# CMake module This module provides helper tools for generating cmake package files. It also supports the usage of CMake based subprojects, similar to the normal [meson subprojects](Subprojects.md). ## Usage To use this module, just do: **`cmake = import('cmake')`**. The following functions will then be available as methods on the object with the name `cmake`. You can, of course, replace the name `cmake` with anything else. ## CMake subprojects Using CMake subprojects is similar to using the "normal" meson subprojects. They also have to be located in the `subprojects` directory. Example: ```cmake add_library(cm_lib SHARED ${SOURCES}) ``` ```meson cmake = import('cmake') # Configure the CMake project sub_proj = cmake.subproject('libsimple_cmake') # Fetch the dependency object cm_lib = sub_proj.dependency('cm_lib') executable(exe1, ['sources'], dependencies: [cm_lib]) ``` The `subproject` method is almost identical to the normal meson `subproject` function. The only difference is that a CMake project instead of a meson project is configured. Also, project specific CMake options can be added with the `cmake_options` key. The returned `sub_proj` supports the same options as a "normal" subproject. Meson automatically detects CMake build targets, which can be accessed with the methods listed [below](#subproject-object). It is usually enough to just use the dependency object returned by the `dependency()` method in the build targets. This is almost identical to using `declare_dependency()` object from a normal meson subproject. It is also possible to use executables defined in the CMake project as code generators with the `target()` method: ```cmake add_executable(cm_exe ${EXE_SRC}) ``` ```meson cmake = import('cmake') # Subproject with the "code generator" sub_pro = cmake.subproject('cmCodeGen') # Fetch the code generator exe sub_exe = sub_pro.target('cm_exe') # Use the code generator generated = custom_target( 'cmake-generated', input: [], output: ['test.cpp'], command: [sub_exe, '@OUTPUT@'] ) ``` It should be noted that not all projects are guaranteed to work. The safest approach would still be to create a `meson.build` for the subprojects in question. ### `subproject` object This object is returned by the `subproject` function described above and supports the following methods: - `dependency(target)` returns a dependency object for any CMake target. - `include_directories(target)` returns a meson `include_directories()` object for the specified target. Using this function is not neccessary if the dependency object is used. - `target(target)` returns the raw build target. - `target_type(target)` returns the type of the target as a string - `target_list()` returns a list of all target *names*. - `get_variable(name)` fetches the specified variable from inside the subproject. Usually `dependency()` or `target()` should be prefered to extract build targets. ## CMake configuration files ### cmake.write_basic_package_version_file() This function is the equivalent of the corresponding [CMake function](https://cmake.org/cmake/help/v3.11/module/CMakePackageConfigHelpers.html#generating-a-package-version-file), it generates a `name` package version file. * `name`: the name of the package. * `version`: the version of the generated package file. * `compatibility`: a string indicating the kind of compatibility, the accepted values are `AnyNewerVersion`, `SameMajorVersion`, `SameMinorVersion` or `ExactVersion`. It defaults to `AnyNewerVersion`. Depending on your cmake installation some kind of compatibility may not be available. * `install_dir`: optional installation directory, it defaults to `$(libdir)/cmake/$(name)` Example: ```meson cmake = import('cmake') cmake.write_basic_package_version_file(name: 'myProject', version: '1.0.0') ``` ### cmake.configure_package_config_file() This function is the equivalent of the corresponding [CMake function](https://cmake.org/cmake/help/v3.11/module/CMakePackageConfigHelpers.html#generating-a-package-configuration-file), it generates a `name` package configuration file from the `input` template file. Just like the cmake function in this file the `@PACKAGE_INIT@` statement will be replaced by the appropriate piece of cmake code. The equivalent `PATH_VARS` argument is given through the `configuration` parameter. * `name`: the name of the package. * `input`: the template file where that will be treated for variable substitutions contained in `configuration`. * `install_dir`: optional installation directory, it defaults to `$(libdir)/cmake/$(name)`. * `configuration`: a `configuration_data` object that will be used for variable substitution in the template file. Example: meson.build: ```meson cmake = import('cmake') conf = configuration_data() conf.set_quoted('VAR', 'variable value') cmake.configure_package_config_file( name: 'myProject', input: 'myProject.cmake.in', configuration: conf ) ``` myProject.cmake.in: ```text @PACKAGE_INIT@ set(MYVAR VAR) ```