Visual Studio Integration (MSBuild)

Visual Studio hosts MSBuild to load and build managed projects. Because MSBuild is responsible for the project, almost any project in the MSBuild format can be successfully used in Visual Studio, even if the project was authored by a different tool and has a customized build process.

This topic describes specific aspects of Visual Studio's MSBuild hosting that should be considered when customizing projects and .targets files that you wish to load and build in Visual Studio. These will help you make sure Visual Studio features like IntelliSense and debugging work for your custom project.

MSBuild.exe recognizes any project file name extension matching the pattern .*proj. However, Visual Studio only recognizes a subset of these project file name extensions, which determine the language-specific project system that will load the project. Visual Studio does not have a language-neutral MSBuild based project system.

For example, the Visual C# project system loads .csproj files, but Visual Studio is not able to load a .xxproj file. A project file for source files in an arbitrary language must use the same extension as Visual Basic or Visual C# project files to be loaded in Visual Studio.

Clicking the Build command in Visual Studio will execute the default target in the project. Often, this target is also named Build. Choosing the Rebuild or Clean command will attempt to execute a target of the same name in the project. Clicking Publish will execute a target named PublishOnly in the project.

Configurations are represented in MSBuild projects by properties grouped in a PropertyGroup element that contains a Condition attribute. Visual Studio looks at these conditions in order to create a list of project configurations and platforms to display. To successfully extract this list, the conditions must have a format similar to the following:

Condition=" '$(Configuration)|$(Platform)' == 'Debug|AnyCPU' "
Condition=" '$(Configuration)' == 'Release' " 
Condition=" '$(Something)|$(Configuration)|$(SomethingElse)' == 'xxx|Debug|yyy' "

Visual Studio looks at the conditions on PropertyGroup, ItemGroup, Import, property, and item elements for this purpose.

Visual Studio allows you to change the item type name of a file in a project with the Build Action property of the File Properties window. Compile, EmbeddedResource, Content, and None item type names are always listed in this menu, along with any other item type names already in your project. To ensure any custom item type names are always available in this menu, you can add the names to an item type named AvailableItemName. For example, adding the following to your project file will add the custom type JScript to this menu for all projects that import it:

<ItemGroup>
    <AvailableItemName Include="JScript"/>
</ItemGroup>
NoteNote

Some item type names are special to Visual Studio but not listed in this dropdown.

When possible, Visual Studio will attempt to use the in-process version of the Visual Basic compiler for increased performance. (Not applicable to Visual C#.) For this to work correctly, the following conditions must be met:

  • In a target of the project, there must be a task named Vbc for Visual Basic projects.

  • The UseHostCompilerIfAvailable parameter of the task must be set to true.

To get IntelliSense support in Visual Studio before a build has generated an output assembly, the following conditions must be met:

  • There must be a target named Compile.

  • Either the Compile target or one of its dependencies must call the compiler task for the project, such as Csc or Vbc.

  • Either the Compile target or one of its dependencies must cause the compiler to receive all the necessary parameters for IntelliSense, particularly all references.

  • The conditions listed in the "In-Process Compilers" section must be met.

Within Visual Studio, the solution file and project build ordering are controlled by Visual Studio itself. When building a solution with msbuild.exe on the command line, MSBuild parses the solution file and orders the project builds. In both cases the projects are built individually in dependency order, and project to project references are not traversed. In contrast, when individual projects are built with msbuild.exe, project to project references are traversed.

When building inside Visual Studio, the property $(BuildingInsideVisualStudio) is set to true. This can be used in your project or .targets files to cause the build to behave differently.

Visual Studio recognizes certain property names and values. For example, the following property in a project will cause Windows Application to appear in the Application Type box in the Project Designer.

<OutputType>WinExe</OutputType>

The property value can be edited in the Project Designer and saved in the project file. If such a property is given an invalid value by hand-editing, Visual Studio will show a warning when the project is loaded and replace the invalid value with a default value.

Visual Studio understands defaults for some properties. These properties will not be persisted into the project file unless they have non-default values.

Properties with arbitrary names are not displayed in Visual Studio. To modify arbitrary properties in Visual Studio, you must open the project file in the XML editor and edit them by hand. For more information, see the Editing Project Files in Visual Studio section later in this topic.

Items defined in the project with arbitrary item type names are by default displayed in the Solution Explorer under their project node. To hide an item from display, set the Visible metadata to false. For example, the following item will participate in the build process but not be displayed in Solution Explorer.

<ItemGroup>
    <IntermediateFile Include="cache.temp">
        <Visible>false</Visible>
    </IntermediateFile>
</ItemGroup>

Items declared in files imported into the project are not displayed by default. Items created during the build process are never displayed in Solution Explorer.

During a build, all conditions are fully respected.

When determining property values to display, properties that Visual Studio considers configuration dependent are evaluated differently than properties it considers configuration independent. For properties it considers configuration dependent, Visual Studio sets the Configuration and Platform properties appropriately and instructs MSBuild to re-evaluate the project. For properties it considers configuration independent, it is indeterminate how conditions will be evaluated.

Conditional expressions on items are always ignored for the purposes of deciding whether the item should be displayed in Solution Explorer.

In order to find and launch the output assembly and attach the debugger, Visual Studio needs the properties OutputPath, AssemblyName, and OutputType correctly defined. The debugger will fail to attach if the build process did not cause the compiler to generate a .pdb file.

Visual Studio attempts to execute targets with certain names when it loads a project. These targets include Compile, ResolveAssemblyReferences, ResolveCOMReferences, GetFrameworkPaths, and CopyRunEnvironmentFiles. Visual Studio runs these targets so that the compiler can be initialized to provide IntelliSense, the debugger can be initialized, and references displayed in Solution Explorer can be resolved. If these targets are not present, the project will load and build correctly but the design-time experience in Visual Studio will not be fully functional.

To edit an MSBuild project directly, you can open the project file in the Visual Studio XML editor.

To unload and edit a project file in Visual Studio

  1. In Solution Explorer, open the shortcut menu for the project, and then choose Unload Project.

    The project is marked (unavailable).

  2. In Solution Explorer, open the shortcut menu for the unavailable project, and then choose Edit <Project File>.

    The project file opens in the Visual Studio XML Editor.

  3. Edit, save, and then close the project file.

  4. In Solution Explorer, open the shortcut menu for the unavailable project, and then choose Reload Project.

When using the XML editor to edit project files, IntelliSense and validation is driven by the MSBuild schema files. These are installed by Visual Studio in the schema cache, which can be found in the [Visual Studio installation location]\Xml\Schemas folder.

The core MSBuild types are defined in Microsoft.Build.Core.xsd and common types used by Visual Studio are defined in Microsoft.Build.CommonTypes.xsd. To customize the schemas so that you have IntelliSense and validation for custom item type names, properties, and tasks, you can either edit Microsoft.Build.xsd, or create your own schema that includes the CommonTypes or Core schemas. If you create your own schema you will have to direct the XML editor to find it using the Properties window.

Visual Studio caches the content of project files and files imported by project files. If you edit a loaded project file, Visual Studio will automatically prompt you to reload the project so that the changes take effect. However if you edit a file imported by a loaded project, there will be no reload prompt and you must unload and reload the project manually to make the changes take effect.

Several targets defined in Microsoft.Common.targets have names ending in OutputGroups or OutputGroupDependencies. Visual Studio calls these targets to get specific lists of project outputs. For example, the SatelliteDllsProjectOutputGroup target creates a list of all the satellite assemblies a build will create. These output groups are used by features like publishing, deployment, and project to project references. Projects that do not define them will load and build in Visual Studio, but some features may not work correctly.

Reference resolution is the process of using the reference items stored in a project file to locate actual assemblies. Visual Studio must trigger reference resolution in order to show detailed properties for each reference in the Properties window. The following list describes the three types of references and how they are resolved.

  • Assembly references:

    The project system calls a target with the well-known name ResolveAssemblyReferences. This target should produce items with the item type name ReferencePath. Each of these items should have an item specification (the value of the Include attribute of an item) containing the full path to the reference. The items should have all the metadata from the input items passed through in addition to the following new metadata:

    • CopyLocal, indicating whether the assembly should be copied into the output folder, set to true or false.

    • OriginalItemSpec, containing the original item specification of the reference.

    • ResolvedFrom, set to "{TargetFrameworkDirectory}" if it was resolved from the .NET Framework directory.

  • COM references:

    The project system calls a target with the well-known name ResolveCOMReferences. This target should produce items with the item type name ComReferenceWrappers. Each of these items should have an item specification containing the full path to the interop assembly for the COM reference. The items should have all the metadata from the input items passed through, in addition to new metadata with the name CopyLocal, indicating whether the assembly should be copied into the output folder, set to true or false

  • Native references

    The project system calls a target with the well-known name ResolveNativeReferences. This target should produce items with the item type name NativeReferenceFile. The items should have all the metadata from the input items passed through, in addition to a new piece of metadata named OriginalItemSpec, containing the original item specification of the reference.

If you start debugging in the Visual Studio UI (either by choosing the F5 key or by choosing Debug, Start Debugging on the menu bar), the build process uses a fast update check to improve performance. In some cases where customized builds create files that get built in turn, the fast update check does not correctly identify the changed files. Projects that need more thorough update checks can turn off the fast checking by setting the environment variable DISABLEFASTUPTODATECHECK=1. Alternatively, projects can set this as an MSBuild property in the project or in a file the project imports.

For regular builds in Visual Studio, the fast update check doesn't apply, and the project will build as if you invoked the build at a command prompt.

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