKey">Build key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            calls back into the build chain to build up the dependency, passing
-            a type given at compile time as its build key.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Create a new instance storing the given type.
-            </summary>
-            <param name="typeToBuild">Type to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain">
-            <summary>
-            This interface defines a standard method to convert any <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> regardless
-            of the stage enum into a regular, flat strategy chain.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain.MakeStrategyChain">
-            <summary>
-            Convert this <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> into
-            a flat <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.
-            </summary>
-            <returns>The flattened <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the Buildup methods on the strategies.
-            </summary>
-            <param name="context">Context for the build process.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy">
-            <summary>
-            A builder policy used to create lifetime policy instances.
-            Used by the LifetimeStrategy when instantiating open
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> implementation that uses
-            a <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/> to figure out if an object
-            has already been created and to update or remove that
-            object from some backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1">
-            <summary>
-            Represents a chain of responsibility for builder strategies partitioned by stages.
-            </summary>
-            <typeparam name="TStageEnum">The stage enumeration to partition the strategies.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor(Microsoft.Practices.ObjectBuilder2.StagedStrategyChain{`0})">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class with an inner strategy chain to use when building.
-            </summary>
-            <param name="innerChain">The inner strategy chain to use first when finding strategies in the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy,`0)">
-            <summary>
-            Adds a strategy to the chain at a particular stage.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.AddNew``1(`0)">
-            <summary>
-            Add a new strategy for the <paramref name="stage"/>.
-            </summary>
-            <typeparam name="TStrategy">The <see cref="T:System.Type"/> of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/></typeparam>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Clear">
-            <summary>
-            Clear the current strategy chain list.
-            </summary>
-            <remarks>
-            This will not clear the inner strategy chain if this instance was created with one.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.MakeStrategyChain">
-            <summary>
-            Makes a strategy chain based on this instance.
-            </summary>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor(System.Collections.IEnumerable)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class with a collection of strategies.
-            </summary>
-            <param name="strategies">A collection of strategies to initialize the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy)">
-            <summary>
-            Adds a strategy to the chain.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.AddRange(System.Collections.IEnumerable)">
-            <summary>
-            Adds strategies to the chain.
-            </summary>
-            <param name="strategyEnumerable">The strategies to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context to build up.
-            </summary>
-            <param name="context">Context for the build processes.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.System#Collections#Generic#IEnumerable{Microsoft#Practices#ObjectBuilder2#IBuilderStrategy}#GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through the collection.
-             </summary>
-            
-             <returns>
-             A <see cref="T:System.Collections.Generic.IEnumerator`1"></see> that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through a collection.
-             </summary>
-            
-             <returns>
-             An <see cref="T:System.Collections.IEnumerator"></see> object that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey">
-            <summary>
-            Build key used to combine a type object with a string name. Used by
-            ObjectBuilder to indicate exactly what is being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance with the given
-            type and name.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for the default
-            buildup of the given type.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance. It is
-            initialized for the default key for the given type.
-            </summary>
-            <typeparam name="T">Type to build.</typeparam>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1(System.String)">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for
-            the given type and key.
-            </summary>
-            <typeparam name="T">Type to build</typeparam>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance initialized with the given type and name.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Equals(System.Object)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. Also, comparing
-            against a different type will also return false.</remarks>
-            <param name="obj">Object to compare to.</param>
-            <returns>True if the two keys are equal, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.GetHashCode">
-            <summary>
-            Calculate a hash code for this instance.
-            </summary>
-            <returns>A hash code.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Equality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for equality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>True if the values of the keys are the same, else false.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Inequality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for inequality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. If either field differs
-            the keys are not equal.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>false if the values of the keys are the same, else true.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.ToString">
-            <summary>
-            Formats the build key as a string (primarily for debugging).
-            </summary>
-            <returns>A readable string representation of the build key.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type">
-            <summary>
-            Return the <see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> stored in this build key.
-            </summary>
-            <value>The type to build.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Name">
-            <summary>
-            Returns the name stored in this build key.
-            </summary>
-            <remarks>The name to use when building.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> so that
-            you can new up a key using generic syntax.
-            </summary>
-            <typeparam name="T">Type for the key.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type and name.
-            </summary>
-            <param name="name">Name for the key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.Sequence">
-            <summary>
-            A series of helper methods to deal with sequences -
-            objects that implement <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Collect``1(``0[])">
-            <summary>
-            A function that turns an arbitrary parameter list into an
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-            <typeparam name="T">Type of arguments.</typeparam>
-            <param name="arguments">The items to put into the collection.</param>
-            <returns>An array that contains the values of the <paramref name="arguments"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Zip``2(System.Collections.Generic.IEnumerable{``0},System.Collections.Generic.IEnumerable{``1})">
-            <summary>
-            Given two sequences, return a new sequence containing the corresponding values
-            from each one.
-            </summary>
-            <typeparam name="TFirstSequenceElement">Type of first sequence.</typeparam>
-            <typeparam name="TSecondSequenceElement">Type of second sequence.</typeparam>
-            <param name="sequence1">First sequence of items.</param>
-            <param name="sequence2">Second sequence of items.</param>
-            <returns>New sequence of pairs. This sequence ends when the shorter of sequence1 and sequence2 does.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> that lets you register a
-            delegate with the container to create an object, rather than calling
-            the object's constructor.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtension">
-            <summary>
-            Base class for all <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> extension objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.InitializeExtension(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            The container calls this method when the extension is added.
-            </summary>
-            <param name="context">A <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> instance that gives the
-            extension access to the internals of the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Remove">
-            <summary>
-            Removes the extension's functions from the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is called when extensions are being removed from the container. It can be
-            used to do things like disconnect event handlers or clean up member state. You do not
-            need to remove strategies or policies here; the container will do that automatically.
-            </para>
-            <para>
-            The default implementation of this method does nothing.</para>
-            </remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Container">
-            <summary>
-            The container this extension has been added to.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> that this extension has been added to.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Context">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> object used to manipulate
-            the inner state of the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.Initialize">
-            <summary>
-            Initialize this extension. This particular extension requires no
-            initialization work.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that
-            acts as a decorator over another <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            This checks to see if the current type being built is the
-            right one before checking the inner <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.#ctor(System.Type,Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/>
-            </summary>
-            <param name="targetType">Type to check for.</param>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/> that lets you
-            specify the type to construct via generics syntax.
-            </summary>
-            <typeparam name="T">Type to check for.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride`1.#ctor(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride`1"/>.
-            </summary>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtensions">
-            <summary>
-            Extension class that adds a set of convenience overloads to the
-            <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <typeparam name="T">Type this registration is for.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping and transient lifetime.
-            </para>
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name of this mapping.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to configure injection on.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type this registration is for.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping.
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to configure in the container.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <param name="container">Container to resolve from.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.ResolveAll``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <typeparam name="T">The type requested.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <typeparamref name="T"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <param name="container">Container to resolve through.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.AddNewExtension``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Creates a new extension object and adds it to the container.
-            </summary>
-            <typeparam name="TExtension">Type of <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add. The extension type
-            will be resolved from within the supplied <paramref name="container"/>.</typeparam>
-            <param name="container">Container to add the extension to.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Configure``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <typeparam name="TConfigurator">The configuration interface required.</typeparam>
-            <param name="container">Container to configure.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Check if a particular type has been registered with the container with
-            the default name.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Check if a particular type has been registered with the container with the default name.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExtensionContext">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> class provides the means for extension objects
-            to manipulate the internal state of the <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExtensionContext.RegisterNamedType(System.Type,System.String)">
-            <summary>
-            Store a type/name pair for later resolution.
-            </summary>
-            <remarks>
-            <para>
-            When users register type mappings (or other things) with a named key, this method
-            allows you to register that name with the container so that when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])"/>
-            method is called, that name is included in the list that is returned.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> to register.</param>
-            <param name="name">Name associated with that type.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Container">
-            <summary>
-            The container that this context is associated with.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> object.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Strategies">
-            <summary>
-            The strategies this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that the container uses to build objects.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.BuildPlanStrategies">
-            <summary>
-            The strategies this container uses to construct build plans.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that this container uses when creating
-            build plans.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Policies">
-            <summary>
-            The policies this container uses.
-            </summary>
-            <remarks>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> the that container uses to build objects.</remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Lifetime">
-            <summary>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> that this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> is used to manage <see cref="T:System.IDisposable"/> objects that the container is managing.</value>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.Registering">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer"/> method is called, providing 
-            the newly created child container to extensions to act on as they see fit.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedEventArgs">
-            <summary>
-            An EventArgs class that holds a string Name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with a null name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with the given name.
-            </summary>
-            <param name="name">Name to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.NamedEventArgs.Name">
-            <summary>
-            The name.
-            </summary>
-            <value>Name used for this EventArg object.</value>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.Registering"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterEventArgs.#ctor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.RegisterEventArgs"/>.
-            </summary>
-            <param name="typeFrom">Type to map from.</param>
-            <param name="typeTo">Type to map to.</param>
-            <param name="name">Name for the registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeFrom">
-            <summary>
-            Type to map from.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeTo">
-            <summary>
-            Type to map to.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager">
-            <summary>
-            <see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor(System.Type,System.Object,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance initialized with the given arguments.
-            </summary>
-            <param name="registeredType">Type of instance being registered.</param>
-            <param name="instance">The instance object itself.</param>
-            <param name="name">Name to register under, null if default registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager"/> object that handles how
-            the instance will be owned.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.RegisteredType">
-            <summary>
-            Type of instance being registered.
-            </summary>
-            <value>
-            Type of instance being registered.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.Instance">
-            <summary>
-            Instance object being registered.
-            </summary>
-            <value>Instance object being registered</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager">
-            <summary>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls ownership of
-            this instance.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an array containing the registered instances of a generic type parameter 
-            should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-            <remarks>A type is considered compatible if it is an array type of rank one
-            and its element type is a generic type parameter with a name matching this generic
-            parameter name configured for the receiver.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericResolvedArrayParameter.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectedMembers">
-            <summary>
-            A Unity container extension that allows you to configure
-            which constructors, properties, and methods get injected
-            via an API rather than through attributes.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="name">Name of registration</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="serviceType">Type of interface/base class being registered (may be null).</param>
-            <param name="implementationType">Type of actual implementation class being registered.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionConstructor">
-            <summary>
-            A class that holds the collection of information
-            for a constructor, so that the container can
-            be configured to call this constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.#ctor(System.Object[])">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionConstructor"/> that looks
-            for a constructor with the given set of parameters.
-            </summary>
-            <param name="parameterValues">The values for the parameters, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMethod">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> that configures the
-            container to call a method as part of buildup.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionMethod"/> instance which will configure
-            the container to call the given methods with the given parameters.
-            </summary>
-            <param name="methodName">Name of the method to call.</param>
-            <param name="methodParameters">Parameter values for the method.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.MethodNameMatches(System.Reflection.MemberInfo,System.String)">
-            <summary>
-            A small function to handle name matching. You can override this
-            to do things like case insensitive comparisons.
-            </summary>
-            <param name="targetMethod">MethodInfo for the method you're checking.</param>
-            <param name="nameToMatch">Name of the method you're looking for.</param>
-            <returns>True if a match, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter">
-            <summary>
-            A class that holds on to the given value and provides
-            the required <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            when the container is configured.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, using the runtime type of that value as the
-            type of the parameter.
-            </summary>
-            <param name="parameterValue">Value to be injected for this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, associated with the given type.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-            <param name="parameterValue">Value of the parameter</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that makes it a
-            little easier to specify the type of the parameter.
-            </summary>
-            <typeparam name="TParameter">Type of parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter`1.#ctor(`0)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionParameter`1"/>.
-            </summary>
-            <param name="parameterValue">Value for the parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionProperty">
-            <summary>
-            This class stores information about which properties to inject,
-            and will configure the container accordingly.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String)">
-            <summary>
-            Configure the container to inject the given property name,
-            resolving the value via the container.
-            </summary>
-            <param name="propertyName">Name of the property to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String,System.Object)">
-            <summary>
-            Configure the container to inject the given property name,
-            using the value supplied. This value is converted to an
-            <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object using the
-            rules defined by the <see cref="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])"/>
-            method.
-            </summary>
-            <param name="propertyName">Name of property to inject.</param>
-            <param name="propertyValue">Value for property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface being registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter">
-            <summary>
-            A class that stores a type, and generates a 
-            resolver object that resolves all the named instances or the
-            type registered in a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given element type and collection of element values.
-            </summary>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given array and element types and collection of element values.
-            </summary>
-            <param name="arrayParameterType">The type for the array of elements to resolve.</param>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TElement">Type of the elements for the array of the parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter`1.#ctor(System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1"/> that
-            resolves to the given element generic type with the given element values.
-            </summary>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainer">
-            <summary>
-            Interface defining the behavior of the Unity dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the TypeMappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Configure(System.Type)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds a weak reference to
-            it's managed instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManagerFactory">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy"/> that
-            creates instances of the type of the given Lifetime Manager
-            by resolving them through the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.#ctor(Microsoft.Practices.Unity.ExtensionContext,System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.LifetimeManagerFactory"/> that will
-            return instances of the given type, creating them by
-            resolving through the container.
-            </summary>
-            <param name="containerContext">Container to resolve with.</param>
-            <param name="lifetimeType">Type of LifetimeManager to create.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.LifetimeManagerFactory.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerThreadLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds the instances given to it, 
-            keeping one instance per thread.
-            </summary>
-            <remarks>
-            <para>
-            This LifetimeManager does not dispose the instances it holds.
-            </para>
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.PerThreadLifetimeManager"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy for the 
-            current thread.
-            </summary>
-            <returns>the object desired, or <see langword="null"/> if no such object is currently 
-            stored for the current thread.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later when requested
-            in the current thread.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-            <remarks>Not implemented for this lifetime manager.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TransientLifetimeManager">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> implementation that does nothing,
-            thus ensuring that instances are created new every time.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ArrayResolutionStrategy">
-            <summary>
-            This strategy implements the logic that will call container.ResolveAll
-            when an array parameter is detected.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ArrayResolutionStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Do the PreBuildUp stage of construction. This is where the actual work is performed.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that is
-            aware of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <remarks>
-            This implementation looks for the Unity <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> on the
-            parameter and uses it to create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            for this parameter.</remarks>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that is aware
-            of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that is aware of
-            the build keys used by the unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> implementation that returns
-            the value set in the constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.#ctor(System.Object)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy"/>
-            which will return the given value when resolved.
-            </summary>
-            <param name="dependencyValue">The value to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that stores a
-            type and name, and at resolution time puts them together into a
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            with the given type and name.
-            </summary>
-            <param name="type">The type.</param>
-            <param name="name">The name (may be null).</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Type">
-            <summary>
-            The type that this resolver resolves.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Name">
-            <summary>
-            The name that this resolver resolves.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that resolves to
-            to an array populated with the values that result from resolving other instances
-            of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.#ctor(System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy"/>
-            with the given type and a collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            instances to use when populating the result.
-            </summary>
-            <param name="elementType">The type.</param>
-            <param name="elementPolicies">The resolver policies to use when populating an array.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>An array populated with the results of resolving the resolver policies.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that selects
-            the given constructor and creates the appropriate resolvers to call it with
-            the specified parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.#ctor(System.Reflection.ConstructorInfo,Microsoft.Practices.Unity.InjectionParameterValue[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy"/> that
-            will return the given constructor, being passed the given injection values
-            as parameters.
-            </summary>
-            <param name="ctor">The constructor to call.</param>
-            <param name="parameterValues">Set of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describes how to obtain the values for the constructor parameters.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper">
-            <summary>
-            Helper class for implementing selector policies that need to
-            set up dependency resolver policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper.AddParameterResolvers(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue},Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters)">
-            <summary>
-            Add dependency resolvers to the parameter set.
-            </summary>
-            <param name="typeToBuild">Type that's currently being built (used to resolve open generics).</param>
-            <param name="policies">PolicyList to add the resolvers to.</param>
-            <param name="parameterValues">Objects supplying the dependency resolvers.</param>
-            <param name="result">Result object to store the keys in.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> implementation that calls the specific
-            methods with the given parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.AddMethodAndParameters(System.Reflection.MethodInfo,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue})">
-            <summary>
-            Add the given method and parameter collection to the list of methods
-            that will be returned when the selector's <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>
-            method is called.
-            </summary>
-            <param name="method">Method to call.</param>
-            <param name="parameters">sequence of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describe how to create the method parameter values.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> which returns
-            the set of specific properties that the selector was configured with.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.AddPropertyAndValue(System.Reflection.PropertyInfo,Microsoft.Practices.Unity.InjectionParameterValue)">
-            <summary>
-            Add a property that will be par of the set returned when the 
-            <see cref="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/> is called.
-            </summary>
-            <param name="property">The property to set.</param>
-            <param name="value"><see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object describing
-            how to create the value to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolutionFailedException">
-            <summary>
-            The exception thrown by the Unity container when
-            an attempt to resolve a dependency fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolutionFailedException.#ctor(System.Type,System.String,System.Exception,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolutionFailedException"/> that records
-            the exception for the given type and name.
-            </summary>
-            <param name="typeRequested">Type requested from the container.</param>
-            <param name="nameRequested">Name requested from the container.</param>
-            <param name="innerException">The actual exception that caused the failure of the build.</param>
-            <param name="context">The build context representing the failed operation.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.TypeRequested">
-            <summary>
-            The type that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.NameRequested">
-            <summary>
-            The name that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter">
-            <summary>
-            A class that stores a name and type, and generates a 
-            resolver object that resolves the parameter via the
-            container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves to the given type.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves the given type and name.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-            <param name="name">Name to use when resolving parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TParameter">Type of the parameter</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and the default name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and name.
-            </summary>
-            <param name="name">Name to use to resolve this parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityServiceLocator">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/> that wraps a Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.#ctor(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.UnityServiceLocator"/> class for a container.
-            </summary>
-            <param name="container">The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> to wrap with the <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/>
-            interface implementation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetInstance(System.Type,System.String)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of resolving
-                        the requested service instance.
-            </summary>
-            <param name="serviceType">Type of instance requested.</param><param name="key">Name of registered service you want. May be null.</param>
-            <returns>
-            The requested service instance.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetAllInstances(System.Type)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of
-                        resolving all the requested service instances.
-            </summary>
-            <param name="serviceType">Type of service requested.</param>
-            <returns>
-            Sequence of service instance objects.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Guard">
-            <summary>
-            A static helper class that includes various parameter checking routines.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNull(System.Object,System.String)">
-            <summary>
-            Throws <see cref="T:System.ArgumentNullException"/> if the given argument is null.
-            </summary>
-            <exception cref="T:System.ArgumentNullException"> if tested value if null.</exception>
-            <param name="argumentValue">Argument value to test.</param>
-            <param name="argumentName">Name of the argument being tested.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNullOrEmpty(System.String,System.String)">
-            <summary>
-            Throws an exception if the tested string argument is null or the empty string.
-            </summary>
-            <exception cref="T:System.ArgumentNullException">Thrown if string value is null.</exception>
-            <exception cref="T:System.ArgumentException">Thrown if the string is empty</exception>
-            <param name="argumentValue">Argument value to check.</param>
-            <param name="argumentName">Name of argument being checked.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.TypeIsAssignable(System.Type,System.Type,System.String)">
-            <summary>
-            Verifies that an argument type is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentValueType">The type of the value being assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.InstanceIsAssignable(System.Type,System.Object,System.String)">
-            <summary>
-            Verifies that an argument instance is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy, or instance can be 
-            assigned through a runtime wrapper, as is the case for COM Objects).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentInstance">The instance that will be assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedTypesRegistry">
-            <summary>
-            A helper class to manage the names that get registered in the container  
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage">
-            <summary>
-            The build stages we use in the Unity container
-            strategy pipeline.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Setup">
-            <summary>
-            First stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.TypeMapping">
-            <summary>
-            Second stage. Type mapping occurs here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Lifetime">
-            <summary>
-            Third stage. lifetime managers are checked here,
-            and if they're available the rest of the pipeline is skipped.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PreCreation">
-            <summary>
-            Fourth stage. Reflection over constructors, properties, etc. is
-            performed here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Creation">
-            <summary>
-            Fifth stage. Instance creation happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Initialization">
-            <summary>
-            Sixth stage. Property sets and method injection happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PostInitialization">
-            <summary>
-            Seventh and final stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.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:Microsoft.Practices.Unity.Properties.Resources.AmbiguousInjectionConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors of length {1}. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ArgumentMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.BuildFailedException">
-            <summary>
-              Looks up a localized string similar to The current build operation (build key {2}) failed: {3} (Strategy type {0}, index {1}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructAbstractClass">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an abstract class and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructDelegate">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is delegate and cannot be constructed. Unity only supports resolving Func&lt;T&gt; and Func&lt;IEnumerable&lt;T&gt;&gt; by default..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructInterface">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an interface and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotExtractTypeFromBuildKey">
-            <summary>
-              Looks up a localized string similar to Cannot extract type from build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is an open generic method. Open generic methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectIndexer">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is an indexer. Indexed properties cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParam">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} has an out parameter. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one out parameter. Methods with out parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithRefParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one ref parameter.Methods with ref parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectOpenGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} is marked for injection, but it is an open generic method. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectStaticMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is static. Static methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotResolveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is an open generic type. An open generic type cannot be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of constructor {1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The parameter {0} could not be resolved when attempting to call constructor {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ExceptionNullParameterValue">
-            <summary>
-              Looks up a localized string similar to Parameter type inference does not work for null values. Indicate the parameter type explicitly using a properly configured instance of the InjectionParameter or InjectionParameter&lt;T&gt; classes..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingConstructorOperation">
-            <summary>
-              Looks up a localized string similar to Calling constructor {0}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingMethodOperation">
-            <summary>
-              Looks up a localized string similar to Calling method {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.KeyAlreadyPresent">
-            <summary>
-              Looks up a localized string similar to An item with the given key is already present in the dictionary..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.LifetimeManagerInUse">
-            <summary>
-              Looks up a localized string similar to The lifetime manager is already registered. Lifetime managers cannot be reused, please create a new one..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MarkerBuildPlanInvoked">
-            <summary>
-              Looks up a localized string similar to The override marker build plan policy has been invoked. This should never happen, looks like a bug in the container..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of method {1}.{2}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for parameter &quot;{1}&quot; of method {0} could not be resolved. .
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MissingDependency">
-            <summary>
-              Looks up a localized string similar to Could not resolve dependency for build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MultipleInjectionConstructors">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors marked with the InjectionConstructor attribute. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} must be an open generic type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveSameNumberOfGenericArguments">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} does not have the same number of generic arguments as the target type {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoConstructorFound">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have an accessible constructor..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoMatchingGenericArgument">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a generic argument named &quot;{1}&quot;.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoOperationExceptionReason">
-            <summary>
-              Looks up a localized string similar to while resolving.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a constructor that takes the parameters ({1})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchMethod">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a public method named {1} that takes the parameters ({2})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchProperty">
-            <summary>
-              Looks up a localized string similar to The type {0} does not contain an instance property named {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is not a generic type, and you are attempting to inject a generic parameter named &quot;{1}&quot;..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAnArrayTypeWithRankOne">
-            <summary>
-              Looks up a localized string similar to The type {0} is not an array type with rank 1, and you are attempting to use a [DependencyArray] attribute on a parameter or property with this type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.OptionalDependenciesMustBeReferenceTypes">
-            <summary>
-              Looks up a localized string similar to Optional dependencies must be reference types. The type {0} is a value type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyNotSettable">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is not settable..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyTypeMismatch">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is of type {2}, and cannot be injected with a value of type {3}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyValueResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for the property &quot;{0}&quot; could not be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ProvidedStringArgMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionFailed">
-             <summary>
-               Looks up a localized string similar to Resolution of the dependency failed, type = &quot;{0}&quot;, name = &quot;{1}&quot;.
-            Exception occurred while: {2}.
-            Exception is: {3} - {4}
-            -----------------------------------------------
-            At the time of the exception, the container was:
-            .
-             </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionWithMappingTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1} (mapped from {2}, {3}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolvingPropertyValueOperation">
-            <summary>
-              Looks up a localized string similar to Resolving value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SelectedConstructorHasRefParameters">
-            <summary>
-              Looks up a localized string similar to The constructor {1} selected for type {0} has ref or out parameters. Such parameters are not supported for constructor injection..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SettingPropertyOperation">
-            <summary>
-              Looks up a localized string similar to Setting value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypeIsNotConstructable">
-            <summary>
-              Looks up a localized string similar to The type {0} cannot be constructed. You must configure the container to supply this value..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypesAreNotAssignable">
-            <summary>
-              Looks up a localized string similar to The type {1} cannot be assigned to variables of type {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.UnknownType">
-            <summary>
-              Looks up a localized string similar to &lt;unknown&gt;.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer">
-            <summary>
-            A simple, extensible dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor(Microsoft.Practices.Unity.UnityContainer)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> with the given parent container.
-            </summary>
-            <param name="parent">The parent <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>. The current object
-            will apply its own settings first, and then check the parent for additional ones.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            RegisterType a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            RegisterType an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <para>If true, the container will take over the lifetime of the instance,
-            calling Dispose on it (if it's <see cref="T:System.IDisposable"/>) when the container is Disposed.</para>
-            <para>
-             If false, container will not maintain a strong reference to <paramref name="instance"/>. User is responsible
-            for disposing instance, and for keeping the instance from being garbage collected.</para></param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Get an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Configure(System.Type)">
-            <summary>
-            Get access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            Disposing the container also disposes any child containers,
-            and disposes any instances whose lifetimes are managed
-            by the container.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose(System.Boolean)">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            This class doesn't have a finalizer, so <paramref name="disposing"/> will always be true.</remarks>
-            <param name="disposing">True if being called from the IDisposable.Dispose
-            method, false if being called from a finalizer.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ClearExistingBuildPlan(System.Type,System.String)">
-            <summary>
-            Remove policies associated with building this type. This removes the
-            compiled build plan so that it can be rebuilt with the new settings
-            the next time this type is resolved.
-            </summary>
-            <param name="typeToInject">Type of object to clear the plan for.</param>
-            <param name="name">Name the object is being registered with.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl">
-            <summary>
-            Implementation of the ExtensionContext that is actually used
-            by the UnityContainer implementation.
-            </summary>
-            <remarks>
-            This is a nested class so that it can access state in the
-            container that would otherwise be inaccessible.
-            </remarks>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension">
-            <summary>
-            This extension supplies the default behavior of the UnityContainer API
-            by handling the context events and setting policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension.Initialize">
-            <summary>
-            Install the default container behavior into the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension.Remove">
-            <summary>
-            Remove the default behavior from the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityDefaultStrategiesExtension">
-            <summary>
-            This extension installs the default strategies and policies into the container
-            to implement the standard behavior of the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultStrategiesExtension.Initialize">
-            <summary>
-            Add the default ObjectBuilder strategies &amp; policies to the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.MethodReflectionHelper">
-            <summary>
-            Helper class to wrap common reflection stuff dealing with
-            methods.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.#ctor(System.Reflection.MethodBase)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.MethodReflectionHelper"/> instance that
-            lets us do more reflection stuff on that method.
-            </summary>
-            <param name="method">The method to reflect on.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.GetClosedParameterTypes(System.Type[])">
-            <summary>
-            Given our set of generic type arguments, 
-            </summary>
-            <param name="genericTypeArguments">The generic type arguments.</param>
-            <returns>An array with closed parameter types. </returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.MethodHasOpenGenericParameters">
-            <summary>
-            Returns true if any of the parameters of this method
-            are open generics.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.ParameterTypes">
-            <summary>
-            Return the <see cref="T:System.Type"/> of each parameter for this
-            method.
-            </summary>
-            <returns>Sequence of <see cref="T:System.Type"/> objects, one for
-            each parameter in order.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Pair`2">
-            <summary>
-            A helper class that encapsulates two different
-            data items together into a a single item.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Pair`2.#ctor(`0,`1)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.Pair`2"/> containing
-            the two values give.
-            </summary>
-            <param name="first">First value</param>
-            <param name="second">Second value</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.Pair`2.First">
-            <summary>
-            The first value of the pair.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.Pair`2.Second">
-            <summary>
-            The second value of the pair.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Pair">
-            <summary>
-            Container for a Pair helper method.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Pair.Make``2(``0,``1)">
-            <summary>
-            A helper factory method that lets users take advantage of type inference.
-            </summary>
-            <typeparam name="TFirstParameter">Type of first value.</typeparam>
-            <typeparam name="TSecondParameter">Type of second value.</typeparam>
-            <param name="first">First value.</param>
-            <param name="second">Second value.</param>
-            <returns>A new <see cref="T:Microsoft.Practices.Unity.Utility.Pair`2"/> instance.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.ParameterMatcher">
-            <summary>
-            A utility class that handles the logic of matching parameter
-            lists, so we can find the right constructor and method overloads.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterMatcher.#ctor(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue})">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.ParameterMatcher"/> that will attempt to
-            match the given parameter types.
-            </summary>
-            <param name="parametersToMatch">Target parameters to match against.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterMatcher.Matches(System.Collections.Generic.IEnumerable{System.Type})">
-            <summary>
-            Tests to see if the given set of types matches the ones
-            we're looking for.
-            </summary>
-            <param name="candidate">parameter list to look for.</param>
-            <returns>true if they match, false if they don't.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterMatcher.Matches(System.Collections.Generic.IEnumerable{System.Reflection.ParameterInfo})">
-            <summary>
-            Tests to see if the given set of types matches the ones we're looking for.
-            </summary>
-            <param name="candidate">Candidate method signature to look for.</param>
-            <returns>True if they match, false if they don't.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.ParameterReflectionHelper">
-            <summary>
-            Another reflection helper class that has extra methods
-            for dealing with ParameterInfo.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.ReflectionHelper">
-            <summary>
-            A small helper class to encapsulate details of the
-            reflection API, particularly around generics.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.ReflectionHelper"/> instance that
-            lets you look at information about the given type.
-            </summary>
-            <param name="typeToReflect">Type to do reflection on.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.MethodHasOpenGenericParameters(System.Reflection.MethodBase)">
-            <summary>
-            Test the given <see cref="T:System.Reflection.MethodBase"/> object, looking at
-            the parameters. Determine if any of the parameters are
-            open generic types that need type attributes filled in.
-            </summary>
-            <param name="method">The method to check.</param>
-            <returns>True if any of the parameters are open generics. False if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.GetClosedParameterType(System.Type[])">
-            <summary>
-            If this type is an open generic, use the
-            given <paramref name="genericArguments"/> array to
-            determine what the required closed type is and return that.
-            </summary>
-            <remarks>If the parameter is not an open type, just
-            return this parameter's type.</remarks>
-            <param name="genericArguments">Type arguments to substitute in for
-            the open type parameters.</param>
-            <returns>Corresponding closed type of this parameter.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.GetNamedGenericParameter(System.String)">
-            <summary>
-            Given a generic argument name, return the corresponding type for this
-            closed type. For example, if the current type is SomeType&lt;User&gt;, and the
-            corresponding definition was SomeType&lt;TSomething&gt;, calling this method
-            and passing "TSomething" will return typeof(User).
-            </summary>
-            <param name="parameterName">Name of the generic parameter.</param>
-            <returns>Type of the corresponding generic parameter, or null if there
-            is no matching name.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type">
-            <summary>
-            The <see cref="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type"/> object we're reflecting over.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsGenericType">
-            <summary>
-            Is this type generic?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsOpenGeneric">
-            <summary>
-            Is this type an open generic (no type parameter specified)
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsArray">
-            <summary>
-            Is this type an array type?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsGenericArray">
-            <summary>
-            Is this type an array of generic elements?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.ArrayElementType">
-            <summary>
-            The type of the elements in this type (if it's an array).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.InstanceConstructors">
-            <summary>
-            Returns all the public constructors defined for the current reflected <see cref="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type"/>.
-            </summary>
-            <value>
-            An enumeration of <see cref="T:System.Reflection.ConstructorInfo"/> ConstructorInfo objects representing all the public instance constructors defined for the 
-            current reflected <see cref="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type"/>, but not including the type initializer (static constructor).
-            </value>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterReflectionHelper.#ctor(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.Utility.ParameterReflectionHelper"/> that
-            lets you query information about the given ParameterInfo object.
-            </summary>
-            <param name="parameter">Parameter to query.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.StaticReflection">
-            <summary>
-            A set of helper methods to pick through lambdas and pull out
-            <see cref="T:System.Reflection.MethodInfo"/> from them.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetMethodInfo(System.Linq.Expressions.Expression{System.Action})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object from an expression of the form
-            () =&gt; SomeClass.SomeMethod()
-            </summary>
-            <param name="expression">Expression describing the method to call.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetMethodInfo``1(System.Linq.Expressions.Expression{System.Action{``0}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object from an expression of the form
-            x =&gt; x.SomeMethod()
-            </summary>
-            <typeparam name="T">The type where the method is defined.</typeparam>
-            <param name="expression">Expression describing the method to call.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetPropertyGetMethodInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object for the get method from an expression of the form
-            x =&gt; x.SomeProperty
-            </summary>
-            <typeparam name="T">The type where the method is defined.</typeparam>
-            <typeparam name="TProperty">The type for the property.</typeparam>
-            <param name="expression">Expression describing the property for which the get method is to be extracted.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetPropertySetMethodInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object for the set method from an expression of the form
-            x =&gt; x.SomeProperty
-            </summary>
-            <typeparam name="T">The type where the method is defined.</typeparam>
-            <typeparam name="TProperty">The type for the property.</typeparam>
-            <param name="expression">Expression describing the property for which the set method is to be extracted.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetMemberInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            
-            </summary>
-            <typeparam name="T"></typeparam>
-            <typeparam name="TProperty"></typeparam>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetConstructorInfo``1(System.Linq.Expressions.Expression{System.Func{``0}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.ConstructorInfo"/> object from an expression of the form () =&gt; new SomeType()
-            </summary>
-            <typeparam name="T">The type where the constructor is defined.</typeparam>
-            <param name="expression">Expression invoking the desired constructor.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.ConstructorInfo"/>.</returns>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.RegistrationByConvention.XML b/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.RegistrationByConvention.XML
deleted file mode 100644
index a679199..0000000
--- a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.RegistrationByConvention.XML
+++ /dev/null
@@ -1,312 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Microsoft.Practices.Unity.RegistrationByConvention</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.Unity.AllClasses">
-            <summary>
-            Provides helper methods to retrieve classes from assemblies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Reflection.Assembly[])">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>.
-            </summary>
-            <param name="assemblies">The assemblies.</param>
-            <returns>All visible, non-abstract classes found in the assemblies.</returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>All exceptions thrown while getting types from the assemblies are ignored, and the types that can be retrieved are returned.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Boolean,System.Reflection.Assembly[])">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>, and optionally skips errors.
-            </summary>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <param name="assemblies">The assemblies.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>
-            If <paramref name="skipOnError"/> is <see langword="true"/>, all exceptions thrown while getting types from the assemblies are ignored, and the types 
-            that can be retrieved are returned; otherwise, the original exception is thrown.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromAssemblies(System.Collections.Generic.IEnumerable{System.Reflection.Assembly},System.Boolean)">
-            <summary>
-            Returns all visible, non-abstract classes from <paramref name="assemblies"/>.
-            </summary>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <param name="assemblies">The assemblies.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <exception cref="T:System.ArgumentNullException"><paramref name="assemblies"/> is <see langword="null"/>.</exception>
-            <exception cref="T:System.ArgumentException"><paramref name="assemblies"/> contains <see langword="null"/> elements.</exception>
-            <remarks>
-            If <paramref name="skipOnError"/> is <see langword="true"/>, all exceptions thrown while getting types from the assemblies are ignored, and the types 
-            that can be retrieved are returned; otherwise, the original exception is thrown.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.AllClasses.FromApplication(System.Boolean,System.Boolean)">
-            <summary>
-            Returns all visible, non-abstract classes from all assemblies located where the application is installed.
-            </summary>
-            <param name="includeUnityAssemblies"><see langword="false"/> to include the Unity assemblies; otherwise, <see langword="false"/>. Defaults to <see langword="false"/>.</param>
-            <param name="skipOnError"><see langword="true"/> to skip errors; otherwise, <see langword="true"/>.</param>
-            <returns>
-            All visible, non-abstract classes.
-            </returns>
-            <remarks>
-            If <paramref name="skipOnError"/> is <see langword="true"/>, all exceptions thrown while loading assemblies or getting types from the assemblies 
-            are ignored, and the types that can be retrieved are returned; otherwise, the original exception is thrown. These exceptions might be wrapped in a
-            <see cref="T:System.AggregateException"/>.
-            </remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DuplicateTypeMappingException">
-            <summary>
-            The exception that is thrown when registering multiple types would result in an type mapping being overwritten.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DuplicateTypeMappingException.#ctor(System.String,System.Type,System.Type,System.Type)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.DuplicateTypeMappingException"/> class.
-            </summary>
-            <param name="name">The name for the mapping.</param>
-            <param name="mappedFromType">The source type for the mapping.</param>
-            <param name="currentMappedToType">The type currently mapped.</param>
-            <param name="newMappedToType">The new type to map.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.Name">
-            <summary>
-            Gets the name for the mapping.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.MappedFromType">
-            <summary>
-            Gets the source type for the mapping.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.CurrentMappedToType">
-            <summary>
-            Gets the type currently mapped.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DuplicateTypeMappingException.NewMappedToType">
-            <summary>
-            Gets the new type to map.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.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:Microsoft.Practices.Unity.Properties.Resources.DuplicateTypeMappingException">
-            <summary>
-              Looks up a localized string similar to An attempt to override an existing mapping was detected for type {1} with name &quot;{0}&quot;, currently mapped to type {2}, to type {3}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ExceptionNullAssembly">
-            <summary>
-              Looks up a localized string similar to The set of assemblies contains a null element..
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegistrationConvention">
-            <summary>
-            Represents a set of types to register and their registration settings.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetTypes">
-            <summary>
-            Gets types to register.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetFromTypes">
-            <summary>
-            Gets a function to get the types that will be requested for each type to configure.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetName">
-            <summary>
-            Gets a function to get the name to use for the registration of each type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetLifetimeManager">
-            <summary>
-            Gets a function to get the <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the registration of each type. Defaults to no lifetime management.
-            </summary>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegistrationConvention.GetInjectionMembers">
-            <summary>
-            Gets a function to get the additional <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects for the registration of each type. Defaults to no injection members.
-            </summary>
-            <returns></returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerRegistrationByConventionExtensions">
-            <summary>
-            Provides a set of convenience overloads to the
-            <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> interface to support registration of multiple types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerRegistrationByConventionExtensions.RegisterTypes(Microsoft.Practices.Unity.IUnityContainer,System.Collections.Generic.IEnumerable{System.Type},System.Func{System.Type,System.Collections.Generic.IEnumerable{System.Type}},System.Func{System.Type,System.String},System.Func{System.Type,Microsoft.Practices.Unity.LifetimeManager},System.Func{System.Type,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionMember}},System.Boolean)">
-            <summary>
-            Registers the supplied types by using the specified rules for name, lifetime manager, injection members, and registration types.
-            </summary>
-            <param name="container">The container to configure.</param>
-            <param name="types">The types to register. The methods in the <see cref="T:Microsoft.Practices.Unity.AllClasses"/> class can be used to scan assemblies to get types, and further filtering can be performed using LINQ queries.</param>
-            <param name="getFromTypes">A function that gets the types that will be requested for each type to configure. It can be a method from the <see cref="T:Microsoft.Practices.Unity.WithMappings"/> class or a custom function. Defaults to no registration types, and registers only the supplied types.</param>
-            <param name="getName">A function that gets the name to use for the registration of each type. It can be a method from the <see cref="T:Microsoft.Practices.Unity.WithName"/> or a custom function. Defaults to no name.</param>
-            <param name="getLifetimeManager">A function that gets the <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the registration of each type. It can be a method from the <see cref="T:Microsoft.Practices.Unity.WithLifetime"/> class or a custom function. Defaults to no lifetime management.</param>
-            <param name="getInjectionMembers">A function that gets the additional <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> objects for the registration of each type. Defaults to no injection members.</param>
-            <param name="overwriteExistingMappings"><see langword="true"/> to overwrite existing mappings; otherwise, <see langword="false"/>. Defaults to <see langword="false"/>.</param>
-            <returns>
-            The container that this method was called on.
-            </returns>
-            <exception cref="T:System.ArgumentException">A new registration would overwrite an existing mapping and <paramref name="overwriteExistingMappings"/> is <see langword="false"/>.</exception>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerRegistrationByConventionExtensions.RegisterTypes(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.RegistrationConvention,System.Boolean)">
-            <summary>
-            Registers the types according to the <paramref name="convention"/>.
-            </summary>
-            <param name="container">The container to configure.</param>
-            <param name="convention">The convention to determine which types will be registered and how.</param>
-            <param name="overwriteExistingMappings"><see langword="true"/> to overwrite existing mappings; otherwise, <see langword="false"/>. Defaults to <see langword="false"/>.</param>
-            <returns>
-            The container that this method was called on.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.WithLifetime">
-            <summary>
-            Provides helper methods to specify the lifetime for a type with registration by convention.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.None(System.Type)">
-            <summary>
-            Returns a <see langword="null"/> <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A lifetime manager</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.ContainerControlled(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A container controlled lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.ExternallyControlled(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>An externally controlled lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.Hierarchical(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.HierarchicalLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A hierarchical lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.PerResolve(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A per resolve lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.Transient(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.TransientLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A transient lifetime manager.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.Custom``1(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="T">The custom <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> type.</typeparam>
-            <param name="type">The type.</param>
-            <returns>
-            A lifetime manager.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithLifetime.PerThread(System.Type)">
-            <summary>
-            Returns a <see cref="T:Microsoft.Practices.Unity.PerThreadLifetimeManager"/>.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>A per thread lifetime manager.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.WithMappings">
-            <summary>
-            Provides helper methods to map types to the types interfaces to which register them.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.None(System.Type)">
-            <summary>
-            Returns no types.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An empty enumeration.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.FromMatchingInterface(System.Type)">
-            <summary>
-            Returns an enumeration with the interface that matches the name of <paramref name="implementationType"/>.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An enumeration with the first interface matching the name of <paramref name="implementationType"/> (for example, if type is MyType, a matching interface is IMyType),
-            or an empty enumeration if no such interface is found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.FromAllInterfaces(System.Type)">
-            <summary>
-            Returns an enumeration with all the interfaces implemented by <paramref name="implementationType"/>.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An enumeration with all the interfaces implemented by the implementation type except <see cref="T:System.IDisposable"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithMappings.FromAllInterfacesInSameAssembly(System.Type)">
-            <summary>
-            Returns an enumeration with all the interfaces implemented by <paramref name="implementationType"/> that belong to the same assembly as implementationType.
-            </summary>
-            <param name="implementationType">The type to register.</param>
-            <returns>An enumeration with all the interfaces implemented by the implementation type that belong to the same assembly.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.WithName">
-            <summary>
-            Provides helper methods to get type names.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithName.TypeName(System.Type)">
-            <summary>
-            Returns the type name.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>The type name.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.WithName.Default(System.Type)">
-            <summary>
-            Returns null for the registration name.
-            </summary>
-            <param name="type">The type.</param>
-            <returns><see langword="null"/></returns>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.RegistrationByConvention.dll b/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.RegistrationByConvention.dll
deleted file mode 100644
index e65d0d7..0000000
Binary files a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.RegistrationByConvention.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.dll b/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.dll
deleted file mode 100644
index 0d8c004..0000000
Binary files a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.dll and /dev/null differ
diff --git a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.xml b/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.xml
deleted file mode 100644
index f99ca70..0000000
--- a/src/packages/Unity.4.0.1/lib/wp80/Microsoft.Practices.Unity.xml
+++ /dev/null
@@ -1,5916 +0,0 @@
-<?xml version="1.0"?>
-<doc>
-    <assembly>
-        <name>Microsoft.Practices.Unity</name>
-    </assembly>
-    <members>
-        <member name="T:Microsoft.Practices.Unity.IRegisteredNamesPolicy">
-            <summary>
-            Provides access to the names registered for a container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy">
-            <summary>
-            Represents a builder policy interface. Since there are no fixed requirements
-            for policies, it acts as a marker interface from which to derive all other
-            policy interfaces.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IRegisteredNamesPolicy.GetRegisteredNames(System.Type)">
-            <summary>
-            Gets the names registered for a type.
-            </summary>
-            <param name="type">The type.</param>
-            <returns>The names registered for <paramref name="type"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LazyDynamicMethodBuildPlanCreatorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy"/> implementation
-            that constructs a build plan for creating <see cref="T:System.Lazy`1"/> objects.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that can create and return an <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy"/>
-            for the given build key.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Create a build plan using the given context and build key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="buildKey">Current build key.</param>
-            <returns>The build plan.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LazyDynamicMethodBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Creates a build plan using the given context and build key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="buildKey">Current build key.</param>
-            <returns>
-            The build plan.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions">
-            <summary>
-            Provides extension methods to the <see cref="T:System.Type"/> class due to the introduction 
-            of <see cref="T:System.Reflection.TypeInfo"/> class in the .NET for Windows Store apps.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetConstructor(System.Type,System.Type[])">
-            <summary>
-            Returns the constructor in <paramref name="type"/> that matches the specified constructor parameter types.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <param name="constructorParameters">The constructor parameter types.</param>
-            <returns>The constructor that matches the specified parameter types.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetMethodsHierarchical(System.Type)">
-            <summary>
-            Returns the non-static declared methods of a type or its base types.
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-            <param name="type">The type to inspect</param>
-            <returns>An enumerable of the <see cref="T:System.Reflection.MethodInfo"/> objects.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetMethodHierarchical(System.Type,System.String,System.Type[])">
-            <summary>
-            Returns the non-static method of a type or its based type.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <param name="methodName">The name of the method to seek.</param>
-            <param name="closedParameters">The (closed) parameter type signature of the method.</param>
-            <returns>The discovered <see cref="T:System.Reflection.MethodInfo"/></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.GetPropertiesHierarchical(System.Type)">
-            <summary>
-            Returns the declared properties of a type or its base types.
-            </summary>
-            <param name="type">The type to inspect</param>
-            <returns>An enumerable of the <see cref="T:System.Reflection.PropertyInfo"/> objects.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.TypeReflectionExtensions.ParametersMatch(System.Reflection.ParameterInfo[],System.Type[])">
-            <summary>
-            Determines if the types in a parameter set ordinally matches the set of supplied types.
-            </summary>
-            <param name="parameters"></param>
-            <param name="closedConstructorParameterTypes"></param>
-            <returns></returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyResolutionAttribute">
-            <summary>
-            Base class for attributes that can be placed on parameters
-            or properties to specify how to resolve the value for
-            that parameter or property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyResolutionAttribute.CreateResolver(System.Type)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            will be used to get the value for the member this attribute is
-            applied to.
-            </summary>
-            <param name="typeToResolve">Type of parameter or property that
-            this attribute is decoration.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionConstructorAttribute">
-            <summary>
-            This attribute is used to indicate which constructor to choose when
-            the container attempts to build a type.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMethodAttribute">
-            <summary>
-            This attribute is used to mark methods that should be called when
-            the container is building an object.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyAttribute">
-            <summary>
-            This attribute is used to mark properties and parameters as targets for injection.
-            </summary>
-            <remarks>
-            For properties, this attribute is necessary for injection to happen. For parameters,
-            it's not needed unless you want to specify additional information to control how
-            the parameter is resolved.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyAttribute.#ctor">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> with no name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyAttribute.#ctor(System.String)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> with the given name.
-            </summary>
-            <param name="name">Name to use when resolving this dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyAttribute.CreateResolver(System.Type)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            will be used to get the value for the member this attribute is
-            applied to.
-            </summary>
-            <param name="typeToResolve">Type of parameter or property that
-            this attribute is decoration.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.DependencyAttribute.Name">
-            <summary>
-            The name specified in the constructor.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalDependencyAttribute">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.DependencyResolutionAttribute"/> used to mark a dependency
-            as optional - the container will try to resolve it, and return null
-            if the resolution fails rather than throw.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyAttribute.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyAttribute"/> object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyAttribute.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyAttribute"/> object that
-            specifies a named dependency.
-            </summary>
-            <param name="name">Name of the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyAttribute.CreateResolver(System.Type)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            will be used to get the value for the member this attribute is
-            applied to.
-            </summary>
-            <param name="typeToResolve">Type of parameter or property that
-            this attribute is decoration.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyAttribute.Name">
-            <summary>
-            Name of the dependency.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.CompositeResolverOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that composites other
-            ResolverOverride objects. The GetResolver operation then
-            returns the resolver from the first child override that
-            matches the current context and request.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolverOverride">
-            <summary>
-            Base class for all override objects passed in the
-            <see cref="M:Microsoft.Practices.Unity.IUnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])"/> method.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.OnType``1">
-            <summary>
-            Wrap this resolver in one that verifies the type of the object being built.
-            This allows you to narrow any override down to a specific type easily.
-            </summary>
-            <typeparam name="T">Type to constrain the override to.</typeparam>
-            <returns>The new override.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolverOverride.OnType(System.Type)">
-            <summary>
-            Wrap this resolver in one that verifies the type of the object being built.
-            This allows you to narrow any override down to a specific type easily.
-            </summary>
-            <param name="typeToOverride">Type to constrain the override to.</param>
-            <returns>The new override.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.Add(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> to the collection
-            that is checked.
-            </summary>
-            <param name="newOverride">item to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.AddRange(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the collection.
-            </summary>
-            <param name="newOverrides">items to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.CompositeResolverOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerRegistration">
-            <summary>
-            Class that returns information about the types registered in a container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.RegisteredType">
-            <summary>
-            The type that was passed to the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method
-            as the "from" type, or the only type if type mapping wasn't done.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.MappedToType">
-            <summary>
-            The type that this registration is mapped to. If no type mapping was done, the
-            <see cref="P:Microsoft.Practices.Unity.ContainerRegistration.RegisteredType"/> property and this one will have the same value.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.Name">
-            <summary>
-            Name the type was registered under. Null for default registration.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.LifetimeManagerType">
-            <summary>
-            The registered lifetime manager instance.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ContainerRegistration.LifetimeManager">
-            <summary>
-            The lifetime manager for this registration.
-            </summary>
-            <remarks>
-            This property will be null if this registration is for an open generic.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that overrides
-            the value injected whenever there is a dependency of the
-            given type, regardless of where it appears in the object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> to override
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-            </summary>
-            <param name="typeToConstruct">Type of the dependency.</param>
-            <param name="dependencyValue">Value to use.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> that lets you
-            specify the dependency type using generic syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency to override.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverride`1.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.DependencyOverride`1"/> object that will
-            override the given dependency, and pass the given value.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.DependencyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.DependencyOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-            <remarks>
-            This class isn't really a collection, it just implements IEnumerable
-            so that we get use of the nice C# collection initializer syntax.
-            </remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OverrideCollection`3">
-            <summary>
-            Base helper class for creating collections of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects
-            for use in passing a bunch of them to the resolve call. This base class provides
-            the mechanics needed to allow you to use the C# collection initializer syntax.
-            </summary>
-            <typeparam name="TOverride">Concrete type of the <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> this class collects.</typeparam>
-            <typeparam name="TKey">Key used to create the underlying override object.</typeparam>
-            <typeparam name="TValue">Value that the override returns.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)">
-            <summary>
-            Add a new override to the collection with the given key and value.
-            </summary>
-            <param name="key">Key - for example, a parameter or property name.</param>
-            <param name="value">Value - the value to be returned by the override.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.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>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.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>
-            <filterpriority>1</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OverrideCollection`3.MakeOverride(`1,`2)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.DependencyOverrides.MakeOverride(System.Type,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.#ctor(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs"/> object with the
-            given child container object.
-            </summary>
-            <param name="childContext">An <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> for the newly created child
-            container.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContainer">
-            <summary>
-            The newly created child container.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ChildContainerCreatedEventArgs.ChildContext">
-            <summary>
-            An extension context for the created child container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameterBase">
-            <summary>
-            Base class for <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> subclasses that let you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameterValue">
-            <summary>
-            Base type for objects that are used to configure parameters for
-            constructor or method injection, or for getting the value to
-            be injected into a property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])">
-            <summary>
-            Convert the given set of arbitrary values to a sequence of InjectionParameterValue
-            objects. The rules are: If it's already an InjectionParameterValue, return it. If
-            it's a Type, return a ResolvedParameter object for that type. Otherwise return
-            an InjectionParameter object for that value.
-            </summary>
-            <param name="values">The values to build the sequence from.</param>
-            <returns>The resulting converted sequence.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameter(System.Object)">
-            <summary>
-            Convert an arbitrary value to an InjectionParameterValue object. The rules are: 
-            If it's already an InjectionParameterValue, return it. If it's a Type, return a
-            ResolvedParameter object for that type. Otherwise return an InjectionParameter
-            object for that value.
-            </summary>
-            <param name="value">The value to convert.</param>
-            <returns>The resulting <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.InjectionParameterValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameterBase.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericParameterBase.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalGenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved, providing the <see langword="null"/>
-            value if resolving fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalGenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionFactory">
-            <summary>
-            A class that lets you specify a factory method the container
-            will use to create the object.
-            </summary>
-            <remarks>This is a significantly easier way to do the same
-            thing the old static factory extension was used for.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMember">
-            <summary>
-            Base class for objects that can be used to configure what
-            class members get injected by the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="typeToCreate">Type to register.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMember.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.#ctor(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object})">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionFactory"/> with
-            the given factory function.
-            </summary>
-            <param name="factoryFunc">Factory function.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionFactory.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface being registered. If no interface,
-            this will be null. This parameter is ignored in this implementation.</param>
-            <param name="implementationType">Type of concrete type being registered.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that can be passed to
-            <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> to configure a
-            parameter or property as an optional dependency.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypedInjectionValue">
-            <summary>
-            A base class for implementing <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> classes
-            that deal in explicit types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.TypedInjectionValue"/> that exposes
-            information about the given <paramref name="parameterType"/>.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypedInjectionValue.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterType">
-            <summary>
-            The type of parameter this object represents.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.TypedInjectionValue.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter"/> object that
-            specifies the given <paramref name="type"/> and <paramref name="name"/>.
-            </summary>
-            <param name="type">Type of the dependency.</param>
-            <param name="name">Name for the dependency.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.OptionalParameter"></see> that lets you
-            specify the type of the dependency using generics syntax.
-            </summary>
-            <typeparam name="T">Type of the dependency.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalParameter`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalParameter`1"/> with the given
-            <paramref name="name"/>.
-            </summary>
-            <param name="name">Name of the dependency.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeManager">
-            <summary>
-            A special lifetime manager which works like <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/>,
-            except that in the presence of child containers, each child gets it's own instance
-            of the object, instead of sharing one in the common parent.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds onto the instance given to it.
-            When the <see cref="T:Microsoft.Practices.Unity.ContainerControlledLifetimeManager"/> is disposed,
-            the instance is disposed with it.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager">
-            <summary>
-            Base class for Lifetime managers which need to synchronize calls to
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.
-            </summary>
-            <remarks>
-            <para>
-            The purpose of this class is to provide a basic implementation of the lifetime manager synchronization pattern.
-            </para>
-            <para>
-            Calls to the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/> method of a <see cref="T:Microsoft.Practices.Unity.SynchronizedLifetimeManager"/> 
-            instance acquire a lock, and if the instance has not been initialized with a value yet the lock will only be released 
-            when such an initialization takes place by calling the <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/> method or if 
-            the build request which resulted in the call to the GetValue method fails.
-            </para>
-            </remarks>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManager">
-            <summary>
-            Base class for Lifetime managers - classes that control how
-            and when instances are created by the Unity container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that controls how instances are
-            persisted and recovered from an external store. Used to implement
-            things like singletons and per-http-request lifetime.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy.RemoveValue">
-            <summary>
-            Remove the value this lifetime policy is managing from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery">
-            <summary>
-            This interface provides a hook for the builder context to
-            implement error recovery when a builder strategy throws
-            an exception. Since we can't get try/finally blocks onto
-            the call stack for later stages in the chain, we instead
-            add these objects to the context. If there's an exception,
-            all the current IRequiresRecovery instances will have
-            their Recover methods called.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>Calls to this method acquire a lock which is released only if a non-null value
-            has been set for the lifetime manager.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Performs the actual retrieval of a value from the backing store associated 
-            with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>
-            after it has acquired its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>Setting a value will attempt to release the lock acquired by 
-            <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.GetValue"/>.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Performs the actual storage of the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-            <remarks>This method is invoked by <see cref="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.SetValue(System.Object)"/>
-            before releasing its lock.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.SynchronizedLifetimeManager.Recover">
-            <summary>
-            A method that does whatever is needed to clean up
-            as part of cleaning up after an exception.
-            </summary>
-            <remarks>
-            Don't do anything that could throw in this method,
-            it will cause later recover operations to get skipped
-            and play real havoc with the stack trace.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedGetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.SynchronizedSetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ContainerControlledLifetimeManager.Dispose(System.Boolean)">
-            <summary>
-            Standard Dispose pattern implementation. Not needed, but it keeps FxCop happy.
-            </summary>
-            <param name="disposing">Always true, since we don't have a finalizer.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerResolveLifetimeManager">
-            <summary>
-            This is a custom lifetime manager that acts like <see cref="T:Microsoft.Practices.Unity.TransientLifetimeManager"/>,
-            but also provides a signal to the default build plan, marking the type so that
-            instances are reused across the build up object graph.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that does not
-            itself manage an instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.#ctor(System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.PerResolveLifetimeManager"/> object that stores the
-            give value. This value will be returned by <see cref="M:Microsoft.Practices.Unity.LifetimeManager.GetValue"/>
-            but is not stored in the lifetime manager, nor is the value disposed.
-            This Lifetime manager is intended only for internal use, which is why the
-            normal <see cref="M:Microsoft.Practices.Unity.LifetimeManager.SetValue(System.Object)"/> method is not used here.
-            </summary>
-            <param name="value">Value to store.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later. In this class,
-            this is a noop, since it has special hooks down in the guts.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerResolveLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store. Noop in this class.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy">
-            <summary>
-            A strategy that handles Hierarchical lifetimes across a set of parent/child
-            containers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy">
-            <summary>
-            Represents a strategy in the chain of responsibility.
-            Strategies are required to support both BuildUp and TearDown. Although you
-            can implement this interface directly, you may also choose to use
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> as the base class for your strategies, as
-            this class provides useful helper methods and makes support BuildUp and TearDown
-            optional.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderStrategy.PostTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PostTearDown method is called when the chain has finished the PreTearDown
-            phase and executes in reverse order from the PreTearDown calls.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.HierarchicalLifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that will attempt to
-            resolve a value, and return null if it cannot rather than throwing.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy">
-            <summary>
-            A strategy that is used at build plan execution time
-            to resolve a dependent value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given name and type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-            <param name="name">Name to resolve with.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy"/> object
-            that will attempt to resolve the given type from the container.
-            </summary>
-            <param name="type">Type to resolve. Must be a reference type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.DependencyType">
-            <summary>
-            Type this resolver will resolve.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.OptionalDependencyResolverPolicy.Name">
-            <summary>
-            Name this resolver will resolve.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions">
-            <summary>
-            Extension methods on <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to provide convenience
-            overloads (generic versions, mostly).
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Clear``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.ClearDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The type the policy was registered as.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to remove the policy from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Get(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list that actually contains the returned policy.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.GetNoDefault(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Type,System.Object,System.Boolean)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to search.</param>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.Set``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface the policy is registered under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyListExtensions.SetDefault``1(Microsoft.Practices.ObjectBuilder2.IPolicyList,``0)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <typeparam name="TPolicyInterface">The interface to register the policy under.</typeparam>
-            <param name="policies"><see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add the policy to.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildOperation">
-            <summary>
-            Base class for the current operation stored in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildOperation.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildOperation"/>.
-            </summary>
-            <param name="typeBeingConstructed">Type currently being built.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuildOperation.TypeBeingConstructed">
-            <summary>
-            The type that's currently being built.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DeferredResolveBuildPlanPolicy">
-            <summary>
-            Build plan for <see cref="T:System.Func`1"/> that will return a Func that will resolve the requested type
-            through this container later.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy">
-            <summary>
-            A build plan is an object that, when invoked, will create a new object
-            or fill in a given existing one. It encapsulates all the information
-            gathered by the strategies to construct a particular object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.OverriddenBuildPlanMarkerPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions">
-            <summary>
-            The almost inevitable collection of extra helper methods on
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/> to augment the rich set of what
-            LINQ already gives us.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.ForEach``1(System.Collections.Generic.IEnumerable{``0},System.Action{``0})">
-            <summary>
-            Execute the provided <paramref name="action"/> on every item in <paramref name="sequence"/>.
-            </summary>
-            <typeparam name="TItem">Type of the items stored in <paramref name="sequence"/></typeparam>
-            <param name="sequence">Sequence of items to process.</param>
-            <param name="action">Code to run over each item.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String,System.Func{``0,System.String})">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the given <paramref name="converter"/>.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <param name="converter">The conversion function to change TItem -&gt; string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.EnumerableExtensions.JoinStrings``1(System.Collections.Generic.IEnumerable{``0},System.String)">
-            <summary>
-            Create a single string from a sequence of items, separated by the provided <paramref name="separator"/>,
-            and with the conversion to string done by the item's <see cref="M:System.Object.ToString"/> method.
-            </summary>
-            <remarks>This method does basically the same thing as <see cref="M:System.String.Join(System.String,System.String[])"/>,
-            but will work on any sequence of items, not just arrays.</remarks>
-            <typeparam name="TItem">Type of items in the sequence.</typeparam>
-            <param name="sequence">Sequence of items to convert.</param>
-            <param name="separator">Separator to place between the items in the string.</param>
-            <returns>The resulting string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> class that lets you
-            override a named parameter passed to a constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> object that will
-            override the given named constructor parameter, and pass the given
-            value.
-            </summary>
-            <param name="parameterName">Name of the constructor parameter.</param>
-            <param name="parameterValue">Value to pass for the constructor.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ParameterOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.ParameterOverride"/> that lets you
-            specify multiple parameter overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ParameterOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverride">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that lets you override
-            the value for a specified property.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.#ctor(System.String,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/>.
-            </summary>
-            <param name="propertyName">The property name.</param>
-            <param name="propertyValue">Value to use for the property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PropertyOverrides">
-            <summary>
-            A convenience form of <see cref="T:Microsoft.Practices.Unity.PropertyOverride"/> that lets you
-            specify multiple property overrides in one shot rather than having
-            to construct multiple objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PropertyOverrides.MakeOverride(System.String,System.Object)">
-            <summary>
-            When implemented in derived classes, this method is called from the <see cref="M:Microsoft.Practices.Unity.OverrideCollection`3.Add(`1,`2)"/>
-            method to create the actual <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects.
-            </summary>
-            <param name="key">Key value to create the resolver.</param>
-            <param name="value">Value to store in the resolver.</param>
-            <returns>The created <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration">
-            <summary>
-            Interface defining the configuration interface exposed by the
-            Static Factory extension.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator">
-            <summary>
-            Base interface for all extension configuration interfaces.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainerExtensionConfigurator.Container">
-            <summary>
-            Retrieve the container instance that we are currently configuring.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.IStaticFactoryConfiguration.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext">
-            <summary>
-            Represents the context in which a build-up or tear-down operation runs.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>Any policies added to this object are transient
-            and will be erased at the end of the buildup.</remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IBuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> class with a <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>, 
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/>, <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> and the 
-            build key used to start this build operation. 
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="policies">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to use for this context.</param>
-            <param name="originalBuildKey">Build key to start building.</param>
-            <param name="existing">The existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Object)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="existing">Existing object to build up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.#ctor(Microsoft.Practices.ObjectBuilder2.IStrategyChain,Microsoft.Practices.ObjectBuilder2.ILifetimeContainer,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.IPolicyList,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.Unity.CompositeResolverOverride)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderContext"/> using the explicitly provided
-            values.
-            </summary>
-            <param name="chain">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/> to use for this context.</param>
-            <param name="lifetime">The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> to use for this context.</param>
-            <param name="persistentPolicies">The set of persistent policies to use for this context.</param>
-            <param name="transientPolicies">The set of transient policies to use for this context. It is
-            the caller's responsibility to ensure that the transient and persistent policies are properly
-            combined.</param>
-            <param name="buildKey">Build key for this context.</param>
-            <param name="resolverOverrides">The resolver overrides.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.AddResolverOverrides(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.ResolverOverride})">
-            <summary>
-            Add a new set of resolver override objects to the current build operation.
-            </summary>
-            <param name="newOverrides"><see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> objects to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.GetOverriddenResolver(System.Type)">
-            <summary>
-            Get a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object for the given <paramref name="dependencyType"/>
-            or null if that dependency hasn't been overridden.
-            </summary>
-            <param name="dependencyType">Type of the dependency.</param>
-            <returns>Resolver to use, or null if no override matches for the current operation.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context.
-            </summary>
-            <param name="newBuildKey">Key to use to build up.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContext.NewBuildUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,System.Action{Microsoft.Practices.ObjectBuilder2.IBuilderContext})">
-            <summary>
-            A convenience method to do a new buildup operation on an existing context. This
-            overload allows you to specify extra policies which will be in effect for the duration
-            of the build.
-            </summary>
-            <param name="newBuildKey">Key defining what to build up.</param>
-            <param name="childCustomizationBlock">A delegate that takes a <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/>. This
-            is invoked with the new child context before the build up process starts. This gives callers
-            the opportunity to customize the context for the build process.</param>
-            <returns>Created object.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Strategies">
-            <summary>
-            Gets the head of the strategy chain.
-            </summary>
-            <returns>
-            The strategy that's first in the chain; returns null if there are no
-            strategies in the chain.
-            </returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildKey">
-            <summary>
-            Get the current build key for the current build operation.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Existing">
-            <summary>
-            The current object being built up or torn down.
-            </summary>
-            <value>
-            The current object being manipulated by the build operation. May
-            be null if the object hasn't been created yet.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Lifetime">
-            <summary>
-            Gets the <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </summary>
-            <value>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> associated with the build.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.OriginalBuildKey">
-            <summary>
-            Gets the original build key for the build operation.
-            </summary>
-            <value>
-            The original build key for the build operation.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.PersistentPolicies">
-            <summary>
-            The set of policies that were passed into this context.
-            </summary>
-            <remarks>This returns the policies passed into the context.
-            Policies added here will remain after buildup completes.</remarks>
-            <value>The persistent policies for the current context.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.Policies">
-            <summary>
-            Gets the policies for the current context. 
-            </summary>
-            <remarks>
-            Any modifications will be transient (meaning, they will be forgotten when 
-            the outer BuildUp for this context is finished executing).
-            </remarks>
-            <value>
-            The policies for the current context.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.RecoveryStack">
-            <summary>
-            Gets the collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> objects
-            that need to execute in event of an exception.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.BuildComplete">
-            <summary>
-            Flag indicating if the build operation should continue.
-            </summary>
-            <value>true means that building should not call any more
-            strategies, false means continue to the next strategy.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.CurrentOperation">
-            <summary>
-            An object representing what is currently being done in the
-            build chain. Used to report back errors if there's a failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.BuilderContext.ChildContext">
-            <summary>
-            The build context used to resolve a dependency during the build operation represented by this context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException">
-            <summary>
-            Represents that a dependency could not be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with no extra information.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given message.
-            </summary>
-            <param name="message">Some random message.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.String,System.Exception)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the given
-            message and inner exception.
-            </summary>
-            <param name="message">Some random message</param>
-            <param name="innerException">Inner exception.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyMissingException.#ctor(System.Object)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.DependencyMissingException"/> class with the build key of the object begin built.
-            </summary>
-            <param name="buildKey">The build key of the object begin built.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException">
-            <summary>
-            The exception thrown when injection is attempted on a method
-            that is an open generic or has out or ref params.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with no
-            message.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            </summary>
-            <param name="message">Message to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException.#ctor(System.String,System.Exception)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.IllegalInjectionMethodException"/> with the given message
-            and inner exception.
-            </summary>
-            <param name="message">Message to return.</param>
-            <param name="innerException">Inner exception</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions">
-            <summary>
-            Extension methods to provide convenience overloads over the
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Start a recursive build up operation to retrieve the default
-            value for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type of object to build.</typeparam>
-            <param name="context">Parent context.</param>
-            <returns>Resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.NewBuildUp``1(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            Start a recursive build up operation to retrieve the named
-            implementation for the given <typeparamref name="TResult"/> type.
-            </summary>
-            <typeparam name="TResult">Type to resolve.</typeparam>
-            <param name="context">Parent context.</param>
-            <param name="name">Name to resolve with.</param>
-            <returns>The resulting object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderContextExtensions.AddResolverOverrides(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Add a set of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>s to the context, specified as a 
-            variable argument list.
-            </summary>
-            <param name="context">Context to add overrides to.</param>
-            <param name="overrides">The overrides.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack">
-            <summary>
-            Data structure that stores the set of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/>
-            objects and executes them when requested.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.IRecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer">
-            <summary>
-            Represents a lifetime container.
-            </summary>
-            <remarks>
-            A lifetime container tracks the lifetime of an object, and implements
-            IDisposable. When the container is disposed, any objects in the
-            container which implement IDisposable are also disposed.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Add(System.Object)">
-            <summary>
-            Adds an object to the lifetime container.
-            </summary>
-            <param name="item">The item to be added to the lifetime container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Contains(System.Object)">
-            <summary>
-            Determine if a given object is in the lifetime container.
-            </summary>
-            <param name="item">
-            The item to locate in the lifetime container.
-            </param>
-            <returns>
-            Returns true if the object is contained in the lifetime
-            container; returns false otherwise.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Dispose(System.Boolean)">
-            <summary>
-            Releases the resources used by the <see cref="T:Microsoft.Practices.ObjectBuilder2.LifetimeContainer"/>. 
-            </summary>
-            <param name="disposing">
-            true to release managed and unmanaged resources; false to release only unmanaged resources.
-            </param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.System#Collections#IEnumerable#GetEnumerator">
-            <summary>
-            Returns an enumerator that iterates through the lifetime container.
-            </summary>
-            <returns>
-            An <see cref="T:System.Collections.IEnumerator"/> object that can be used to iterate through the life time container. 
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Remove(System.Object)">
-            <summary>
-            Removes an item from the lifetime container. The item is
-            not disposed.
-            </summary>
-            <param name="item">The item to be removed.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.LifetimeContainer.Count">
-            <summary>
-            Gets the number of references in the lifetime container
-            </summary>
-            <value>
-            The number of references in the lifetime container
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPolicyList">
-            <summary>
-            A custom collection over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PolicyList">
-            <summary>
-            A custom collection wrapper over <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.#ctor(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Initialize a new instance of a <see cref="T:Microsoft.Practices.ObjectBuilder2.PolicyList"/> class with another policy list.
-            </summary>
-            <param name="innerPolicyList">An inner policy list to search.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Clear(System.Type,System.Object)">
-            <summary>
-            Removes an individual policy type for a build key.
-            </summary>
-            <param name="policyInterface">The type of policy to remove.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearAll">
-            <summary>
-            Removes all policies from the list.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.ClearDefault(System.Type)">
-            <summary>
-            Removes a default policy.
-            </summary>
-            <param name="policyInterface">The type the policy was registered as.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Get(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Gets an individual policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies.</param>
-            <param name="localOnly">true if the policy searches local only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list, if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.GetNoDefault(System.Type,System.Object,System.Boolean,Microsoft.Practices.ObjectBuilder2.IPolicyList@)">
-            <summary>
-            Get the non default policy.
-            </summary>
-            <param name="policyInterface">The interface the policy is registered under.</param>
-            <param name="buildKey">The key the policy applies to.</param>
-            <param name="localOnly">True if the search should be in the local policy list only; otherwise false to search up the parent chain.</param>
-            <param name="containingPolicyList">The policy list in the chain that the searched for policy was found in, null if the policy was
-            not found.</param>
-            <returns>The policy in the list if present; returns null otherwise.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.Set(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy,System.Object)">
-            <summary>
-            Sets an individual policy.
-            </summary>
-            <param name="policyInterface">The <see cref="T:System.Type"/> of the policy.</param>
-            <param name="policy">The policy to be registered.</param>
-            <param name="buildKey">The key the policy applies.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PolicyList.SetDefault(System.Type,Microsoft.Practices.ObjectBuilder2.IBuilderPolicy)">
-            <summary>
-            Sets a default policy. When checking for a policy, if no specific individual policy
-            is available, the default will be used.
-            </summary>
-            <param name="policyInterface">The interface to register the policy under.</param>
-            <param name="policy">The default policy to be registered.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PolicyList.Count">
-            <summary>
-            Gets the number of items in the locator.
-            </summary>
-            <value>
-            The number of items in the locator.
-            </value>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.RecoveryStack">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IRecoveryStack"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Add(Microsoft.Practices.ObjectBuilder2.IRequiresRecovery)">
-            <summary>
-            Add a new <see cref="T:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery"/> object to this
-            list.
-            </summary>
-            <param name="recovery">Object to add.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.RecoveryStack.ExecuteRecovery">
-            <summary>
-            Execute the <see cref="M:Microsoft.Practices.ObjectBuilder2.IRequiresRecovery.Recover"/> method
-            of everything in the recovery list. Recoveries will execute
-            in the opposite order of add - it's a stack.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.RecoveryStack.Count">
-            <summary>
-            Return the number of recovery objects currently in the stack.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> which will notify an object about
-            the completion of a BuildUp operation, or start of a TearDown operation.
-            </summary>
-            <remarks>
-            This strategy checks the object that is passing through the builder chain to see if it
-            implements IBuilderAware and if it does, it will call <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)"/>
-            and <see cref="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown"/>. This strategy is meant to be used from the
-            <see cref="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization"/> stage.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy.PreTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a teardown operation. The
-            PreTearDown method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the teardown operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuilderAware">
-            <summary>
-            Implemented on a class when it wants to receive notifications
-            about the build process.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnBuiltUp(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being built up.
-            </summary>
-            <param name="buildKey">The key of the object that was just built up.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuilderAware.OnTearingDown">
-            <summary>
-            Called by the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderAwareStrategy"/> when the object is being torn down.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuilderStage">
-            <summary>
-            Enumeration to represent the object builder stages.
-            </summary>
-            <remarks>
-            The order of the values in the enumeration is the order in which the stages are run.
-            </remarks>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PreCreation">
-            <summary>
-            Strategies in this stage run before creation. Typical work done in this stage might
-            include strategies that use reflection to set policies into the context that other
-            strategies would later use.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Creation">
-            <summary>
-            Strategies in this stage create objects. Typically you will only have a single policy-driven
-            creation strategy in this stage.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.Initialization">
-            <summary>
-            Strategies in this stage work on created objects. Typical work done in this stage might
-            include setter injection and method calls.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.ObjectBuilder2.BuilderStage.PostInitialization">
-            <summary>
-            Strategies in this stage work on objects that are already initialized. Typical work done in
-            this stage might include looking to see if the object implements some notification interface
-            to discover when its initialization stage has been completed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy">
-            <summary>
-            Represents a builder policy for mapping build keys.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping. This parameter can be null
-            (called when getting container registrations).</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy"/> with the new build key.
-            </summary>
-            <param name="newBuildKey">The new build key.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping, unused in this implementation.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy">
-            <summary>
-            Represents a strategy for mapping build keys in the build up operation.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildKeyMappingStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.  Looks for the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/>
-            and if found maps the build key for the current operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildKeyMappingPolicy"/> that can map
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy"/> instance
-            that will map generic types.
-            </summary>
-            <param name="destinationKey">Build key to map to. This must be or contain an open generic type.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.GenericTypeBuildKeyMappingPolicy.Map(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Maps the build key.
-            </summary>
-            <param name="buildKey">The build key to map.</param>
-            <param name="context">Current build context. Used for contextual information
-            if writing a more sophisticated mapping.</param>
-            <returns>The new build key.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that will look for a build plan
-            in the current context. If it exists, it invokes it, otherwise
-            it creates one and stores it for later, and invokes it.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.BuildPlanStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that chooses
-            constructors based on these criteria: first, pick a constructor marked with the
-            <typeparamref name="TInjectionConstructorMarkerAttribute"/> attribute. If there
-            isn't one, then choose the constructor with the longest parameter list. If that is ambiguous,
-            then throw.
-            </summary>
-            <exception cref="T:System.InvalidOperationException">Thrown when the constructor to choose is ambiguous.</exception>
-            <typeparam name="TInjectionConstructorMarkerAttribute">Attribute used to mark the constructor to call.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that, when implemented,
-            will determine which constructor to call from the build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicyBase`1.ConstructorLengthComparer.Compare(System.Reflection.ConstructorInfo,System.Reflection.ConstructorInfo)">
-            <summary>
-            Compares two objects and returns a value indicating whether one is less than, equal to, or greater than the other.
-            </summary>
-            <param name="y">The second object to compare.</param>
-            <param name="x">The first object to compare.</param>
-            <returns>
-            Value Condition Less than zero is less than y. Zero equals y. Greater than zero is greater than y.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.ConstructorInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1">
-            <summary>
-            Base class for return values from selector policies that
-            return a MemberInfo of some sort plus a list of parameter
-            keys to look up the parameter resolvers.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters">
-            <summary>
-            Base class for return of selector policies that need
-            to keep track of a set of parameter resolvers.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.AddParameterResolver(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Adds the parameter resolver. Resolvers are assumed
-            to be in the order of the parameters to the member.
-            </summary>
-            <param name="newResolver">The new resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters.GetParameterResolvers">
-            <summary>
-            Gets the parameter resolvers.
-            </summary>
-            <returns>An array with the parameter resolvers.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.#ctor(`0)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1"/>, storing
-            the given member info.
-            </summary>
-            <param name="memberInfo">Member info to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters`1.MemberInfo">
-            <summary>
-            The member info stored.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.#ctor(System.Reflection.ConstructorInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedConstructor"/> instance which
-            contains the given constructor.
-            </summary>
-            <param name="constructor">The constructor to wrap.</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedConstructor.Constructor">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="constructorSignature">A string representing the constructor being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ConstructorSignature">
-            <summary>
-            String describing the constructor being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that emits IL to call constructors
-            as part of creating a build plan.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <remarks>Existing object is an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext"/>.</remarks>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetPerBuildSingleton(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to set up a PerResolveLifetimeManager lifetime manager
-            if the current object is such.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.CreateSignatureString(System.Reflection.ConstructorInfo)">
-            <summary>
-            Build up the string that will represent the constructor signature
-            in any exception message.
-            </summary>
-            <param name="constructor"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.SetCurrentOperationToInvokingConstructor(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructInterface(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an interface (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructAbstractClass(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an abstract class (usually due to the lack of a type mapping).
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForAttemptingToConstructDelegate(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            no existing object is present, but the user is attempting to build
-            an delegate other than Func{T} or Func{IEnumerable{T}}.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObject(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodConstructorStrategy.ThrowForNullExistingObjectWithInvalidConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.String)">
-            <summary>
-            A helper method used by the generated IL to throw an exception if
-            a dependency cannot be resolved because of an invalid constructor.
-            </summary>
-            <param name="context">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> currently being
-            used for the build of this object.</param>
-            <param name="signature">The signature of the invalid constructor.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingConstructorOperation.ConstructorSignature">
-            <summary>
-            Constructor we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.#ctor(System.Type)">
-            <summary>
-            
-            </summary>
-            <param name="typeToBuild"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.AddToBuildPlan(System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="expression"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.CreateParameterExpression(Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy,System.Type,System.Linq.Expressions.Expression)">
-            <summary>
-            
-            </summary>
-            <param name="resolver"></param>
-            <param name="parameterType"></param>
-            <param name="setOperationExpression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,System.String)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolverKey">Key the resolver was stored under.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Helper method used by generated IL to look up a dependency resolver based on the given key.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of the dependency being resolved.</param>
-            <param name="resolver">The configured resolver.</param>
-            <returns>The found dependency resolver.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.TypeToBuild">
-            <summary>
-            The type that is to be built with the dynamic build plan.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanGenerationContext.ContextParameter">
-            <summary>
-            The context parameter representing the <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderContext"/> used when the build plan is executed.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan">
-            <summary>
-            
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.#ctor(Microsoft.Practices.ObjectBuilder2.DynamicBuildPlanMethod)">
-            <summary>
-            
-            </summary>
-            <param name="buildMethod"></param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlan.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            
-            </summary>
-            <param name="context"></param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuildPlanCreatorPolicy"/> implementation
-            that constructs a build plan via dynamic IL emission.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.#ctor(Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain)">
-            <summary>
-            Construct a <see cref="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy"/> that
-            uses the given strategy chain to construct the build plan.
-            </summary>
-            <param name="strategies">The strategy chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodBuildPlanCreatorPolicy.CreatePlan(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Construct a build plan.
-            </summary>
-            <param name="context">The current build context.</param>
-            <param name="buildKey">The current build key.</param>
-            <returns>The created build plan.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation">
-            <summary>
-            A class that records that a constructor is about to be call, and is 
-            responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.ToString">
-            <summary>
-            Generate the description string.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.InvokingMethodOperation.MethodSignature">
-            <summary>
-            Method we're trying to call.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation">
-            <summary>
-            This class records the information about which constructor argument is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.#ctor(System.Type,System.String,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.ConstructorArgumentResolveOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">The type that is being constructed.</param>
-            <param name="methodSignature">A string representing the method being called.</param>
-            <param name="parameterName">Parameter being resolved.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ToString">
-            <summary>
-            Generate the string describing what parameter was being resolved.
-            </summary>
-            <returns>The description string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.MethodSignature">
-            <summary>
-            String describing the method being set up.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.MethodArgumentResolveOperation.ParameterName">
-            <summary>
-            Parameter that's being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to call
-            chosen methods (as specified by the current <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>)
-            as part of object build up.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToResolvingParameter(System.String,System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodCallStrategy.SetCurrentOperationToInvokingMethod(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertyOperation">
-            <summary>
-            A base class that holds the information shared by all operations
-            performed by the container while setting properties.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString">
-            <summary>
-            Generate the description of this operation.
-            </summary>
-            <returns>The string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.PropertyOperation.PropertyName">
-            <summary>
-            The property value currently being resolved.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being resolved, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:System.Object"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ResolvingPropertyValueOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.BuilderStrategy"/> that generates IL to resolve properties
-            on an object being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation.
-            </summary>
-            <param name="context">The context for the operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToResolvingPropertyValue(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DynamicMethodPropertySetterStrategy.SetCurrentOperationToSettingProperty(System.String,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            A helper method used by the generated IL to store the current operation in the build context.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation">
-            <summary>
-            This class records the information about which property value is currently
-            being set, and is responsible for generating the error string required when
-            an error has occurred.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.#ctor(System.Type,System.String)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation"/> class.
-            </summary>
-            <param name="typeBeingConstructed">Type property is on.</param>
-            <param name="propertyName">Name of property being set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SettingPropertyOperation.GetDescriptionFormat">
-            <summary>
-            Get a format string used to create the description. Called by
-            the base <see cref="M:Microsoft.Practices.ObjectBuilder2.PropertyOperation.ToString"/> method.
-            </summary>
-            <returns>The format string.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FactoryDelegateBuildPlanPolicy.BuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Creates an instance of this build plan's type, or fills
-            in the existing type if passed in.
-            </summary>
-            <param name="context">Context used to build up the object.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that will examine the given
-            types and return a sequence of <see cref="T:System.Reflection.MethodInfo"/> objects
-            that should be called as part of building the object.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that selects
-            methods by looking for the given <typeparamref name="TMarkerAttribute"/>
-            attribute on those methods.
-            </summary>
-            <typeparam name="TMarkerAttribute">Type of attribute used to mark methods
-            to inject.</typeparam>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-            <typeparam name="TMarkerAttribute">Attribute that marks methods that should
-            be called.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicyBase`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.MethodSelectorPolicy`1.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod">
-            <summary>
-            Objects of this type are the return value from <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            It encapsulates the desired <see cref="T:System.Reflection.MethodInfo"/> with the string keys
-            needed to look up the <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for each
-            parameter.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedMethod.#ctor(System.Reflection.MethodInfo)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedMethod"/> instance which
-            contains the given method.
-            </summary>
-            <param name="method">The method</param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedMethod.Method">
-            <summary>
-            The constructor this object wraps.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderPolicy"/> that returns a sequence
-            of properties that should be injected for the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1">
-            <summary>
-            Base class that provides an implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/>
-            which lets you override how the parameter resolvers are created.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorBase`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that looks
-            for properties marked with the <typeparamref name="TResolutionAttribute"/>
-            attribute that are also settable and not indexers.
-            </summary>
-            <typeparam name="TResolutionAttribute"></typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.PropertySelectorPolicy`1.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty">
-            <summary>
-            Objects of this type are returned from
-            <see cref="M:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>.
-            This class combines the <see cref="T:System.Reflection.PropertyInfo"/> about
-            the property with the string key used to look up the resolver
-            for this property's value.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.SelectedProperty.#ctor(System.Reflection.PropertyInfo,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.SelectedProperty"/>
-            with the given <see cref="T:System.Reflection.PropertyInfo"/> and key.
-            </summary>
-            <param name="property">The property.</param>
-            <param name="resolver"></param>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Property">
-            <summary>
-            PropertyInfo for this property.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.SelectedProperty.Resolver">
-            <summary>
-            IDependencyResolverPolicy for this property
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy">
-            <summary>
-            Implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy">
-            <summary>
-            A builder policy that lets you keep track of the current
-            resolvers and will remove them from the given policy set.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.AddResolverKey(System.Object)">
-            <summary>
-            Add a new resolver to track by key.
-            </summary>
-            <param name="key">Key that was used to add the resolver to the policy set.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Remove the currently tracked resolvers from the given policy list.
-            </summary>
-            <param name="policies">Policy list to remove the resolvers from.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.GetTracker(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Get an instance that implements <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverTrackerPolicy"/>,
-            either the current one in the policy set or creating a new one if it doesn't
-            exist.
-            </summary>
-            <param name="policies">Policy list to look up from.</param>
-            <param name="buildKey">Build key to track.</param>
-            <returns>The resolver tracker.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.TrackKey(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object,System.Object)">
-            <summary>
-            Add a key to be tracked to the current tracker.
-            </summary>
-            <param name="policies">Policy list containing the resolvers and trackers.</param>
-            <param name="buildKey">Build key for the resolvers being tracked.</param>
-            <param name="resolverKey">Key for the resolver.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.DependencyResolverTrackerPolicy.RemoveResolvers(Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Object)">
-            <summary>
-            Remove the resolvers for the given build key.
-            </summary>
-            <param name="policies">Policy list containing the build key.</param>
-            <param name="buildKey">Build key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that
-            calls back into the build chain to build up the dependency, passing
-            a type given at compile time as its build key.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.#ctor(System.Type)">
-            <summary>
-            Create a new instance storing the given type.
-            </summary>
-            <param name="typeToBuild">Type to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.FixedTypeResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain">
-            <summary>
-            This interface defines a standard method to convert any <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> regardless
-            of the stage enum into a regular, flat strategy chain.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStagedStrategyChain.MakeStrategyChain">
-            <summary>
-            Convert this <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> into
-            a flat <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.
-            </summary>
-            <returns>The flattened <see cref="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.IStrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the Buildup methods on the strategies.
-            </summary>
-            <param name="context">Context for the build process.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.IStrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy">
-            <summary>
-            A builder policy used to create lifetime policy instances.
-            Used by the LifetimeStrategy when instantiating open
-            generic types.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy">
-            <summary>
-            An <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/> implementation that uses
-            a <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/> to figure out if an object
-            has already been created and to update or remove that
-            object from some backing store.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PreBuildUp method is called when the chain is being executed in the
-            forward direction.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.LifetimeStrategy.PostBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Called during the chain of responsibility for a build operation. The
-            PostBuildUp method is called when the chain has finished the PreBuildUp
-            phase and executes in reverse order from the PreBuildUp calls.
-            </summary>
-            <param name="context">Context of the build operation.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1">
-            <summary>
-            Represents a chain of responsibility for builder strategies partitioned by stages.
-            </summary>
-            <typeparam name="TStageEnum">The stage enumeration to partition the strategies.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.#ctor(Microsoft.Practices.ObjectBuilder2.StagedStrategyChain{`0})">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> class with an inner strategy chain to use when building.
-            </summary>
-            <param name="innerChain">The inner strategy chain to use first when finding strategies in the build operation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy,`0)">
-            <summary>
-            Adds a strategy to the chain at a particular stage.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.AddNew``1(`0)">
-            <summary>
-            Add a new strategy for the <paramref name="stage"/>.
-            </summary>
-            <typeparam name="TStrategy">The <see cref="T:System.Type"/> of <see cref="T:Microsoft.Practices.ObjectBuilder2.IBuilderStrategy"/></typeparam>
-            <param name="stage">The stage to add the strategy.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.Clear">
-            <summary>
-            Clear the current strategy chain list.
-            </summary>
-            <remarks>
-            This will not clear the inner strategy chain if this instance was created with one.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1.MakeStrategyChain">
-            <summary>
-            Makes a strategy chain based on this instance.
-            </summary>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.StrategyChain">
-            <summary>
-            Represents a chain of responsibility for builder strategies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.#ctor(System.Collections.IEnumerable)">
-            <summary>
-            Initialize a new instance of the <see cref="T:Microsoft.Practices.ObjectBuilder2.StrategyChain"/> class with a collection of strategies.
-            </summary>
-            <param name="strategies">A collection of strategies to initialize the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Add(Microsoft.Practices.ObjectBuilder2.IBuilderStrategy)">
-            <summary>
-            Adds a strategy to the chain.
-            </summary>
-            <param name="strategy">The strategy to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.AddRange(System.Collections.IEnumerable)">
-            <summary>
-            Adds strategies to the chain.
-            </summary>
-            <param name="strategyEnumerable">The strategies to add to the chain.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.Reverse">
-            <summary>
-            Reverse the order of the strategy chain.
-            </summary>
-            <returns>The reversed strategy chain.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context to build up.
-            </summary>
-            <param name="context">Context for the build processes.</param>
-            <returns>The build up object</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.ExecuteTearDown(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Execute this strategy chain against the given context,
-            calling the TearDown methods on the strategies.
-            </summary>
-            <param name="context">Context for the teardown process.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.System#Collections#Generic#IEnumerable{Microsoft#Practices#ObjectBuilder2#IBuilderStrategy}#GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through the collection.
-             </summary>
-            
-             <returns>
-             A <see cref="T:System.Collections.Generic.IEnumerator`1"></see> that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.StrategyChain.GetEnumerator">
-             <summary>
-             Returns an enumerator that iterates through a collection.
-             </summary>
-            
-             <returns>
-             An <see cref="T:System.Collections.IEnumerator"></see> object that can be used to iterate through the collection.
-             </returns>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey">
-            <summary>
-            Build key used to combine a type object with a string name. Used by
-            ObjectBuilder to indicate exactly what is being built.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance with the given
-            type and name.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for the default
-            buildup of the given type.
-            </summary>
-            <param name="type"><see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> to build.</param>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance. It is
-            initialized for the default key for the given type.
-            </summary>
-            <typeparam name="T">Type to build.</typeparam>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Make``1(System.String)">
-            <summary>
-            This helper method creates a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance for
-            the given type and key.
-            </summary>
-            <typeparam name="T">Type to build</typeparam>
-            <param name="name">Key to use to look up type mappings and singletons.</param>
-            <returns>A new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instance initialized with the given type and name.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Equals(System.Object)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. Also, comparing
-            against a different type will also return false.</remarks>
-            <param name="obj">Object to compare to.</param>
-            <returns>True if the two keys are equal, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.GetHashCode">
-            <summary>
-            Calculate a hash code for this instance.
-            </summary>
-            <returns>A hash code.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Equality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for equality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>True if the values of the keys are the same, else false.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.op_Inequality(Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey,Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey)">
-            <summary>
-            Compare two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances for inequality.
-            </summary>
-            <remarks>Two <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> instances compare equal
-            if they contain the same name and the same type. If either field differs
-            the keys are not equal.</remarks>
-            <param name="left">First of the two keys to compare.</param>
-            <param name="right">Second of the two keys to compare.</param>
-            <returns>false if the values of the keys are the same, else true.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.ToString">
-            <summary>
-            Formats the build key as a string (primarily for debugging).
-            </summary>
-            <returns>A readable string representation of the build key.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type">
-            <summary>
-            Return the <see cref="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Type"/> stored in this build key.
-            </summary>
-            <value>The type to build.</value>
-        </member>
-        <member name="P:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey.Name">
-            <summary>
-            Returns the name stored in this build key.
-            </summary>
-            <remarks>The name to use when building.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/> so that
-            you can new up a key using generic syntax.
-            </summary>
-            <typeparam name="T">Type for the key.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1.#ctor(System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey`1"/> that
-            specifies the given type and name.
-            </summary>
-            <param name="name">Name for the key.</param>
-        </member>
-        <member name="T:Microsoft.Practices.ObjectBuilder2.Sequence">
-            <summary>
-            A series of helper methods to deal with sequences -
-            objects that implement <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Collect``1(``0[])">
-            <summary>
-            A function that turns an arbitrary parameter list into an
-            <see cref="T:System.Collections.Generic.IEnumerable`1"/>.
-            </summary>
-            <typeparam name="T">Type of arguments.</typeparam>
-            <param name="arguments">The items to put into the collection.</param>
-            <returns>An array that contains the values of the <paramref name="arguments"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.ObjectBuilder2.Sequence.Zip``2(System.Collections.Generic.IEnumerable{``0},System.Collections.Generic.IEnumerable{``1})">
-            <summary>
-            Given two sequences, return a new sequence containing the corresponding values
-            from each one.
-            </summary>
-            <typeparam name="TFirstSequenceElement">Type of first sequence.</typeparam>
-            <typeparam name="TSecondSequenceElement">Type of second sequence.</typeparam>
-            <param name="sequence1">First sequence of items.</param>
-            <param name="sequence2">Second sequence of items.</param>
-            <returns>New sequence of pairs. This sequence ends when the shorter of sequence1 and sequence2 does.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> that lets you register a
-            delegate with the container to create an object, rather than calling
-            the object's constructor.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtension">
-            <summary>
-            Base class for all <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> extension objects.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.InitializeExtension(Microsoft.Practices.Unity.ExtensionContext)">
-            <summary>
-            The container calls this method when the extension is added.
-            </summary>
-            <param name="context">A <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> instance that gives the
-            extension access to the internals of the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtension.Remove">
-            <summary>
-            Removes the extension's functions from the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is called when extensions are being removed from the container. It can be
-            used to do things like disconnect event handlers or clean up member state. You do not
-            need to remove strategies or policies here; the container will do that automatically.
-            </para>
-            <para>
-            The default implementation of this method does nothing.</para>
-            </remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Container">
-            <summary>
-            The container this extension has been added to.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> that this extension has been added to.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainerExtension.Context">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> object used to manipulate
-            the inner state of the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.Initialize">
-            <summary>
-            Initialize this extension. This particular extension requires no
-            initialization work.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.String,System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/> and <paramref name="name"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="name">The name that will be used when requesting to resolve this type.</param>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.StaticFactory.StaticFactoryExtension.RegisterFactory``1(System.Func{Microsoft.Practices.Unity.IUnityContainer,System.Object})">
-            <summary>
-            Register the given factory delegate to be called when the container is
-            asked to resolve <typeparamref name="TTypeToBuild"/>.
-            </summary>
-            <typeparam name="TTypeToBuild">Type that will be requested from the container.</typeparam>
-            <param name="factoryMethod">Delegate to invoke to create the instance.</param>
-            <returns>The container extension object this method was invoked on.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/> that
-            acts as a decorator over another <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            This checks to see if the current type being built is the
-            right one before checking the inner <see cref="T:Microsoft.Practices.Unity.ResolverOverride"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.#ctor(System.Type,Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/>
-            </summary>
-            <param name="targetType">Type to check for.</param>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride.GetResolver(Microsoft.Practices.ObjectBuilder2.IBuilderContext,System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that can be used to give a value
-            for the given desired dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="dependencyType">Type of dependency desired.</param>
-            <returns>a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> object if this override applies, null if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TypeBasedOverride`1">
-            <summary>
-            A convenience version of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride"/> that lets you
-            specify the type to construct via generics syntax.
-            </summary>
-            <typeparam name="T">Type to check for.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TypeBasedOverride`1.#ctor(Microsoft.Practices.Unity.ResolverOverride)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.TypeBasedOverride`1"/>.
-            </summary>
-            <param name="innerOverride">Inner override to check after type matches.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainerExtensions">
-            <summary>
-            Extension class that adds a set of convenience overloads to the
-            <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> interface.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <typeparam name="T">Type this registration is for.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping and transient lifetime.
-            </para>
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <typeparamref name="TFrom"/>,
-            actually return an instance of type <typeparamref name="TTo"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name of this mapping.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``2(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <typeparam name="TFrom"><see cref="T:System.Type"/> that will be requested.</typeparam>
-            <typeparam name="TTo"><see cref="T:System.Type"/> that will actually be returned.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to configure injection on.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <typeparam name="T">The type to apply the <paramref name="lifetimeManager"/> to.</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name that will be used to request the type.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type with specific members to be injected.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type this registration is for.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            <para>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </para>
-            <para>
-            This overload registers a default mapping.
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container.
-            </summary>
-            <remarks>
-            This method is used to tell the container that when asked for type <paramref name="from"/>,
-            actually return an instance of type <paramref name="to"/>. This is very useful for
-            getting instances of interfaces.
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to configure in the container.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterType(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> for the given type and name with the container.
-            No type mapping is performed for this type.
-            </summary>
-            <param name="container">Container to configure.</param>
-            <param name="t">The <see cref="T:System.Type"/> to apply the <paramref name="lifetimeManager"/> to.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="container">Container to configure.</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance``1(Microsoft.Practices.Unity.IUnityContainer,System.String,``0,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <typeparam name="TInterface">Type of instance to register (may be an implemented interface instead of the full type).</typeparam>
-            <param name="instance">Object to returned.</param>
-            <param name="container">Container to configure.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration and has the container take over the lifetime of the instance.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload does a default registration (name = null).
-            </para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="lifetimeManager">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.RegisterInstance(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String,System.Object)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            <para>
-            This overload automatically has the container take ownership of the <paramref name="instance"/>.</para>
-            </remarks>
-            <param name="container">Container to configure.</param>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve``1(Microsoft.Practices.Unity.IUnityContainer,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to get from the container.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Resolve(Microsoft.Practices.Unity.IUnityContainer,System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the default requested type from the container.
-            </summary>
-            <param name="container">Container to resolve from.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="overrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.ResolveAll``1(Microsoft.Practices.Unity.IUnityContainer,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <typeparam name="T">The type requested.</typeparam>
-            <param name="container">Container to resolve from.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <typeparamref name="T"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp``1(Microsoft.Practices.Unity.IUnityContainer,``0,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <typeparam name="T"><see cref="T:System.Type"/> of object to perform injection on.</typeparam>
-            <param name="container">Container to resolve through.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <typeparamref name="T"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.BuildUp(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.Object,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para>
-            <para>
-            This overload uses the default registrations.
-            </para>
-            </remarks>
-            <param name="container">Container to resolve through.</param>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="resolverOverrides">Any overrides for the Buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.AddNewExtension``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Creates a new extension object and adds it to the container.
-            </summary>
-            <typeparam name="TExtension">Type of <see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add. The extension type
-            will be resolved from within the supplied <paramref name="container"/>.</typeparam>
-            <param name="container">Container to add the extension to.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.Configure``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <typeparam name="TConfigurator">The configuration interface required.</typeparam>
-            <param name="container">Container to configure.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type)">
-            <summary>
-            Check if a particular type has been registered with the container with
-            the default name.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered(Microsoft.Practices.Unity.IUnityContainer,System.Type,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <param name="container">Container to inspect.</param>
-            <param name="typeToCheck">Type to check registration for.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Check if a particular type has been registered with the container with the default name.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <returns>True if this type has been registered, false if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainerExtensions.IsRegistered``1(Microsoft.Practices.Unity.IUnityContainer,System.String)">
-            <summary>
-            Check if a particular type/name pair has been registered with the container.
-            </summary>
-            <typeparam name="T">Type to check registration for.</typeparam>
-            <param name="container">Container to inspect.</param>
-            <param name="nameToCheck">Name to check registration for.</param>
-            <returns>True if this type/name pair has been registered, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExtensionContext">
-            <summary>
-            The <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> class provides the means for extension objects
-            to manipulate the internal state of the <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExtensionContext.RegisterNamedType(System.Type,System.String)">
-            <summary>
-            Store a type/name pair for later resolution.
-            </summary>
-            <remarks>
-            <para>
-            When users register type mappings (or other things) with a named key, this method
-            allows you to register that name with the container so that when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])"/>
-            method is called, that name is included in the list that is returned.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> to register.</param>
-            <param name="name">Name associated with that type.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Container">
-            <summary>
-            The container that this context is associated with.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> object.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Strategies">
-            <summary>
-            The strategies this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that the container uses to build objects.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.BuildPlanStrategies">
-            <summary>
-            The strategies this container uses to construct build plans.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.StagedStrategyChain`1"/> that this container uses when creating
-            build plans.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Policies">
-            <summary>
-            The policies this container uses.
-            </summary>
-            <remarks>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> the that container uses to build objects.</remarks>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ExtensionContext.Lifetime">
-            <summary>
-            The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> that this container uses.
-            </summary>
-            <value>The <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeContainer"/> is used to manage <see cref="T:System.IDisposable"/> objects that the container is managing.</value>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.Registering">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.ExtensionContext.ChildContainerCreated">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer"/> method is called, providing 
-            the newly created child container to extensions to act on as they see fit.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedEventArgs">
-            <summary>
-            An EventArgs class that holds a string Name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with a null name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.NamedEventArgs.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.NamedEventArgs"/> with the given name.
-            </summary>
-            <param name="name">Name to store.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.NamedEventArgs.Name">
-            <summary>
-            The name.
-            </summary>
-            <value>Name used for this EventArg object.</value>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.Registering"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterEventArgs.#ctor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.RegisterEventArgs"/>.
-            </summary>
-            <param name="typeFrom">Type to map from.</param>
-            <param name="typeTo">Type to map to.</param>
-            <param name="name">Name for the registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeFrom">
-            <summary>
-            Type to map from.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.TypeTo">
-            <summary>
-            Type to map to.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager">
-            <summary>
-            <see cref="P:Microsoft.Practices.Unity.RegisterEventArgs.LifetimeManager"/> to manage instances.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs">
-            <summary>
-            Event argument class for the <see cref="E:Microsoft.Practices.Unity.ExtensionContext.RegisteringInstance"/> event.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.RegisterInstanceEventArgs.#ctor(System.Type,System.Object,System.String,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.RegisterInstanceEventArgs"/> instance initialized with the given arguments.
-            </summary>
-            <param name="registeredType">Type of instance being registered.</param>
-            <param name="instance">The instance object itself.</param>
-            <param name="name">Name to register under, null if default registration.</param>
-            <param name="lifetimeManager"><see cref="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager"/> object that handles how
-            the instance will be owned.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.RegisteredType">
-            <summary>
-            Type of instance being registered.
-            </summary>
-            <value>
-            Type of instance being registered.
-            </value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.Instance">
-            <summary>
-            Instance object being registered.
-            </summary>
-            <value>Instance object being registered</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.RegisterInstanceEventArgs.LifetimeManager">
-            <summary>
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls ownership of
-            this instance.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an instance of a generic type parameter should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.#ctor(System.String,System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="resolutionKey">name to use when looking up in the container.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericParameter.DoGetResolverPolicy(System.Type,System.String)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToResolve">The actual type to resolve.</param>
-            <param name="resolutionKey">The resolution key.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> that lets you specify that
-            an array containing the registered instances of a generic type parameter 
-            should be resolved.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.GenericResolvedArrayParameter"/> instance that specifies
-            that the given named generic parameter should be resolved.
-            </summary>
-            <param name="genericParameterName">The generic parameter name to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.MatchesType(System.Type)">
-            <summary>
-            Test to see if this parameter value has a matching type for the given type.
-            </summary>
-            <param name="t">Type to check.</param>
-            <returns>True if this parameter value is compatible with type <paramref name="t"/>,
-            false if not.</returns>
-            <remarks>A type is considered compatible if it is an array type of rank one
-            and its element type is a generic type parameter with a name matching this generic
-            parameter name configured for the receiver.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.GenericResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.GenericResolvedArrayParameter.ParameterTypeName">
-            <summary>
-            Name for the type represented by this <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/>.
-            This may be an actual type name or a generic argument name.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectedMembers">
-            <summary>
-            A Unity container extension that allows you to configure
-            which constructors, properties, and methods get injected
-            via an API rather than through attributes.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.Initialize">
-            <summary>
-            Initial the container with this extension's functionality.
-            </summary>
-            <remarks>
-            When overridden in a derived class, this method will modify the given
-            <see cref="T:Microsoft.Practices.Unity.ExtensionContext"/> by adding strategies, policies, etc. to
-            install it's functions into the container.</remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor``1(System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <typeparam name="TTypeToInject">Type the injection is being configured for.</typeparam>
-            <param name="name">Name of registration</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="typeToInject">Type to configure.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectedMembers.ConfigureInjectionFor(System.Type,System.Type,System.String,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            API to configure the injection settings for a particular type/name pair.
-            </summary>
-            <param name="serviceType">Type of interface/base class being registered (may be null).</param>
-            <param name="implementationType">Type of actual implementation class being registered.</param>
-            <param name="name">Name of registration.</param>
-            <param name="injectionMembers">Objects containing the details on which members to inject and how.</param>
-            <returns>This extension object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionConstructor">
-            <summary>
-            A class that holds the collection of information
-            for a constructor, so that the container can
-            be configured to call this constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.#ctor(System.Object[])">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.InjectionConstructor"/> that looks
-            for a constructor with the given set of parameters.
-            </summary>
-            <param name="parameterValues">The values for the parameters, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionConstructor.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionMethod">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.InjectionMember"/> that configures the
-            container to call a method as part of buildup.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.#ctor(System.String,System.Object[])">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionMethod"/> instance which will configure
-            the container to call the given methods with the given parameters.
-            </summary>
-            <param name="methodName">Name of the method to call.</param>
-            <param name="methodParameters">Parameter values for the method.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Type of interface registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionMethod.MethodNameMatches(System.Reflection.MemberInfo,System.String)">
-            <summary>
-            A small function to handle name matching. You can override this
-            to do things like case insensitive comparisons.
-            </summary>
-            <param name="targetMethod">MethodInfo for the method you're checking.</param>
-            <param name="nameToMatch">Name of the method you're looking for.</param>
-            <returns>True if a match, false if not.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter">
-            <summary>
-            A class that holds on to the given value and provides
-            the required <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            when the container is configured.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, using the runtime type of that value as the
-            type of the parameter.
-            </summary>
-            <param name="parameterValue">Value to be injected for this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.#ctor(System.Type,System.Object)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that stores
-            the given value, associated with the given type.
-            </summary>
-            <param name="parameterType">Type of the parameter.</param>
-            <param name="parameterValue">Value of the parameter</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.InjectionParameter"/> that makes it a
-            little easier to specify the type of the parameter.
-            </summary>
-            <typeparam name="TParameter">Type of parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionParameter`1.#ctor(`0)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.InjectionParameter`1"/>.
-            </summary>
-            <param name="parameterValue">Value for the parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.InjectionProperty">
-            <summary>
-            This class stores information about which properties to inject,
-            and will configure the container accordingly.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String)">
-            <summary>
-            Configure the container to inject the given property name,
-            resolving the value via the container.
-            </summary>
-            <param name="propertyName">Name of the property to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.#ctor(System.String,System.Object)">
-            <summary>
-            Configure the container to inject the given property name,
-            using the value supplied. This value is converted to an
-            <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object using the
-            rules defined by the <see cref="M:Microsoft.Practices.Unity.InjectionParameterValue.ToParameters(System.Object[])"/>
-            method.
-            </summary>
-            <param name="propertyName">Name of property to inject.</param>
-            <param name="propertyValue">Value for property.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.InjectionProperty.AddPolicies(System.Type,System.Type,System.String,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Add policies to the <paramref name="policies"/> to configure the
-            container to call this constructor with the appropriate parameter values.
-            </summary>
-            <param name="serviceType">Interface being registered, ignored in this implementation.</param>
-            <param name="implementationType">Type to register.</param>
-            <param name="name">Name used to resolve the type object.</param>
-            <param name="policies">Policy list to add policies to.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter">
-            <summary>
-            A class that stores a type, and generates a 
-            resolver object that resolves all the named instances or the
-            type registered in a container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given element type and collection of element values.
-            </summary>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.#ctor(System.Type,System.Type,System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> that
-            resolves to the given array and element types and collection of element values.
-            </summary>
-            <param name="arrayParameterType">The type for the array of elements to resolve.</param>
-            <param name="elementType">The type of elements to resolve.</param>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TElement">Type of the elements for the array of the parameter.</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayParameter`1.#ctor(System.Object[])">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedArrayParameter`1"/> that
-            resolves to the given element generic type with the given element values.
-            </summary>
-            <param name="elementValues">The values for the elements, that will
-            be converted to <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.IUnityContainer">
-            <summary>
-            Interface defining the behavior of the Unity dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            Register a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            Register an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> object that controls how this instance will be managed by the container.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Resolve an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the TypeMappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.Configure(System.Type)">
-            <summary>
-            Resolve access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.IUnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.IUnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds a weak reference to
-            it's managed instance.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ExternallyControlledLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.LifetimeManagerFactory">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimeFactoryPolicy"/> that
-            creates instances of the type of the given Lifetime Manager
-            by resolving them through the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.#ctor(Microsoft.Practices.Unity.ExtensionContext,System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.LifetimeManagerFactory"/> that will
-            return instances of the given type, creating them by
-            resolving through the container.
-            </summary>
-            <param name="containerContext">Container to resolve with.</param>
-            <param name="lifetimeType">Type of LifetimeManager to create.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.LifetimeManagerFactory.CreateLifetimePolicy">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.ObjectBuilder2.ILifetimePolicy"/>.
-            </summary>
-            <returns>The new instance.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.LifetimeManagerFactory.LifetimeType">
-            <summary>
-            The type of Lifetime manager that will be created by this factory.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.PerThreadLifetimeManager">
-            <summary>
-            A <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that holds the instances given to it, 
-            keeping one instance per thread.
-            </summary>
-            <remarks>
-            <para>
-            This LifetimeManager does not dispose the instances it holds.
-            </para>
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.#ctor">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.PerThreadLifetimeManager"/> class.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy for the 
-            current thread.
-            </summary>
-            <returns>the object desired, or <see langword="null"/> if no such object is currently 
-            stored for the current thread.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later when requested
-            in the current thread.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.PerThreadLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-            <remarks>Not implemented for this lifetime manager.</remarks>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.TransientLifetimeManager">
-            <summary>
-            An <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> implementation that does nothing,
-            thus ensuring that instances are created new every time.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.GetValue">
-            <summary>
-            Retrieve a value from the backing store associated with this Lifetime policy.
-            </summary>
-            <returns>the object desired, or null if no such object is currently stored.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.SetValue(System.Object)">
-            <summary>
-            Stores the given value into backing store for retrieval later.
-            </summary>
-            <param name="newValue">The object being stored.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.TransientLifetimeManager.RemoveValue">
-            <summary>
-            Remove the given object from backing store.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ArrayResolutionStrategy">
-            <summary>
-            This strategy implements the logic that will call container.ResolveAll
-            when an array parameter is detected.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ArrayResolutionStrategy.PreBuildUp(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Do the PreBuildUp stage of construction. This is where the actual work is performed.
-            </summary>
-            <param name="context">Current build context.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that is
-            aware of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityConstructorSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <remarks>
-            This implementation looks for the Unity <see cref="T:Microsoft.Practices.Unity.DependencyAttribute"/> on the
-            parameter and uses it to create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            for this parameter.</remarks>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> that is aware
-            of the build keys used by the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityMethodSelectorPolicy.CreateResolver(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance for the given
-            <see cref="T:System.Reflection.ParameterInfo"/>.
-            </summary>
-            <param name="parameter">Parameter to create the resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> that is aware of
-            the build keys used by the unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.DefaultUnityPropertySelectorPolicy.CreateResolver(System.Reflection.PropertyInfo)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> for the given
-            property.
-            </summary>
-            <param name="property">Property to create resolver for.</param>
-            <returns>The resolver object.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> implementation that returns
-            the value set in the constructor.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.#ctor(System.Object)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy"/>
-            which will return the given value when resolved.
-            </summary>
-            <param name="dependencyValue">The value to return.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.LiteralValueDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Get the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that stores a
-            type and name, and at resolution time puts them together into a
-            <see cref="T:Microsoft.Practices.ObjectBuilder2.NamedTypeBuildKey"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.#ctor(System.Type,System.String)">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy"/>
-            with the given type and name.
-            </summary>
-            <param name="type">The type.</param>
-            <param name="name">The name (may be null).</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>The value for the dependency.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Type">
-            <summary>
-            The type that this resolver resolves.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ObjectBuilder.NamedTypeDependencyResolverPolicy.Name">
-            <summary>
-            The name that this resolver resolves.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> that resolves to
-            to an array populated with the values that result from resolving other instances
-            of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.#ctor(System.Type,Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy"/>
-            with the given type and a collection of <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>
-            instances to use when populating the result.
-            </summary>
-            <param name="elementType">The type.</param>
-            <param name="elementPolicies">The resolver policies to use when populating an array.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedArrayWithElementsResolverPolicy.Resolve(Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Resolve the value for a dependency.
-            </summary>
-            <param name="context">Current build context.</param>
-            <returns>An array populated with the results of resolving the resolver policies.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IConstructorSelectorPolicy"/> that selects
-            the given constructor and creates the appropriate resolvers to call it with
-            the specified parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.#ctor(System.Reflection.ConstructorInfo,Microsoft.Practices.Unity.InjectionParameterValue[])">
-            <summary>
-            Create an instance of <see cref="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy"/> that
-            will return the given constructor, being passed the given injection values
-            as parameters.
-            </summary>
-            <param name="ctor">The constructor to call.</param>
-            <param name="parameterValues">Set of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describes how to obtain the values for the constructor parameters.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedConstructorSelectorPolicy.SelectConstructor(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Choose the constructor to call for the given type.
-            </summary>
-            <param name="context">Current build context</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>The chosen constructor.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper">
-            <summary>
-            Helper class for implementing selector policies that need to
-            set up dependency resolver policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMemberSelectorHelper.AddParameterResolvers(System.Type,Microsoft.Practices.ObjectBuilder2.IPolicyList,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue},Microsoft.Practices.ObjectBuilder2.SelectedMemberWithParameters)">
-            <summary>
-            Add dependency resolvers to the parameter set.
-            </summary>
-            <param name="typeToBuild">Type that's currently being built (used to resolve open generics).</param>
-            <param name="policies">PolicyList to add the resolvers to.</param>
-            <param name="parameterValues">Objects supplying the dependency resolvers.</param>
-            <param name="result">Result object to store the keys in.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy">
-            <summary>
-            A <see cref="T:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy"/> implementation that calls the specific
-            methods with the given parameters.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.AddMethodAndParameters(System.Reflection.MethodInfo,System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue})">
-            <summary>
-            Add the given method and parameter collection to the list of methods
-            that will be returned when the selector's <see cref="M:Microsoft.Practices.ObjectBuilder2.IMethodSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/>
-            method is called.
-            </summary>
-            <param name="method">Method to call.</param>
-            <param name="parameters">sequence of <see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> objects
-            that describe how to create the method parameter values.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedMethodsSelectorPolicy.SelectMethods(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Return the sequence of methods to call while building the target object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of methods to call.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ObjectBuilder2.IPropertySelectorPolicy"/> which returns
-            the set of specific properties that the selector was configured with.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.AddPropertyAndValue(System.Reflection.PropertyInfo,Microsoft.Practices.Unity.InjectionParameterValue)">
-            <summary>
-            Add a property that will be par of the set returned when the 
-            <see cref="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)"/> is called.
-            </summary>
-            <param name="property">The property to set.</param>
-            <param name="value"><see cref="T:Microsoft.Practices.Unity.InjectionParameterValue"/> object describing
-            how to create the value to inject.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ObjectBuilder.SpecifiedPropertiesSelectorPolicy.SelectProperties(Microsoft.Practices.ObjectBuilder2.IBuilderContext,Microsoft.Practices.ObjectBuilder2.IPolicyList)">
-            <summary>
-            Returns sequence of properties on the given type that
-            should be set as part of building that object.
-            </summary>
-            <param name="context">Current build context.</param>
-            <param name="resolverPolicyDestination">The <see cref="T:Microsoft.Practices.ObjectBuilder2.IPolicyList"/> to add any
-            generated resolver objects into.</param>
-            <returns>Sequence of <see cref="T:System.Reflection.PropertyInfo"/> objects
-            that contain the properties to set.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolutionFailedException">
-            <summary>
-            The exception thrown by the Unity container when
-            an attempt to resolve a dependency fails.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolutionFailedException.#ctor(System.Type,System.String,System.Exception,Microsoft.Practices.ObjectBuilder2.IBuilderContext)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolutionFailedException"/> that records
-            the exception for the given type and name.
-            </summary>
-            <param name="typeRequested">Type requested from the container.</param>
-            <param name="nameRequested">Name requested from the container.</param>
-            <param name="innerException">The actual exception that caused the failure of the build.</param>
-            <param name="context">The build context representing the failed operation.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.TypeRequested">
-            <summary>
-            The type that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.ResolutionFailedException.NameRequested">
-            <summary>
-            The name that was being requested from the container at the time of failure.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter">
-            <summary>
-            A class that stores a name and type, and generates a 
-            resolver object that resolves the parameter via the
-            container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves to the given type.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.#ctor(System.Type,System.String)">
-            <summary>
-            Construct a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> that
-            resolves the given type and name.
-            </summary>
-            <param name="parameterType">Type of this parameter.</param>
-            <param name="name">Name to use when resolving parameter.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter.GetResolverPolicy(System.Type)">
-            <summary>
-            Return a <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/> instance that will
-            return this types value for the parameter.
-            </summary>
-            <param name="typeToBuild">Type that contains the member that needs this parameter. Used
-            to resolve open generic parameters.</param>
-            <returns>The <see cref="T:Microsoft.Practices.ObjectBuilder2.IDependencyResolverPolicy"/>.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ResolvedParameter`1">
-            <summary>
-            A generic version of <see cref="T:Microsoft.Practices.Unity.ResolvedParameter"/> for convenience
-            when creating them by hand.
-            </summary>
-            <typeparam name="TParameter">Type of the parameter</typeparam>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and the default name.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.ResolvedParameter`1.#ctor(System.String)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.ResolvedParameter`1"/> for the given
-            generic type and name.
-            </summary>
-            <param name="name">Name to use to resolve this parameter.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityServiceLocator">
-            <summary>
-            An implementation of <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/> that wraps a Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.#ctor(Microsoft.Practices.Unity.IUnityContainer)">
-            <summary>
-            Initializes a new instance of the <see cref="T:Microsoft.Practices.Unity.UnityServiceLocator"/> class for a container.
-            </summary>
-            <param name="container">The <see cref="T:Microsoft.Practices.Unity.IUnityContainer"/> to wrap with the <see cref="T:Microsoft.Practices.ServiceLocation.IServiceLocator"/>
-            interface implementation.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.Dispose">
-            <summary>
-            Performs application-defined tasks associated with freeing, releasing, or resetting unmanaged resources.
-            </summary>
-            <filterpriority>2</filterpriority>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetInstance(System.Type,System.String)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of resolving
-                        the requested service instance.
-            </summary>
-            <param name="serviceType">Type of instance requested.</param><param name="key">Name of registered service you want. May be null.</param>
-            <returns>
-            The requested service instance.
-            </returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityServiceLocator.DoGetAllInstances(System.Type)">
-            <summary>
-            When implemented by inheriting classes, this method will do the actual work of
-                        resolving all the requested service instances.
-            </summary>
-            <param name="serviceType">Type of service requested.</param>
-            <returns>
-            Sequence of service instance objects.
-            </returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Guard">
-            <summary>
-            A static helper class that includes various parameter checking routines.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNull(System.Object,System.String)">
-            <summary>
-            Throws <see cref="T:System.ArgumentNullException"/> if the given argument is null.
-            </summary>
-            <exception cref="T:System.ArgumentNullException"> if tested value if null.</exception>
-            <param name="argumentValue">Argument value to test.</param>
-            <param name="argumentName">Name of the argument being tested.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.ArgumentNotNullOrEmpty(System.String,System.String)">
-            <summary>
-            Throws an exception if the tested string argument is null or the empty string.
-            </summary>
-            <exception cref="T:System.ArgumentNullException">Thrown if string value is null.</exception>
-            <exception cref="T:System.ArgumentException">Thrown if the string is empty</exception>
-            <param name="argumentValue">Argument value to check.</param>
-            <param name="argumentName">Name of argument being checked.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.TypeIsAssignable(System.Type,System.Type,System.String)">
-            <summary>
-            Verifies that an argument type is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentValueType">The type of the value being assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Guard.InstanceIsAssignable(System.Type,System.Object,System.String)">
-            <summary>
-            Verifies that an argument instance is assignable from the provided type (meaning
-            interfaces are implemented, or classes exist in the base class hierarchy, or instance can be 
-            assigned through a runtime wrapper, as is the case for COM Objects).
-            </summary>
-            <param name="assignmentTargetType">The argument type that will be assigned to.</param>
-            <param name="assignmentInstance">The instance that will be assigned.</param>
-            <param name="argumentName">Argument name.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.NamedTypesRegistry">
-            <summary>
-            A helper class to manage the names that get registered in the container  
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage">
-            <summary>
-            The build stages we use in the Unity container
-            strategy pipeline.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Setup">
-            <summary>
-            First stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.TypeMapping">
-            <summary>
-            Second stage. Type mapping occurs here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Lifetime">
-            <summary>
-            Third stage. lifetime managers are checked here,
-            and if they're available the rest of the pipeline is skipped.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PreCreation">
-            <summary>
-            Fourth stage. Reflection over constructors, properties, etc. is
-            performed here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Creation">
-            <summary>
-            Fifth stage. Instance creation happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.Initialization">
-            <summary>
-            Sixth stage. Property sets and method injection happens here.
-            </summary>
-        </member>
-        <member name="F:Microsoft.Practices.Unity.ObjectBuilder.UnityBuildStage.PostInitialization">
-            <summary>
-            Seventh and final stage. By default, nothing happens here.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Properties.Resources">
-            <summary>
-              A strongly-typed resource class, for looking up localized strings, etc.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResourceManager">
-            <summary>
-              Returns the cached ResourceManager instance used by this class.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.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:Microsoft.Practices.Unity.Properties.Resources.AmbiguousInjectionConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors of length {1}. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ArgumentMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.BuildFailedException">
-            <summary>
-              Looks up a localized string similar to The current build operation (build key {2}) failed: {3} (Strategy type {0}, index {1}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructAbstractClass">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an abstract class and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructDelegate">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is delegate and cannot be constructed. Unity only supports resolving Func&lt;T&gt; and Func&lt;IEnumerable&lt;T&gt;&gt; by default..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotConstructInterface">
-            <summary>
-              Looks up a localized string similar to The current type, {0}, is an interface and cannot be constructed. Are you missing a type mapping?.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotExtractTypeFromBuildKey">
-            <summary>
-              Looks up a localized string similar to Cannot extract type from build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is an open generic method. Open generic methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectIndexer">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is an indexer. Indexed properties cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParam">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} has an out parameter. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithOutParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one out parameter. Methods with out parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectMethodWithRefParams">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) has at least one ref parameter.Methods with ref parameters cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectOpenGenericMethod">
-            <summary>
-              Looks up a localized string similar to The method {1} on type {0} is marked for injection, but it is an open generic method. Injection cannot be performed..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotInjectStaticMethod">
-            <summary>
-              Looks up a localized string similar to The method {0}.{1}({2}) is static. Static methods cannot be injected..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.CannotResolveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is an open generic type. An open generic type cannot be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of constructor {1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ConstructorParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The parameter {0} could not be resolved when attempting to call constructor {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ExceptionNullParameterValue">
-            <summary>
-              Looks up a localized string similar to Parameter type inference does not work for null values. Indicate the parameter type explicitly using a properly configured instance of the InjectionParameter or InjectionParameter&lt;T&gt; classes..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingConstructorOperation">
-            <summary>
-              Looks up a localized string similar to Calling constructor {0}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.InvokingMethodOperation">
-            <summary>
-              Looks up a localized string similar to Calling method {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.KeyAlreadyPresent">
-            <summary>
-              Looks up a localized string similar to An item with the given key is already present in the dictionary..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.LifetimeManagerInUse">
-            <summary>
-              Looks up a localized string similar to The lifetime manager is already registered. Lifetime managers cannot be reused, please create a new one..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MarkerBuildPlanInvoked">
-            <summary>
-              Looks up a localized string similar to The override marker build plan policy has been invoked. This should never happen, looks like a bug in the container..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodArgumentResolveOperation">
-            <summary>
-              Looks up a localized string similar to Resolving parameter &quot;{0}&quot; of method {1}.{2}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MethodParameterResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for parameter &quot;{1}&quot; of method {0} could not be resolved. .
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MissingDependency">
-            <summary>
-              Looks up a localized string similar to Could not resolve dependency for build key {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MultipleInjectionConstructors">
-            <summary>
-              Looks up a localized string similar to The type {0} has multiple constructors marked with the InjectionConstructor attribute. Unable to disambiguate..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveOpenGenericType">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} must be an open generic type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.MustHaveSameNumberOfGenericArguments">
-            <summary>
-              Looks up a localized string similar to The supplied type {0} does not have the same number of generic arguments as the target type {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoConstructorFound">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have an accessible constructor..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoMatchingGenericArgument">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a generic argument named &quot;{1}&quot;.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoOperationExceptionReason">
-            <summary>
-              Looks up a localized string similar to while resolving.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchConstructor">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a constructor that takes the parameters ({1})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchMethod">
-            <summary>
-              Looks up a localized string similar to The type {0} does not have a public method named {1} that takes the parameters ({2})..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NoSuchProperty">
-            <summary>
-              Looks up a localized string similar to The type {0} does not contain an instance property named {1}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAGenericType">
-            <summary>
-              Looks up a localized string similar to The type {0} is not a generic type, and you are attempting to inject a generic parameter named &quot;{1}&quot;..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.NotAnArrayTypeWithRankOne">
-            <summary>
-              Looks up a localized string similar to The type {0} is not an array type with rank 1, and you are attempting to use a [DependencyArray] attribute on a parameter or property with this type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.OptionalDependenciesMustBeReferenceTypes">
-            <summary>
-              Looks up a localized string similar to Optional dependencies must be reference types. The type {0} is a value type..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyNotSettable">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is not settable..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyTypeMismatch">
-            <summary>
-              Looks up a localized string similar to The property {0} on type {1} is of type {2}, and cannot be injected with a value of type {3}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.PropertyValueResolutionFailed">
-            <summary>
-              Looks up a localized string similar to The value for the property &quot;{0}&quot; could not be resolved..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ProvidedStringArgMustNotBeEmpty">
-            <summary>
-              Looks up a localized string similar to The provided string argument must not be empty..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionFailed">
-             <summary>
-               Looks up a localized string similar to Resolution of the dependency failed, type = &quot;{0}&quot;, name = &quot;{1}&quot;.
-            Exception occurred while: {2}.
-            Exception is: {3} - {4}
-            -----------------------------------------------
-            At the time of the exception, the container was:
-            .
-             </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolutionWithMappingTraceDetail">
-            <summary>
-              Looks up a localized string similar to Resolving {0},{1} (mapped from {2}, {3}).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.ResolvingPropertyValueOperation">
-            <summary>
-              Looks up a localized string similar to Resolving value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SelectedConstructorHasRefParameters">
-            <summary>
-              Looks up a localized string similar to The constructor {1} selected for type {0} has ref or out parameters. Such parameters are not supported for constructor injection..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.SettingPropertyOperation">
-            <summary>
-              Looks up a localized string similar to Setting value for property {0}.{1}.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypeIsNotConstructable">
-            <summary>
-              Looks up a localized string similar to The type {0} cannot be constructed. You must configure the container to supply this value..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.TypesAreNotAssignable">
-            <summary>
-              Looks up a localized string similar to The type {1} cannot be assigned to variables of type {0}..
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Properties.Resources.UnknownType">
-            <summary>
-              Looks up a localized string similar to &lt;unknown&gt;.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer">
-            <summary>
-            A simple, extensible dependency injection container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor">
-            <summary>
-            Create a default <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.#ctor(Microsoft.Practices.Unity.UnityContainer)">
-            <summary>
-            Create a <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> with the given parent container.
-            </summary>
-            <param name="parent">The parent <see cref="T:Microsoft.Practices.Unity.UnityContainer"/>. The current object
-            will apply its own settings first, and then check the parent for additional ones.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterType(System.Type,System.Type,System.String,Microsoft.Practices.Unity.LifetimeManager,Microsoft.Practices.Unity.InjectionMember[])">
-            <summary>
-            RegisterType a type mapping with the container, where the created instances will use
-            the given <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/>.
-            </summary>
-            <param name="from"><see cref="T:System.Type"/> that will be requested.</param>
-            <param name="to"><see cref="T:System.Type"/> that will actually be returned.</param>
-            <param name="name">Name to use for registration, null if a default registration.</param>
-            <param name="lifetimeManager">The <see cref="T:Microsoft.Practices.Unity.LifetimeManager"/> that controls the lifetime
-            of the returned instance.</param>
-            <param name="injectionMembers">Injection configuration objects.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)">
-            <summary>
-            RegisterType an instance with the container.
-            </summary>
-            <remarks>
-            <para>
-            Instance registration is much like setting a type as a singleton, except that instead
-            of the container creating the instance the first time it is requested, the user
-            creates the instance ahead of type and adds that instance to the container.
-            </para>
-            </remarks>
-            <param name="t">Type of instance to register (may be an implemented interface instead of the full type).</param>
-            <param name="instance">Object to returned.</param>
-            <param name="name">Name for registration.</param>
-            <param name="lifetime">
-            <para>If true, the container will take over the lifetime of the instance,
-            calling Dispose on it (if it's <see cref="T:System.IDisposable"/>) when the container is Disposed.</para>
-            <para>
-             If false, container will not maintain a strong reference to <paramref name="instance"/>. User is responsible
-            for disposing instance, and for keeping the instance from being garbage collected.</para></param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Resolve(System.Type,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Get an instance of the requested type with the given name from the container.
-            </summary>
-            <param name="t"><see cref="T:System.Type"/> of object to get from the container.</param>
-            <param name="name">Name of the object to retrieve.</param>
-            <param name="resolverOverrides">Any overrides for the resolve call.</param>
-            <returns>The retrieved object.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ResolveAll(System.Type,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Return instances of all registered types requested.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful if you've registered multiple types with the same
-            <see cref="T:System.Type"/> but different names.
-            </para>
-            <para>
-            Be aware that this method does NOT return an instance for the default (unnamed) registration.
-            </para>
-            </remarks>
-            <param name="t">The type requested.</param>
-            <param name="resolverOverrides">Any overrides for the resolve calls.</param>
-            <returns>Set of objects of type <paramref name="t"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.BuildUp(System.Type,System.Object,System.String,Microsoft.Practices.Unity.ResolverOverride[])">
-            <summary>
-            Run an existing object through the container and perform injection on it.
-            </summary>
-            <remarks>
-            <para>
-            This method is useful when you don't control the construction of an
-            instance (ASP.NET pages or objects created via XAML, for instance)
-            but you still want properties and other injection performed.
-            </para></remarks>
-            <param name="t"><see cref="T:System.Type"/> of object to perform injection on.</param>
-            <param name="existing">Instance to build up.</param>
-            <param name="name">name to use when looking up the typemappings and other configurations.</param>
-            <param name="resolverOverrides">Any overrides for the buildup.</param>
-            <returns>The resulting object. By default, this will be <paramref name="existing"/>, but
-            container extensions may add things like automatic proxy creation which would
-            cause this to return a different object (but still type compatible with <paramref name="t"/>).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Teardown(System.Object)">
-            <summary>
-            Run an existing object through the container, and clean it up.
-            </summary>
-            <param name="o">The object to tear down.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.AddExtension(Microsoft.Practices.Unity.UnityContainerExtension)">
-            <summary>
-            Add an extension object to the container.
-            </summary>
-            <param name="extension"><see cref="T:Microsoft.Practices.Unity.UnityContainerExtension"/> to add.</param>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Configure(System.Type)">
-            <summary>
-            Get access to a configuration interface exposed by an extension.
-            </summary>
-            <remarks>Extensions can expose configuration interfaces as well as adding
-            strategies and policies to the container. This method walks the list of
-            added extensions and returns the first one that implements the requested type.
-            </remarks>
-            <param name="configurationInterface"><see cref="T:System.Type"/> of configuration interface required.</param>
-            <returns>The requested extension's configuration interface, or null if not found.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.RemoveAllExtensions">
-            <summary>
-            Remove all installed extensions from this container.
-            </summary>
-            <remarks>
-            <para>
-            This method removes all extensions from the container, including the default ones
-            that implement the out-of-the-box behavior. After this method, if you want to use
-            the container again you will need to either read the default extensions or replace
-            them with your own.
-            </para>
-            <para>
-            The registered instances and singletons that have already been set up in this container
-            do not get removed.
-            </para>
-            </remarks>
-            <returns>The <see cref="T:Microsoft.Practices.Unity.UnityContainer"/> object that this method was called on (this in C#, Me in Visual Basic).</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.CreateChildContainer">
-            <summary>
-            Create a child container.
-            </summary>
-            <remarks>
-            A child container shares the parent's configuration, but can be configured with different
-            settings or lifetime.</remarks>
-            <returns>The new child container.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            Disposing the container also disposes any child containers,
-            and disposes any instances whose lifetimes are managed
-            by the container.
-            </remarks>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.Dispose(System.Boolean)">
-            <summary>
-            Dispose this container instance.
-            </summary>
-            <remarks>
-            This class doesn't have a finalizer, so <paramref name="disposing"/> will always be true.</remarks>
-            <param name="disposing">True if being called from the IDisposable.Dispose
-            method, false if being called from a finalizer.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityContainer.ClearExistingBuildPlan(System.Type,System.String)">
-            <summary>
-            Remove policies associated with building this type. This removes the
-            compiled build plan so that it can be rebuilt with the new settings
-            the next time this type is resolved.
-            </summary>
-            <param name="typeToInject">Type of object to clear the plan for.</param>
-            <param name="name">Name the object is being registered with.</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Parent">
-            <summary>
-            The parent of this container.
-            </summary>
-            <value>The parent container, or null if this container doesn't have one.</value>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.UnityContainer.Registrations">
-            <summary>
-            Get a sequence of <see cref="T:Microsoft.Practices.Unity.ContainerRegistration"/> that describe the current state
-            of the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl">
-            <summary>
-            Implementation of the ExtensionContext that is actually used
-            by the UnityContainer implementation.
-            </summary>
-            <remarks>
-            This is a nested class so that it can access state in the
-            container that would otherwise be inaccessible.
-            </remarks>
-        </member>
-        <member name="E:Microsoft.Practices.Unity.UnityContainer.ExtensionContextImpl.RegisteringInstance">
-            <summary>
-            This event is raised when the <see cref="M:Microsoft.Practices.Unity.UnityContainer.RegisterInstance(System.Type,System.String,System.Object,Microsoft.Practices.Unity.LifetimeManager)"/> method,
-            or one of its overloads, is called.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension">
-            <summary>
-            This extension supplies the default behavior of the UnityContainer API
-            by handling the context events and setting policies.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension.Initialize">
-            <summary>
-            Install the default container behavior into the container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultBehaviorExtension.Remove">
-            <summary>
-            Remove the default behavior from the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.UnityDefaultStrategiesExtension">
-            <summary>
-            This extension installs the default strategies and policies into the container
-            to implement the standard behavior of the Unity container.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.UnityDefaultStrategiesExtension.Initialize">
-            <summary>
-            Add the default ObjectBuilder strategies &amp; policies to the container.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.MethodReflectionHelper">
-            <summary>
-            Helper class to wrap common reflection stuff dealing with
-            methods.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.#ctor(System.Reflection.MethodBase)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.MethodReflectionHelper"/> instance that
-            lets us do more reflection stuff on that method.
-            </summary>
-            <param name="method">The method to reflect on.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.GetClosedParameterTypes(System.Type[])">
-            <summary>
-            Given our set of generic type arguments, 
-            </summary>
-            <param name="genericTypeArguments">The generic type arguments.</param>
-            <returns>An array with closed parameter types. </returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.MethodHasOpenGenericParameters">
-            <summary>
-            Returns true if any of the parameters of this method
-            are open generics.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.MethodReflectionHelper.ParameterTypes">
-            <summary>
-            Return the <see cref="T:System.Type"/> of each parameter for this
-            method.
-            </summary>
-            <returns>Sequence of <see cref="T:System.Type"/> objects, one for
-            each parameter in order.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Pair`2">
-            <summary>
-            A helper class that encapsulates two different
-            data items together into a a single item.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Pair`2.#ctor(`0,`1)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.Pair`2"/> containing
-            the two values give.
-            </summary>
-            <param name="first">First value</param>
-            <param name="second">Second value</param>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.Pair`2.First">
-            <summary>
-            The first value of the pair.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.Pair`2.Second">
-            <summary>
-            The second value of the pair.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.Pair">
-            <summary>
-            Container for a Pair helper method.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.Pair.Make``2(``0,``1)">
-            <summary>
-            A helper factory method that lets users take advantage of type inference.
-            </summary>
-            <typeparam name="TFirstParameter">Type of first value.</typeparam>
-            <typeparam name="TSecondParameter">Type of second value.</typeparam>
-            <param name="first">First value.</param>
-            <param name="second">Second value.</param>
-            <returns>A new <see cref="T:Microsoft.Practices.Unity.Utility.Pair`2"/> instance.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.ParameterMatcher">
-            <summary>
-            A utility class that handles the logic of matching parameter
-            lists, so we can find the right constructor and method overloads.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterMatcher.#ctor(System.Collections.Generic.IEnumerable{Microsoft.Practices.Unity.InjectionParameterValue})">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.ParameterMatcher"/> that will attempt to
-            match the given parameter types.
-            </summary>
-            <param name="parametersToMatch">Target parameters to match against.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterMatcher.Matches(System.Collections.Generic.IEnumerable{System.Type})">
-            <summary>
-            Tests to see if the given set of types matches the ones
-            we're looking for.
-            </summary>
-            <param name="candidate">parameter list to look for.</param>
-            <returns>true if they match, false if they don't.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterMatcher.Matches(System.Collections.Generic.IEnumerable{System.Reflection.ParameterInfo})">
-            <summary>
-            Tests to see if the given set of types matches the ones we're looking for.
-            </summary>
-            <param name="candidate">Candidate method signature to look for.</param>
-            <returns>True if they match, false if they don't.</returns>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.ParameterReflectionHelper">
-            <summary>
-            Another reflection helper class that has extra methods
-            for dealing with ParameterInfo.
-            </summary>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.ReflectionHelper">
-            <summary>
-            A small helper class to encapsulate details of the
-            reflection API, particularly around generics.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.#ctor(System.Type)">
-            <summary>
-            Create a new <see cref="T:Microsoft.Practices.Unity.Utility.ReflectionHelper"/> instance that
-            lets you look at information about the given type.
-            </summary>
-            <param name="typeToReflect">Type to do reflection on.</param>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.MethodHasOpenGenericParameters(System.Reflection.MethodBase)">
-            <summary>
-            Test the given <see cref="T:System.Reflection.MethodBase"/> object, looking at
-            the parameters. Determine if any of the parameters are
-            open generic types that need type attributes filled in.
-            </summary>
-            <param name="method">The method to check.</param>
-            <returns>True if any of the parameters are open generics. False if not.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.GetClosedParameterType(System.Type[])">
-            <summary>
-            If this type is an open generic, use the
-            given <paramref name="genericArguments"/> array to
-            determine what the required closed type is and return that.
-            </summary>
-            <remarks>If the parameter is not an open type, just
-            return this parameter's type.</remarks>
-            <param name="genericArguments">Type arguments to substitute in for
-            the open type parameters.</param>
-            <returns>Corresponding closed type of this parameter.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ReflectionHelper.GetNamedGenericParameter(System.String)">
-            <summary>
-            Given a generic argument name, return the corresponding type for this
-            closed type. For example, if the current type is SomeType&lt;User&gt;, and the
-            corresponding definition was SomeType&lt;TSomething&gt;, calling this method
-            and passing "TSomething" will return typeof(User).
-            </summary>
-            <param name="parameterName">Name of the generic parameter.</param>
-            <returns>Type of the corresponding generic parameter, or null if there
-            is no matching name.</returns>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type">
-            <summary>
-            The <see cref="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type"/> object we're reflecting over.
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsGenericType">
-            <summary>
-            Is this type generic?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsOpenGeneric">
-            <summary>
-            Is this type an open generic (no type parameter specified)
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsArray">
-            <summary>
-            Is this type an array type?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.IsGenericArray">
-            <summary>
-            Is this type an array of generic elements?
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.ArrayElementType">
-            <summary>
-            The type of the elements in this type (if it's an array).
-            </summary>
-        </member>
-        <member name="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.InstanceConstructors">
-            <summary>
-            Returns all the public constructors defined for the current reflected <see cref="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type"/>.
-            </summary>
-            <value>
-            An enumeration of <see cref="T:System.Reflection.ConstructorInfo"/> ConstructorInfo objects representing all the public instance constructors defined for the 
-            current reflected <see cref="P:Microsoft.Practices.Unity.Utility.ReflectionHelper.Type"/>, but not including the type initializer (static constructor).
-            </value>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.ParameterReflectionHelper.#ctor(System.Reflection.ParameterInfo)">
-            <summary>
-            Create a new instance of <see cref="T:Microsoft.Practices.Unity.Utility.ParameterReflectionHelper"/> that
-            lets you query information about the given ParameterInfo object.
-            </summary>
-            <param name="parameter">Parameter to query.</param>
-        </member>
-        <member name="T:Microsoft.Practices.Unity.Utility.StaticReflection">
-            <summary>
-            A set of helper methods to pick through lambdas and pull out
-            <see cref="T:System.Reflection.MethodInfo"/> from them.
-            </summary>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetMethodInfo(System.Linq.Expressions.Expression{System.Action})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object from an expression of the form
-            () =&gt; SomeClass.SomeMethod()
-            </summary>
-            <param name="expression">Expression describing the method to call.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetMethodInfo``1(System.Linq.Expressions.Expression{System.Action{``0}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object from an expression of the form
-            x =&gt; x.SomeMethod()
-            </summary>
-            <typeparam name="T">The type where the method is defined.</typeparam>
-            <param name="expression">Expression describing the method to call.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetPropertyGetMethodInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object for the get method from an expression of the form
-            x =&gt; x.SomeProperty
-            </summary>
-            <typeparam name="T">The type where the method is defined.</typeparam>
-            <typeparam name="TProperty">The type for the property.</typeparam>
-            <param name="expression">Expression describing the property for which the get method is to be extracted.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetPropertySetMethodInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.MethodInfo"/> object for the set method from an expression of the form
-            x =&gt; x.SomeProperty
-            </summary>
-            <typeparam name="T">The type where the method is defined.</typeparam>
-            <typeparam name="TProperty">The type for the property.</typeparam>
-            <param name="expression">Expression describing the property for which the set method is to be extracted.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.MethodInfo"/>.</returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetMemberInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
-            <summary>
-            
-            </summary>
-            <typeparam name="T"></typeparam>
-            <typeparam name="TProperty"></typeparam>
-            <param name="expression"></param>
-            <returns></returns>
-        </member>
-        <member name="M:Microsoft.Practices.Unity.Utility.StaticReflection.GetConstructorInfo``1(System.Linq.Expressions.Expression{System.Func{``0}})">
-            <summary>
-            Pull out a <see cref="T:System.Reflection.ConstructorInfo"/> object from an expression of the form () =&gt; new SomeType()
-            </summary>
-            <typeparam name="T">The type where the constructor is defined.</typeparam>
-            <param name="expression">Expression invoking the desired constructor.</param>
-            <returns>Corresponding <see cref="T:System.Reflection.ConstructorInfo"/>.</returns>
-        </member>
-    </members>
-</doc>
diff --git a/src/packages/repositories.config b/src/packages/repositories.config
deleted file mode 100644
index 65debdf..0000000
--- a/src/packages/repositories.config
+++ /dev/null
@@ -1,6 +0,0 @@
-<?xml version="1.0" encoding="utf-8"?>
-<repositories>
-  <repository path="..\AutoMoq\packages.config" />
-  <repository path="..\AutoMoq.Tests\packages.config" />
-  <repository path="..\AutoMoq.TestFixture.Samples\packages.config" />
-</repositories>
\ No newline at end of file