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722 lines
28 KiB
ReStructuredText
722 lines
28 KiB
ReStructuredText
.. cmake-manual-description: CMake Packages Reference
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cmake-packages(7)
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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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Packages provide dependency information to CMake based buildsystems. Packages
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are found with the :command:`find_package` command. The result of
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using :command:`find_package` is either a set of :prop_tgt:`IMPORTED` targets, or
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a set of variables corresponding to build-relevant information.
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Using Packages
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==============
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CMake provides direct support for two forms of packages,
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`Config-file Packages`_ and `Find-module Packages`_.
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Indirect support for ``pkg-config`` packages is also provided via
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the :module:`FindPkgConfig` module. In all cases, the basic form
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of :command:`find_package` calls is the same:
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.. code-block:: cmake
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find_package(Qt4 4.7.0 REQUIRED) # CMake provides a Qt4 find-module
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find_package(Qt5Core 5.1.0 REQUIRED) # Qt provides a Qt5 package config file.
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find_package(LibXml2 REQUIRED) # Use pkg-config via the LibXml2 find-module
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In cases where it is known that a package configuration file is provided by
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upstream, and only that should be used, the ``CONFIG`` keyword may be passed
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to :command:`find_package`:
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.. code-block:: cmake
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find_package(Qt5Core 5.1.0 CONFIG REQUIRED)
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find_package(Qt5Gui 5.1.0 CONFIG)
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Similarly, the ``MODULE`` keyword says to use only a find-module:
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.. code-block:: cmake
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find_package(Qt4 4.7.0 MODULE REQUIRED)
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Specifying the type of package explicitly improves the error message shown to
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the user if it is not found.
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Both types of packages also support specifying components of a package,
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either after the ``REQUIRED`` keyword:
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.. code-block:: cmake
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find_package(Qt5 5.1.0 CONFIG REQUIRED Widgets Xml Sql)
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or as a separate ``COMPONENTS`` list:
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.. code-block:: cmake
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find_package(Qt5 5.1.0 COMPONENTS Widgets Xml Sql)
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or as a separate ``OPTIONAL_COMPONENTS`` list:
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.. code-block:: cmake
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find_package(Qt5 5.1.0 COMPONENTS Widgets
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OPTIONAL_COMPONENTS Xml Sql
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)
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Handling of ``COMPONENTS`` and ``OPTIONAL_COMPONENTS`` is defined by the
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package.
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By setting the :variable:`CMAKE_DISABLE_FIND_PACKAGE_<PackageName>` variable to
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``TRUE``, the ``<PackageName>`` package will not be searched, and will always
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be ``NOTFOUND``. Likewise, setting the
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:variable:`CMAKE_REQUIRE_FIND_PACKAGE_<PackageName>` to ``TRUE`` will make the
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package REQUIRED.
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.. _`Config File Packages`:
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Config-file Packages
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--------------------
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A config-file package is a set of files provided by upstreams for downstreams
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to use. CMake searches in a number of locations for package configuration files, as
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described in the :command:`find_package` documentation. The most simple way for
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a CMake user to tell :manual:`cmake(1)` to search in a non-standard prefix for
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a package is to set the ``CMAKE_PREFIX_PATH`` cache variable.
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Config-file packages are provided by upstream vendors as part of development
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packages, that is, they belong with the header files and any other files
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provided to assist downstreams in using the package.
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A set of variables which provide package status information are also set
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automatically when using a config-file package. The ``<PackageName>_FOUND``
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variable is set to true or false, depending on whether the package was
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found. The ``<PackageName>_DIR`` cache variable is set to the location of the
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package configuration file.
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Find-module Packages
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--------------------
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A find module is a file with a set of rules for finding the required pieces of
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a dependency, primarily header files and libraries. Typically, a find module
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is needed when the upstream is not built with CMake, or is not CMake-aware
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enough to otherwise provide a package configuration file. Unlike a package configuration
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file, it is not shipped with upstream, but is used by downstream to find the
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files by guessing locations of files with platform-specific hints.
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Unlike the case of an upstream-provided package configuration file, no single point
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of reference identifies the package as being found, so the ``<PackageName>_FOUND``
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variable is not automatically set by the :command:`find_package` command. It
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can still be expected to be set by convention however and should be set by
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the author of the Find-module. Similarly there is no ``<PackageName>_DIR`` variable,
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but each of the artifacts such as library locations and header file locations
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provide a separate cache variable.
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See the :manual:`cmake-developer(7)` manual for more information about creating
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Find-module files.
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Package Layout
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==============
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A config-file package consists of a `Package Configuration File`_ and
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optionally a `Package Version File`_ provided with the project distribution.
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Package Configuration File
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--------------------------
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Consider a project ``Foo`` that installs the following files::
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<prefix>/include/foo-1.2/foo.h
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<prefix>/lib/foo-1.2/libfoo.a
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It may also provide a CMake package configuration file::
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<prefix>/lib/cmake/foo-1.2/FooConfig.cmake
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with content defining :prop_tgt:`IMPORTED` targets, or defining variables, such
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as:
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.. code-block:: cmake
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# ...
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# (compute PREFIX relative to file location)
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# ...
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set(Foo_INCLUDE_DIRS ${PREFIX}/include/foo-1.2)
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set(Foo_LIBRARIES ${PREFIX}/lib/foo-1.2/libfoo.a)
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If another project wishes to use ``Foo`` it need only to locate the ``FooConfig.cmake``
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file and load it to get all the information it needs about package content
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locations. Since the package configuration file is provided by the package
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installation it already knows all the file locations.
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The :command:`find_package` command may be used to search for the package
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configuration file. This command constructs a set of installation prefixes
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and searches under each prefix in several locations. Given the name ``Foo``,
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it looks for a file called ``FooConfig.cmake`` or ``foo-config.cmake``.
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The full set of locations is specified in the :command:`find_package` command
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documentation. One place it looks is::
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<prefix>/lib/cmake/Foo*/
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where ``Foo*`` is a case-insensitive globbing expression. In our example the
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globbing expression will match ``<prefix>/lib/cmake/foo-1.2`` and the package
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configuration file will be found.
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Once found, a package configuration file is immediately loaded. It, together
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with a package version file, contains all the information the project needs to
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use the package.
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Package Version File
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--------------------
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When the :command:`find_package` command finds a candidate package configuration
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file it looks next to it for a version file. The version file is loaded to test
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whether the package version is an acceptable match for the version requested.
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If the version file claims compatibility the configuration file is accepted.
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Otherwise it is ignored.
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The name of the package version file must match that of the package configuration
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file but has either ``-version`` or ``Version`` appended to the name before
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the ``.cmake`` extension. For example, the files::
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<prefix>/lib/cmake/foo-1.3/foo-config.cmake
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<prefix>/lib/cmake/foo-1.3/foo-config-version.cmake
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and::
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<prefix>/lib/cmake/bar-4.2/BarConfig.cmake
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<prefix>/lib/cmake/bar-4.2/BarConfigVersion.cmake
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are each pairs of package configuration files and corresponding package version
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files.
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When the :command:`find_package` command loads a version file it first sets the
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following variables:
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``PACKAGE_FIND_NAME``
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The ``<PackageName>``
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``PACKAGE_FIND_VERSION``
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Full requested version string
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``PACKAGE_FIND_VERSION_MAJOR``
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Major version if requested, else 0
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``PACKAGE_FIND_VERSION_MINOR``
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Minor version if requested, else 0
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``PACKAGE_FIND_VERSION_PATCH``
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Patch version if requested, else 0
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``PACKAGE_FIND_VERSION_TWEAK``
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Tweak version if requested, else 0
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``PACKAGE_FIND_VERSION_COUNT``
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Number of version components, 0 to 4
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The version file must use these variables to check whether it is compatible or
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an exact match for the requested version and set the following variables with
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results:
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``PACKAGE_VERSION``
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Full provided version string
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``PACKAGE_VERSION_EXACT``
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True if version is exact match
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``PACKAGE_VERSION_COMPATIBLE``
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True if version is compatible
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``PACKAGE_VERSION_UNSUITABLE``
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True if unsuitable as any version
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Version files are loaded in a nested scope so they are free to set any variables
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they wish as part of their computation. The find_package command wipes out the
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scope when the version file has completed and it has checked the output
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variables. When the version file claims to be an acceptable match for the
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requested version the find_package command sets the following variables for
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use by the project:
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``<PackageName>_VERSION``
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Full provided version string
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``<PackageName>_VERSION_MAJOR``
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Major version if provided, else 0
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``<PackageName>_VERSION_MINOR``
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Minor version if provided, else 0
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``<PackageName>_VERSION_PATCH``
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Patch version if provided, else 0
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``<PackageName>_VERSION_TWEAK``
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Tweak version if provided, else 0
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``<PackageName>_VERSION_COUNT``
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Number of version components, 0 to 4
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The variables report the version of the package that was actually found.
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The ``<PackageName>`` part of their name matches the argument given to the
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:command:`find_package` command.
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.. _`Creating Packages`:
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Creating Packages
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=================
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Usually, the upstream depends on CMake itself and can use some CMake facilities
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for creating the package files. Consider an upstream which provides a single
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shared library:
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.. code-block:: cmake
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project(UpstreamLib)
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set(CMAKE_INCLUDE_CURRENT_DIR ON)
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set(CMAKE_INCLUDE_CURRENT_DIR_IN_INTERFACE ON)
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set(Upstream_VERSION 3.4.1)
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include(GenerateExportHeader)
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add_library(ClimbingStats SHARED climbingstats.cpp)
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generate_export_header(ClimbingStats)
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set_property(TARGET ClimbingStats PROPERTY VERSION ${Upstream_VERSION})
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set_property(TARGET ClimbingStats PROPERTY SOVERSION 3)
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set_property(TARGET ClimbingStats PROPERTY
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INTERFACE_ClimbingStats_MAJOR_VERSION 3)
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set_property(TARGET ClimbingStats APPEND PROPERTY
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COMPATIBLE_INTERFACE_STRING ClimbingStats_MAJOR_VERSION
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)
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install(TARGETS ClimbingStats EXPORT ClimbingStatsTargets
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LIBRARY DESTINATION lib
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ARCHIVE DESTINATION lib
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RUNTIME DESTINATION bin
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INCLUDES DESTINATION include
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)
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install(
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FILES
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climbingstats.h
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"${CMAKE_CURRENT_BINARY_DIR}/climbingstats_export.h"
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DESTINATION
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include
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COMPONENT
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Devel
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)
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include(CMakePackageConfigHelpers)
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write_basic_package_version_file(
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"${CMAKE_CURRENT_BINARY_DIR}/ClimbingStats/ClimbingStatsConfigVersion.cmake"
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VERSION ${Upstream_VERSION}
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COMPATIBILITY AnyNewerVersion
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)
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export(EXPORT ClimbingStatsTargets
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FILE "${CMAKE_CURRENT_BINARY_DIR}/ClimbingStats/ClimbingStatsTargets.cmake"
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NAMESPACE Upstream::
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)
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configure_file(cmake/ClimbingStatsConfig.cmake
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"${CMAKE_CURRENT_BINARY_DIR}/ClimbingStats/ClimbingStatsConfig.cmake"
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COPYONLY
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)
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set(ConfigPackageLocation lib/cmake/ClimbingStats)
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install(EXPORT ClimbingStatsTargets
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FILE
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ClimbingStatsTargets.cmake
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NAMESPACE
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Upstream::
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DESTINATION
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${ConfigPackageLocation}
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)
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install(
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FILES
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cmake/ClimbingStatsConfig.cmake
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"${CMAKE_CURRENT_BINARY_DIR}/ClimbingStats/ClimbingStatsConfigVersion.cmake"
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DESTINATION
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${ConfigPackageLocation}
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COMPONENT
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Devel
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)
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The :module:`CMakePackageConfigHelpers` module provides a macro for creating
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a simple ``ConfigVersion.cmake`` file. This file sets the version of the
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package. It is read by CMake when :command:`find_package` is called to
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determine the compatibility with the requested version, and to set some
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version-specific variables ``<PackageName>_VERSION``, ``<PackageName>_VERSION_MAJOR``,
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``<PackageName>_VERSION_MINOR`` etc. The :command:`install(EXPORT)` command is
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used to export the targets in the ``ClimbingStatsTargets`` export-set, defined
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previously by the :command:`install(TARGETS)` command. This command generates
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the ``ClimbingStatsTargets.cmake`` file to contain :prop_tgt:`IMPORTED`
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targets, suitable for use by downstreams and arranges to install it to
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``lib/cmake/ClimbingStats``. The generated ``ClimbingStatsConfigVersion.cmake``
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and a ``cmake/ClimbingStatsConfig.cmake`` are installed to the same location,
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completing the package.
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The generated :prop_tgt:`IMPORTED` targets have appropriate properties set
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to define their :ref:`usage requirements <Target Usage Requirements>`, such as
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:prop_tgt:`INTERFACE_INCLUDE_DIRECTORIES`,
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:prop_tgt:`INTERFACE_COMPILE_DEFINITIONS` and other relevant built-in
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``INTERFACE_`` properties. The ``INTERFACE`` variant of user-defined
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properties listed in :prop_tgt:`COMPATIBLE_INTERFACE_STRING` and
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other :ref:`Compatible Interface Properties` are also propagated to the
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generated :prop_tgt:`IMPORTED` targets. In the above case,
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``ClimbingStats_MAJOR_VERSION`` is defined as a string which must be
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compatible among the dependencies of any depender. By setting this custom
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defined user property in this version and in the next version of
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``ClimbingStats``, :manual:`cmake(1)` will issue a diagnostic if there is an
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attempt to use version 3 together with version 4. Packages can choose to
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employ such a pattern if different major versions of the package are designed
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to be incompatible.
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A ``NAMESPACE`` with double-colons is specified when exporting the targets
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for installation. This convention of double-colons gives CMake a hint that
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the name is an :prop_tgt:`IMPORTED` target when it is used by downstreams
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with the :command:`target_link_libraries` command. This way, CMake can
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issue a diagnostic if the package providing it has not yet been found.
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In this case, when using :command:`install(TARGETS)` the ``INCLUDES DESTINATION``
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was specified. This causes the ``IMPORTED`` targets to have their
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:prop_tgt:`INTERFACE_INCLUDE_DIRECTORIES` populated with the ``include``
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directory in the :variable:`CMAKE_INSTALL_PREFIX`. When the ``IMPORTED``
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target is used by downstream, it automatically consumes the entries from
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that property.
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Creating a Package Configuration File
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-------------------------------------
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In this case, the ``ClimbingStatsConfig.cmake`` file could be as simple as:
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.. code-block:: cmake
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include("${CMAKE_CURRENT_LIST_DIR}/ClimbingStatsTargets.cmake")
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As this allows downstreams to use the ``IMPORTED`` targets. If any macros
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should be provided by the ``ClimbingStats`` package, they should
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be in a separate file which is installed to the same location as the
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``ClimbingStatsConfig.cmake`` file, and included from there.
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This can also be extended to cover dependencies:
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.. code-block:: cmake
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# ...
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add_library(ClimbingStats SHARED climbingstats.cpp)
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generate_export_header(ClimbingStats)
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find_package(Stats 2.6.4 REQUIRED)
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target_link_libraries(ClimbingStats PUBLIC Stats::Types)
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As the ``Stats::Types`` target is a ``PUBLIC`` dependency of ``ClimbingStats``,
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downstreams must also find the ``Stats`` package and link to the ``Stats::Types``
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library. The ``Stats`` package should be found in the ``ClimbingStatsConfig.cmake``
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file to ensure this. The ``find_dependency`` macro from the
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:module:`CMakeFindDependencyMacro` helps with this by propagating
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whether the package is ``REQUIRED``, or ``QUIET`` etc. All ``REQUIRED``
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dependencies of a package should be found in the ``Config.cmake`` file:
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.. code-block:: cmake
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include(CMakeFindDependencyMacro)
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find_dependency(Stats 2.6.4)
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include("${CMAKE_CURRENT_LIST_DIR}/ClimbingStatsTargets.cmake")
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include("${CMAKE_CURRENT_LIST_DIR}/ClimbingStatsMacros.cmake")
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The ``find_dependency`` macro also sets ``ClimbingStats_FOUND`` to ``False`` if
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the dependency is not found, along with a diagnostic that the ``ClimbingStats``
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package can not be used without the ``Stats`` package.
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If ``COMPONENTS`` are specified when the downstream uses :command:`find_package`,
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they are listed in the ``<PackageName>_FIND_COMPONENTS`` variable. If a particular
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component is non-optional, then the ``<PackageName>_FIND_REQUIRED_<comp>`` will
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be true. This can be tested with logic in the package configuration file:
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.. code-block:: cmake
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include(CMakeFindDependencyMacro)
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find_dependency(Stats 2.6.4)
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include("${CMAKE_CURRENT_LIST_DIR}/ClimbingStatsTargets.cmake")
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include("${CMAKE_CURRENT_LIST_DIR}/ClimbingStatsMacros.cmake")
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set(_ClimbingStats_supported_components Plot Table)
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foreach(_comp ${ClimbingStats_FIND_COMPONENTS})
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if (NOT ";${_ClimbingStats_supported_components};" MATCHES ";${_comp};")
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set(ClimbingStats_FOUND False)
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set(ClimbingStats_NOT_FOUND_MESSAGE "Unsupported component: ${_comp}")
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endif()
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include("${CMAKE_CURRENT_LIST_DIR}/ClimbingStats${_comp}Targets.cmake")
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endforeach()
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Here, the ``ClimbingStats_NOT_FOUND_MESSAGE`` is set to a diagnosis that the package
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could not be found because an invalid component was specified. This message
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variable can be set for any case where the ``_FOUND`` variable is set to ``False``,
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and will be displayed to the user.
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Creating a Package Configuration File for the Build Tree
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The :command:`export(EXPORT)` command creates an :prop_tgt:`IMPORTED` targets
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definition file which is specific to the build-tree, and is not relocatable.
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This can similarly be used with a suitable package configuration file and
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package version file to define a package for the build tree which may be used
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without installation. Consumers of the build tree can simply ensure that the
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:variable:`CMAKE_PREFIX_PATH` contains the build directory, or set the
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``ClimbingStats_DIR`` to ``<build_dir>/ClimbingStats`` in the cache.
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.. _`Creating Relocatable Packages`:
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Creating Relocatable Packages
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-----------------------------
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A relocatable package must not reference absolute paths of files on
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the machine where the package is built that will not exist on the
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machines where the package may be installed.
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Packages created by :command:`install(EXPORT)` are designed to be relocatable,
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using paths relative to the location of the package itself. When defining
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the interface of a target for ``EXPORT``, keep in mind that the include
|
|
directories should be specified as relative paths which are relative to the
|
|
:variable:`CMAKE_INSTALL_PREFIX`:
|
|
|
|
.. code-block:: cmake
|
|
|
|
target_include_directories(tgt INTERFACE
|
|
# Wrong, not relocatable:
|
|
$<INSTALL_INTERFACE:${CMAKE_INSTALL_PREFIX}/include/TgtName>
|
|
)
|
|
|
|
target_include_directories(tgt INTERFACE
|
|
# Ok, relocatable:
|
|
$<INSTALL_INTERFACE:include/TgtName>
|
|
)
|
|
|
|
The ``$<INSTALL_PREFIX>``
|
|
:manual:`generator expression <cmake-generator-expressions(7)>` may be used as
|
|
a placeholder for the install prefix without resulting in a non-relocatable
|
|
package. This is necessary if complex generator expressions are used:
|
|
|
|
.. code-block:: cmake
|
|
|
|
target_include_directories(tgt INTERFACE
|
|
# Ok, relocatable:
|
|
$<INSTALL_INTERFACE:$<$<CONFIG:Debug>:$<INSTALL_PREFIX>/include/TgtName>>
|
|
)
|
|
|
|
This also applies to paths referencing external dependencies.
|
|
It is not advisable to populate any properties which may contain
|
|
paths, such as :prop_tgt:`INTERFACE_INCLUDE_DIRECTORIES` and
|
|
:prop_tgt:`INTERFACE_LINK_LIBRARIES`, with paths relevant to dependencies.
|
|
For example, this code may not work well for a relocatable package:
|
|
|
|
.. code-block:: cmake
|
|
|
|
target_link_libraries(ClimbingStats INTERFACE
|
|
${Foo_LIBRARIES} ${Bar_LIBRARIES}
|
|
)
|
|
target_include_directories(ClimbingStats INTERFACE
|
|
"$<INSTALL_INTERFACE:${Foo_INCLUDE_DIRS};${Bar_INCLUDE_DIRS}>"
|
|
)
|
|
|
|
The referenced variables may contain the absolute paths to libraries
|
|
and include directories **as found on the machine the package was made on**.
|
|
This would create a package with hard-coded paths to dependencies and not
|
|
suitable for relocation.
|
|
|
|
Ideally such dependencies should be used through their own
|
|
:ref:`IMPORTED targets <Imported Targets>` that have their own
|
|
:prop_tgt:`IMPORTED_LOCATION` and usage requirement properties
|
|
such as :prop_tgt:`INTERFACE_INCLUDE_DIRECTORIES` populated
|
|
appropriately. Those imported targets may then be used with
|
|
the :command:`target_link_libraries` command for ``ClimbingStats``:
|
|
|
|
.. code-block:: cmake
|
|
|
|
target_link_libraries(ClimbingStats INTERFACE Foo::Foo Bar::Bar)
|
|
|
|
With this approach the package references its external dependencies
|
|
only through the names of :ref:`IMPORTED targets <Imported Targets>`.
|
|
When a consumer uses the installed package, the consumer will run the
|
|
appropriate :command:`find_package` commands (via the ``find_dependency``
|
|
macro described above) to find the dependencies and populate the
|
|
imported targets with appropriate paths on their own machine.
|
|
|
|
Unfortunately many :manual:`modules <cmake-modules(7)>` shipped with
|
|
CMake do not yet provide :ref:`IMPORTED targets <Imported Targets>`
|
|
because their development pre-dated this approach. This may improve
|
|
incrementally over time. Workarounds to create relocatable packages
|
|
using such modules include:
|
|
|
|
* When building the package, specify each ``Foo_LIBRARY`` cache
|
|
entry as just a library name, e.g. ``-DFoo_LIBRARY=foo``. This
|
|
tells the corresponding find module to populate the ``Foo_LIBRARIES``
|
|
with just ``foo`` to ask the linker to search for the library
|
|
instead of hard-coding a path.
|
|
|
|
* Or, after installing the package content but before creating the
|
|
package installation binary for redistribution, manually replace
|
|
the absolute paths with placeholders for substitution by the
|
|
installation tool when the package is installed.
|
|
|
|
.. _`Package Registry`:
|
|
|
|
Package Registry
|
|
================
|
|
|
|
CMake provides two central locations to register packages that have
|
|
been built or installed anywhere on a system:
|
|
|
|
* `User Package Registry`_
|
|
* `System Package Registry`_
|
|
|
|
The registries are especially useful to help projects find packages in
|
|
non-standard install locations or directly in their own build trees.
|
|
A project may populate either the user or system registry (using its own
|
|
means, see below) to refer to its location.
|
|
In either case the package should store at the registered location a
|
|
`Package Configuration File`_ (``<PackageName>Config.cmake``) and optionally a
|
|
`Package Version File`_ (``<PackageName>ConfigVersion.cmake``).
|
|
|
|
The :command:`find_package` command searches the two package registries
|
|
as two of the search steps specified in its documentation. If it has
|
|
sufficient permissions it also removes stale package registry entries
|
|
that refer to directories that do not exist or do not contain a matching
|
|
package configuration file.
|
|
|
|
.. _`User Package Registry`:
|
|
|
|
User Package Registry
|
|
---------------------
|
|
|
|
The User Package Registry is stored in a per-user location.
|
|
The :command:`export(PACKAGE)` command may be used to register a project
|
|
build tree in the user package registry. CMake currently provides no
|
|
interface to add install trees to the user package registry. Installers
|
|
must be manually taught to register their packages if desired.
|
|
|
|
On Windows the user package registry is stored in the Windows registry
|
|
under a key in ``HKEY_CURRENT_USER``.
|
|
|
|
A ``<PackageName>`` may appear under registry key::
|
|
|
|
HKEY_CURRENT_USER\Software\Kitware\CMake\Packages\<PackageName>
|
|
|
|
as a ``REG_SZ`` value, with arbitrary name, that specifies the directory
|
|
containing the package configuration file.
|
|
|
|
On UNIX platforms the user package registry is stored in the user home
|
|
directory under ``~/.cmake/packages``. A ``<PackageName>`` may appear under
|
|
the directory::
|
|
|
|
~/.cmake/packages/<PackageName>
|
|
|
|
as a file, with arbitrary name, whose content specifies the directory
|
|
containing the package configuration file.
|
|
|
|
.. _`System Package Registry`:
|
|
|
|
System Package Registry
|
|
-----------------------
|
|
|
|
The System Package Registry is stored in a system-wide location.
|
|
CMake currently provides no interface to add to the system package registry.
|
|
Installers must be manually taught to register their packages if desired.
|
|
|
|
On Windows the system package registry is stored in the Windows registry
|
|
under a key in ``HKEY_LOCAL_MACHINE``. A ``<PackageName>`` may appear under
|
|
registry key::
|
|
|
|
HKEY_LOCAL_MACHINE\Software\Kitware\CMake\Packages\<PackageName>
|
|
|
|
as a ``REG_SZ`` value, with arbitrary name, that specifies the directory
|
|
containing the package configuration file.
|
|
|
|
There is no system package registry on non-Windows platforms.
|
|
|
|
.. _`Disabling the Package Registry`:
|
|
|
|
Disabling the Package Registry
|
|
------------------------------
|
|
|
|
In some cases using the Package Registries is not desirable. CMake
|
|
allows one to disable them using the following variables:
|
|
|
|
* The :command:`export(PACKAGE)` command does not populate the user
|
|
package registry when :policy:`CMP0090` is set to ``NEW`` unless the
|
|
:variable:`CMAKE_EXPORT_PACKAGE_REGISTRY` variable explicitly enables it.
|
|
When :policy:`CMP0090` is *not* set to ``NEW`` then
|
|
:command:`export(PACKAGE)` populates the user package registry unless
|
|
the :variable:`CMAKE_EXPORT_NO_PACKAGE_REGISTRY` variable explicitly
|
|
disables it.
|
|
* :variable:`CMAKE_FIND_USE_PACKAGE_REGISTRY` disables the
|
|
User Package Registry in all the :command:`find_package` calls when
|
|
set to ``FALSE``.
|
|
* Deprecated :variable:`CMAKE_FIND_PACKAGE_NO_PACKAGE_REGISTRY` disables the
|
|
User Package Registry in all the :command:`find_package` calls when set
|
|
to ``TRUE``. This variable is ignored when
|
|
:variable:`CMAKE_FIND_USE_PACKAGE_REGISTRY` has been set.
|
|
* :variable:`CMAKE_FIND_PACKAGE_NO_SYSTEM_PACKAGE_REGISTRY` disables
|
|
the System Package Registry in all the :command:`find_package` calls.
|
|
|
|
Package Registry Example
|
|
------------------------
|
|
|
|
A simple convention for naming package registry entries is to use content
|
|
hashes. They are deterministic and unlikely to collide
|
|
(:command:`export(PACKAGE)` uses this approach).
|
|
The name of an entry referencing a specific directory is simply the content
|
|
hash of the directory path itself.
|
|
|
|
If a project arranges for package registry entries to exist, such as::
|
|
|
|
> reg query HKCU\Software\Kitware\CMake\Packages\MyPackage
|
|
HKEY_CURRENT_USER\Software\Kitware\CMake\Packages\MyPackage
|
|
45e7d55f13b87179bb12f907c8de6fc4 REG_SZ c:/Users/Me/Work/lib/cmake/MyPackage
|
|
7b4a9844f681c80ce93190d4e3185db9 REG_SZ c:/Users/Me/Work/MyPackage-build
|
|
|
|
or::
|
|
|
|
$ cat ~/.cmake/packages/MyPackage/7d1fb77e07ce59a81bed093bbee945bd
|
|
/home/me/work/lib/cmake/MyPackage
|
|
$ cat ~/.cmake/packages/MyPackage/f92c1db873a1937f3100706657c63e07
|
|
/home/me/work/MyPackage-build
|
|
|
|
then the ``CMakeLists.txt`` code:
|
|
|
|
.. code-block:: cmake
|
|
|
|
find_package(MyPackage)
|
|
|
|
will search the registered locations for package configuration files
|
|
(``MyPackageConfig.cmake``). The search order among package registry
|
|
entries for a single package is unspecified and the entry names
|
|
(hashes in this example) have no meaning. Registered locations may
|
|
contain package version files (``MyPackageConfigVersion.cmake``) to
|
|
tell :command:`find_package` whether a specific location is suitable
|
|
for the version requested.
|
|
|
|
Package Registry Ownership
|
|
--------------------------
|
|
|
|
Package registry entries are individually owned by the project installations
|
|
that they reference. A package installer is responsible for adding its own
|
|
entry and the corresponding uninstaller is responsible for removing it.
|
|
|
|
The :command:`export(PACKAGE)` command populates the user package registry
|
|
with the location of a project build tree. Build trees tend to be deleted by
|
|
developers and have no "uninstall" event that could trigger removal of their
|
|
entries. In order to keep the registries clean the :command:`find_package`
|
|
command automatically removes stale entries it encounters if it has sufficient
|
|
permissions. CMake provides no interface to remove an entry referencing an
|
|
existing build tree once :command:`export(PACKAGE)` has been invoked.
|
|
However, if the project removes its package configuration file from the build
|
|
tree then the entry referencing the location will be considered stale.
|