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# CMake module
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**Note**: the functionality of this module is governed by [Meson's
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rules on mixing build systems](Mixing-build-systems.md).
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This module provides helper tools for generating cmake package files.
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It also supports the usage of CMake based subprojects, similar to
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the normal [Meson subprojects](Subprojects.md).
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## Usage
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To use this module, just do: **`cmake = import('cmake')`**. The
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following functions will then be available as methods on the object
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with the name `cmake`. You can, of course, replace the name `cmake`
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with anything else.
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It is generally recommended to use the latest Meson version and
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CMake >=3.17 for best compatibility. CMake subprojects will
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usually also work with older CMake versions. However, this can
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lead to unexpected issues in rare cases.
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## CMake subprojects
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Using CMake subprojects is similar to using the "normal" Meson
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subprojects. They also have to be located in the `subprojects`
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directory.
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Example:
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```cmake
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add_library(cm_lib SHARED ${SOURCES})
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```
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```meson
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cmake = import('cmake')
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# Configure the CMake project
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sub_proj = cmake.subproject('libsimple_cmake')
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# Fetch the dependency object
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cm_lib = sub_proj.dependency('cm_lib')
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executable(exe1, ['sources'], dependencies: [cm_lib])
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```
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The `subproject` method is almost identical to the normal Meson
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`subproject` function. The only difference is that a CMake project
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instead of a Meson project is configured.
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The returned `sub_proj` supports the same options as a "normal"
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subproject. Meson automatically detects CMake build targets, which can
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be accessed with the methods listed [below](#subproject-object).
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It is usually enough to just use the dependency object returned by the
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`dependency()` method in the build targets. This is almost identical
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to using `declare_dependency()` object from a normal Meson subproject.
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It is also possible to use executables defined in the CMake project as code
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generators with the `target()` method:
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```cmake
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add_executable(cm_exe ${EXE_SRC})
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```
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```meson
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cmake = import('cmake')
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# Subproject with the "code generator"
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sub_pro = cmake.subproject('cmCodeGen')
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# Fetch the code generator exe
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sub_exe = sub_pro.target('cm_exe')
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# Use the code generator
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generated = custom_target(
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'cmake-generated',
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input: [],
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output: ['test.cpp'],
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command: [sub_exe, '@OUTPUT@']
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)
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```
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It should be noted that not all projects are guaranteed to work. The
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safest approach would still be to create a `meson.build` for the
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subprojects in question.
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### Configuration options
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*New in meson 0.55.0*
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Meson also supports passing configuration options to CMake and overriding
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certain build details extracted from the CMake subproject.
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```meson
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cmake = import('cmake')
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opt_var = cmake.subproject_options()
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# Call CMake with `-DSOME_OTHER_VAR=ON`
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opt_var.add_cmake_defines({'SOME_OTHER_VAR': true})
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# Globally override the C++ standard to c++11
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opt_var.set_override_option('cpp_std', 'c++11')
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# Override the previous global C++ standard
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# with c++14 only for the CMake target someLib
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opt_var.set_override_option('cpp_std', 'c++14', target: 'someLib')
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sub_pro = cmake.subproject('someLibProject', options: opt_var)
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# Further changes to opt_var have no effect
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```
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See [the CMake options object](#cmake-options-object) for a complete
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reference of all supported functions.
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The CMake configuration options object is very similar to the
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[[@cfg_data]] object] object returned
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by [[configuration_data]]. It
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is generated by the `subproject_options` function
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All configuration options have to be set *before* the subproject is
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configured and must be passed to the `subproject` method via the
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`options` key. Altering the configuration object won't have any effect
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on previous `cmake.subproject` calls.
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In earlier Meson versions CMake command-line parameters could be set
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with the `cmake_options` kwarg. However, this feature is deprecated
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since 0.55.0 and only kept for compatibility. It will not work
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together with the `options` kwarg.
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### `subproject` object
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This object is returned by the `subproject` function described above
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and supports the following methods:
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- `dependency(target)` returns a dependency object for any CMake target. The
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`include_type` kwarg *(new in 0.56.0)* controls the include type of the
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returned dependency object similar to the same kwarg in the
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[[dependency]] function.
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- `include_directories(target)` returns a Meson [[@inc]]
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object for the specified target. Using this function is not necessary
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if the dependency object is used.
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- `target(target)` returns the raw build target.
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- `target_type(target)` returns the type of the target as a string
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- `target_list()` returns a list of all target *names*.
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- `get_variable(name)` fetches the specified variable from inside
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the subproject. Usually `dependency()` or `target()` should be
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preferred to extract build targets.
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- `found` returns true if the subproject is available, otherwise false
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*new in Meson 0.53.2*
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### `cmake options` object
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This object is returned by the `subproject_options()` function and
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consumed by the `options` kwarg of the `subproject` function. The
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following methods are supported:
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- `add_cmake_defines({'opt1': val1, ...})` add additional CMake commandline defines
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- `set_override_option(opt, val)` set specific [build options](Build-options.md)
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for targets. This will effectively add `opt=val` to the `override_options`
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array of the [[build_target]]
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- `set_install(bool)` override whether targets should be installed or not
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- `append_compile_args(lang, arg1, ...)` append compile flags for a specific
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language to the targets
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- `append_link_args(arg1, ...)` append linger args to the targets
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- `clear()` reset all data in the `cmake options` object
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The methods `set_override_option`, `set_install`,
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`append_compile_args` and `append_link_args` support the optional
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`target` kwarg. If specified, the set options affect the specific
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target. The effect of the option is global for the subproject
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otherwise.
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If, for instance, `opt_var.set_install(false)` is called, no target
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will be installed regardless of what is set by CMake. However, it is
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still possible to install specific targets (here `foo`) by setting the
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`target` kwarg: `opt_var.set_install(true, target: 'foo')`
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Options that are not set won't affect the generated subproject. So, if
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for instance, `set_install` was not called then the values extracted
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from CMake will be used.
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### Cross compilation
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*New in 0.56.0*
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Meson will try to automatically guess most of the required CMake
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toolchain variables from existing entries in the cross and native
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files. These variables will be stored in an automatically generate
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CMake toolchain file in the build directory. The remaining variables
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that can't be guessed can be added by the user in the `[cmake]`
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cross/native file section (*new in 0.56.0*).
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Adding a manual CMake toolchain file is also supported with the
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`cmake_toolchain_file` setting in the `[properties]` section. Directly
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setting a CMake toolchain file with
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`-DCMAKE_TOOLCHAIN_FILE=/path/to/some/Toolchain.cmake` in the
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`meson.build` is **not** supported since the automatically generated
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toolchain file is also used by Meson to inject arbitrary code into
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CMake to enable the CMake subproject support.
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The closest configuration to only using a manual CMake toolchain file
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would be to set these options in the machine file:
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```ini
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[properties]
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cmake_toolchain_file = '/path/to/some/Toolchain.cmake'
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cmake_defaults = false
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[cmake]
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# No entries in this section
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```
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This will result in a toolchain file with just the bare minimum to
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enable the CMake subproject support and `include()` the
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`cmake_toolchain_file` as the last instruction.
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For more information see the [cross and native file
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specification](Machine-files.md).
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## CMake configuration files
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### cmake.write_basic_package_version_file()
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This function is the equivalent of the corresponding [CMake
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function](https://cmake.org/cmake/help/latest/module/CMakePackageConfigHelpers.html#command:write_basic_package_version_file),
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it generates a `name` package version file.
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* `name`: the name of the package.
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* `version`: the version of the generated package file.
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* `compatibility`: a string indicating the kind of compatibility, the accepted values are
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`AnyNewerVersion`, `SameMajorVersion`, `SameMinorVersion` or `ExactVersion`.
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It defaults to `AnyNewerVersion`. Depending on your cmake installation some kind of
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compatibility may not be available.
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* `arch_independent`: *new in 0.62.0*, if true the generated package file
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will skip architecture checks. Useful for header-only libraries.
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* `install_dir`: optional installation directory, it defaults to `$(libdir)/cmake/$(name)`
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Example:
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```meson
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cmake = import('cmake')
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cmake.write_basic_package_version_file(name: 'myProject', version: '1.0.0')
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```
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### cmake.configure_package_config_file()
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This function is the equivalent of the corresponding [CMake
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function](https://cmake.org/cmake/help/v3.11/module/CMakePackageConfigHelpers.html#generating-a-package-configuration-file),
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it generates a `name` package configuration file from the `input`
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template file. Just like the cmake function in this file the
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`@PACKAGE_INIT@` statement will be replaced by the appropriate piece
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of cmake code. The equivalent `PATH_VARS` argument is given through
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the `configuration` parameter.
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* `name`: the name of the package.
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* `input`: the template file where that will be treated for variable substitutions contained in `configuration`.
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* `install_dir`: optional installation directory, it defaults to `$(libdir)/cmake/$(name)`.
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* `configuration`: a `configuration_data` object that will be used for variable substitution in the template file.
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*Since 0.62.0* it can take a dictionary instead.
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Example:
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meson.build:
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```meson
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cmake = import('cmake')
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conf = configuration_data()
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conf.set_quoted('VAR', 'variable value')
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cmake.configure_package_config_file(
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name: 'myProject',
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input: 'myProject.cmake.in',
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configuration: conf
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)
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```
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myProject.cmake.in:
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```text
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@PACKAGE_INIT@
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set(MYVAR VAR)
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```
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