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Using Dependencies Guide
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************************
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.. only:: html
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.. contents::
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Introduction
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============
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Projects will frequently depend on other projects, assets, and artifacts.
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CMake provides a number of ways to incorporate such things into the build.
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Projects and users have the flexibility to choose between methods that
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best suit their needs.
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The primary methods of bringing dependencies into the build are the
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:command:`find_package` command and the :module:`FetchContent` module.
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The :module:`FindPkgConfig` module is also sometimes used, although it
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lacks some of the integration of the other two and is not discussed any
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further in this guide.
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Dependencies can also be made available by a custom
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:ref:`dependency provider <dependency_providers>`.
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This might be a third party package manager, or it might be custom code
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implemented by the developer. Dependency providers co-operate with the
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primary methods mentioned above to extend their flexibility.
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.. _prebuilt_find_package:
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Using Pre-built Packages With ``find_package()``
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================================================
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A package needed by the project may already be built and available at some
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location on the user's system. That package might have also been built by
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CMake, or it could have used a different build system entirely. It might
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even just be a collection of files that didn't need to be built at all.
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CMake provides the :command:`find_package` command for these scenarios.
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It searches well-known locations, along with additional hints and paths
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provided by the project or user. It also supports package components and
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packages being optional. Result variables are provided to allow the project
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to customize its own behavior according to whether the package or specific
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components were found.
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In most cases, projects should generally use the :ref:`basic signature`.
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Most of the time, this will involve just the package name, maybe a version
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constraint, and the ``REQUIRED`` keyword if the dependency is not optional.
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A set of package components may also be specified.
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.. code-block:: cmake
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:caption: Examples of ``find_package()`` basic signature
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find_package(Catch2)
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find_package(GTest REQUIRED)
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find_package(Boost 1.79 COMPONENTS date_time)
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The :command:`find_package` command supports two main methods for carrying
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out the search:
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**Config mode**
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With this method, the command looks for files that are typically provided
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by the package itself. This is the more reliable method of the two, since
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the package details should always be in sync with the package.
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**Module mode**
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Not all packages are CMake-aware. Many don't provide the files needed to
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support config mode. For such cases, a Find module file can be provided
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separately, either by the project or by CMake. A Find module is typically
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a heuristic implementation which knows what the package normally provides
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and how to present that package to the project. Since Find modules are
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usually distributed separately from the package, they are not as reliable.
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They are typically maintained separately, and they are likely to follow
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different release schedules, so they can easily become out-of-date.
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Depending on the arguments used, :command:`find_package` may use one or both
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of the above methods. By restricting the options to just the basic signature,
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both config mode and module mode can be used to satisfy the dependency.
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The presence of other options may restrict the call to using only one of the
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two methods, potentially reducing the command's ability to find the dependency.
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See the :command:`find_package` documentation for full details about this
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complex topic.
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For both search methods, the user can also set cache variables on the
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:manual:`cmake(1)` command line or in the :manual:`ccmake(1)` or
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:manual:`cmake-gui(1)` UI tools to influence and override where to find
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packages. See the :ref:`User Interaction Guide <Setting Build Variables>`
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for more on how to set cache variables.
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.. _Libraries providing Config-file packages:
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Config-file packages
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--------------------
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The preferred way for a third party to provide executables, libraries,
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headers, and other files for use with CMake is to provide
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:ref:`config files <Config File Packages>`. These are text files shipped
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with the package, which define CMake targets, variables, commands, and so on.
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The config file is an ordinary CMake script, which is read in by the
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:command:`find_package` command.
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The config files can usually be found in a directory whose name matches the
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pattern ``lib/cmake/<PackageName>``, although they may be in other locations
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instead (see :ref:`search procedure`). The ``<PackageName>`` is usually the
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first argument to the :command:`find_package` command, and it may even be the
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only argument. Alternative names can also be specified with the ``NAMES``
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option:
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.. code-block:: cmake
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:caption: Providing alternative names when finding a package
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find_package(SomeThing
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NAMES
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SameThingOtherName # Another name for the package
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SomeThing # Also still look for its canonical name
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)
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The config file must be named either ``<PackageName>Config.cmake`` or
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``<LowercasePackageName>-config.cmake`` (the former is used for the remainder
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of this guide, but both are supported). This file is the entry point
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to the package for CMake. A separate optional file named
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``<PackageName>ConfigVersion.cmake`` or
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``<LowercasePackageName>-config-version.cmake`` may also exist in the same
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directory. This file is used by CMake to determine whether the version of
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the package satisfies any version constraint included in the call to
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:command:`find_package`. It is optional to specify a version when calling
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:command:`find_package`, even if a ``<PackageName>ConfigVersion.cmake``
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file is present.
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If the ``<PackageName>Config.cmake`` file is found and any version constraint
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is satisfied, the :command:`find_package` command considers the package to be
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found, and the entire package is assumed to be complete as designed.
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There may be additional files providing CMake commands or
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:ref:`imported targets` for you to use. CMake does not enforce any naming
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convention for these files. They are related to the primary
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``<PackageName>Config.cmake`` file by use of the CMake :command:`include`
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command. The ``<PackageName>Config.cmake`` file would typically include
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these for you, so they won't usually require any additional step other than
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the call to :command:`find_package`.
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If the location of the package is in a
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:ref:`directory known to CMake <search procedure>`, the
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:command:`find_package` call should succeed. The directories known to CMake
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are platform-specific. For example, packages installed on Linux with a
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standard system package manager will be found in the ``/usr`` prefix
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automatically. Packages installed in ``Program Files`` on Windows will
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similarly be found automatically.
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Packages will not be found automatically without help if they are in
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locations not known to CMake, such as ``/opt/mylib`` or ``$HOME/dev/prefix``.
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This is a normal situation, and CMake provides several ways for users to
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specify where to find such libraries.
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The :variable:`CMAKE_PREFIX_PATH` variable may be
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:ref:`set when invoking CMake <Setting Build Variables>`.
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It is treated as a list of base paths in which to search for
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:ref:`config files <Config File Packages>`. A package installed in
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``/opt/somepackage`` will typically install config files such as
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``/opt/somepackage/lib/cmake/somePackage/SomePackageConfig.cmake``.
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In that case, ``/opt/somepackage`` should be added to
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:variable:`CMAKE_PREFIX_PATH`.
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The environment variable ``CMAKE_PREFIX_PATH`` may also be populated with
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prefixes to search for packages. Like the ``PATH`` environment variable,
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this is a list, but it needs to use the platform-specific environment variable
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list item separator (``:`` on Unix and ``;`` on Windows).
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The :variable:`CMAKE_PREFIX_PATH` variable provides convenience in cases
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where multiple prefixes need to be specified, or when multiple packages
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are available under the same prefix. Paths to packages may also be
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specified by setting variables matching ``<PackageName>_DIR``, such as
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``SomePackage_DIR``. Note that this is not a prefix, but should be a full
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path to a directory containing a config-style package file, such as
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``/opt/somepackage/lib/cmake/SomePackage`` in the above example.
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See the :command:`find_package` documentation for other CMake variables and
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environment variables that can affect the search.
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.. _Libraries not Providing Config-file Packages:
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Find Module Files
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-----------------
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Packages which do not provide config files can still be found with the
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:command:`find_package` command, if a ``FindSomePackage.cmake`` file is
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available. These Find module files are different to config files in that:
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#. Find module files should not be provided by the package itself.
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#. The availability of a ``Find<PackageName>.cmake`` file does not indicate
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the availability of the package, or any particular part of the package.
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#. CMake does not search the locations specified in the
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:variable:`CMAKE_PREFIX_PATH` variable for ``Find<PackageName>.cmake``
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files. Instead, CMake searches for such files in the locations given
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by the :variable:`CMAKE_MODULE_PATH` variable. It is common for users to
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set the :variable:`CMAKE_MODULE_PATH` when running CMake, and it is common
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for CMake projects to append to :variable:`CMAKE_MODULE_PATH` to allow use
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of local Find module files.
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#. CMake ships ``Find<PackageName>.cmake`` files for some
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:manual:`third party packages <cmake-modules(7)>`. These files are a
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maintenance burden for CMake, and it is not unusual for these to fall
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behind the latest releases of the packages they are associated with.
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In general, new Find modules are not added to CMake any more. Projects
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should encourage the upstream packages to provide a config file where
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possible. If that is unsuccessful, the project should provide its own
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Find module for the package.
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See :ref:`Find Modules` for a detailed discussion of how to write a
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Find module file.
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.. _Imported Targets from Packages:
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Imported Targets
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----------------
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Both config files and Find module files can define :ref:`Imported targets`.
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These will typically have names of the form ``SomePrefix::ThingName``.
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Where these are available, the project should prefer to use them instead of
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any CMake variables that may also be provided. Such targets typically carry
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usage requirements and apply things like header search paths, compiler
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definitions, etc. automatically to other targets that link to them (e.g. using
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:command:`target_link_libraries`). This is both more robust and more
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convenient than trying to apply the same things manually using variables.
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Check the documentation for the package or Find module to see what imported
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targets it defines, if any.
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Imported targets should also encapsulate any configuration-specific paths.
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This includes the location of binaries (libraries, executables), compiler
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flags, and any other configuration-dependent quantities. Find modules may
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be less reliable in providing these details than config files.
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A complete example which finds a third party package and uses a library
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from it might look like the following:
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.. code-block:: cmake
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cmake_minimum_required(VERSION 3.10)
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project(MyExeProject VERSION 1.0.0)
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# Make project-provided Find modules available
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list(APPEND CMAKE_MODULE_PATH "${CMAKE_CURRENT_SOURCE_DIR}/cmake")
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find_package(SomePackage REQUIRED)
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add_executable(MyExe main.cpp)
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target_link_libraries(MyExe PRIVATE SomePrefix::LibName)
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Note that the above call to :command:`find_package` could be resolved by
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a config file or a Find module. It uses only the basic arguments supported
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by the :ref:`basic signature`. A ``FindSomePackage.cmake`` file in the
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``${CMAKE_CURRENT_SOURCE_DIR}/cmake`` directory would allow the
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:command:`find_package` command to succeed using module mode, for example.
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If no such module file is present, the system would be searched for a config
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file.
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Downloading And Building From Source With ``FetchContent``
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==========================================================
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Dependencies do not necessarily have to be pre-built in order to use them
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with CMake. They can be built from sources as part of the main project.
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The :module:`FetchContent` module provides functionality to download
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content (typically sources, but can be anything) and add it to the main
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project if the dependency also uses CMake. The dependency's sources will
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be built along with the rest of the project, just as though the sources were
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part of the project's own sources.
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The general pattern is that the project should first declare all the
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dependencies it wants to use, then ask for them to be made available.
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The following demonstrates the principle (see :ref:`fetch-content-examples`
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for more):
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.. code-block:: cmake
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include(FetchContent)
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FetchContent_Declare(
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googletest
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GIT_REPOSITORY https://github.com/google/googletest.git
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GIT_TAG 703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
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)
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FetchContent_Declare(
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Catch2
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GIT_REPOSITORY https://github.com/catchorg/Catch2.git
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GIT_TAG de6fe184a9ac1a06895cdd1c9b437f0a0bdf14ad # v2.13.4
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)
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FetchContent_MakeAvailable(googletest Catch2)
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Various download methods are supported, including downloading and extracting
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archives from a URL (a range of archive formats are supported), and a number
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of repository formats including Git, Subversion, and Mercurial.
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Custom download, update, and patch commands can also be used to support
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arbitrary use cases.
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When a dependency is added to the project with :module:`FetchContent`, the
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project links to the dependency's targets just like any other target from the
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project. If the dependency provides namespaced targets of the form
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``SomePrefix::ThingName``, the project should link to those rather than to
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any non-namespaced targets. See the next section for why this is recommended.
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Not all dependencies can be brought into the project this way. Some
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dependencies define targets whose names clash with other targets from the
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project or other dependencies. Concrete executable and library targets
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created by :command:`add_executable` and :command:`add_library` are global,
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so each one must be unique across the whole build. If a dependency would
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add a clashing target name, it cannot be brought directly into the build
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with this method.
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``FetchContent`` And ``find_package()`` Integration
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===================================================
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.. versionadded:: 3.24
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Some dependencies support being added by either :command:`find_package` or
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:module:`FetchContent`. Such dependencies must ensure they define the same
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namespaced targets in both installed and built-from-source scenarios.
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A consuming project then links to those namespaced targets and can handle
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both scenarios transparently, as long as the project does not use anything
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else that isn't provided by both methods.
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The project can indicate it is happy to accept a dependency by either method
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using the ``FIND_PACKAGE_ARGS`` option to :command:`FetchContent_Declare`.
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This allows :command:`FetchContent_MakeAvailable` to try satisfying the
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dependency with a call to :command:`find_package` first, using the arguments
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after the ``FIND_PACKAGE_ARGS`` keyword, if any. If that doesn't find the
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dependency, it is built from source as described previously instead.
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.. code-block:: cmake
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include(FetchContent)
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FetchContent_Declare(
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googletest
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GIT_REPOSITORY https://github.com/google/googletest.git
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GIT_TAG 703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
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FIND_PACKAGE_ARGS NAMES GTest
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)
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FetchContent_MakeAvailable(googletest)
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add_executable(ThingUnitTest thing_ut.cpp)
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target_link_libraries(ThingUnitTest GTest::gtest_main)
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The above example calls
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:command:`find_package(googletest NAMES GTest) <find_package>` first.
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CMake provides a :module:`FindGTest` module, so if that finds a GTest package
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installed somewhere, it will make it available, and the dependency will not be
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built from source. If no GTest package is found, it *will* be built from
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source. In either case, the ``GTest::gtest_main`` target is expected to be
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defined, so we link our unit test executable to that target.
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High-level control is also available through the
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:variable:`FETCHCONTENT_TRY_FIND_PACKAGE_MODE` variable. This can be set to
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``NEVER`` to disable all redirection to :command:`find_package`. It can be
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set to ``ALWAYS`` to try :command:`find_package` even if ``FIND_PACKAGE_ARGS``
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was not specified (this should be used with caution).
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The project might also decide that a particular dependency must be built from
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source. This might be needed if a patched or unreleased version of the
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dependency is required, or to satisfy some policy that requires all
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dependencies to be built from source. The project can enforce this by adding
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the ``OVERRIDE_FIND_PACKAGE`` keyword to :command:`FetchContent_Declare`.
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A call to :command:`find_package` for that dependency will then be redirected
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to :command:`FetchContent_MakeAvailable` instead.
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.. code-block:: cmake
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include(FetchContent)
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FetchContent_Declare(
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Catch2
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URL https://intranet.mycomp.com/vendored/Catch2_2.13.4_patched.tgz
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URL_HASH MD5=abc123...
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OVERRIDE_FIND_PACKAGE
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)
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# The following is automatically redirected to FetchContent_MakeAvailable(Catch2)
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find_package(Catch2)
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For more advanced use cases, see the
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:variable:`CMAKE_FIND_PACKAGE_REDIRECTS_DIR` variable.
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.. _dependency_providers_overview:
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Dependency Providers
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====================
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.. versionadded:: 3.24
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The preceding section discussed techniques that projects can use to specify
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their dependencies. Ideally, the project shouldn't really care where a
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dependency comes from, as long as it provides the things it expects (often
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|
just some imported targets). The project says what it needs and may also
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specify where to get it from, in the absence of any other details, so that it
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can still be built out-of-the-box.
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The developer, on the other hand, may be much more interested in controlling
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*how* a dependency is provided to the project. You might want to use a
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|
particular version of a package that you built yourself. You might want
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|
to use a third party package manager. You might want to redirect some
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|
requests to a different URL on a system you control for security or
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performance reasons. CMake supports these sort of scenarios through
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:ref:`dependency_providers`.
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A dependency provider can be set to intercept :command:`find_package` and
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|
:command:`FetchContent_MakeAvailable` calls. The provider is given an
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|
opportunity to satisfy such requests before falling back to the built-in
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|
implementation if the provider doesn't fulfill it.
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Only one dependency provider can be set, and it can only be set at a very
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|
specific point early in the CMake run.
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|
The :variable:`CMAKE_PROJECT_TOP_LEVEL_INCLUDES` variable lists CMake files
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|
that will be read while processing the first :command:`project()` call (and
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|
only that call). This is the only time a dependency provider may be set.
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|
At most, one single provider is expected to be used throughout the whole
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project.
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For some scenarios, the user wouldn't need to know the details of how the
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|
dependency provider is set. A third party may provide a file that can be
|
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|
|
added to :variable:`CMAKE_PROJECT_TOP_LEVEL_INCLUDES`, which will set up
|
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|
|
the dependency provider on the user's behalf. This is the recommended
|
|
|
|
approach for package managers. The developer can use such a file like so::
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|
|
cmake -DCMAKE_PROJECT_TOP_LEVEL_INCLUDES=/path/to/package_manager/setup.cmake ...
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|
For details on how to implement your own custom dependency provider, see the
|
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|
:command:`cmake_language(SET_DEPENDENCY_PROVIDER)` command.
|