***** Usage ***** To use the {fmt} library, add :file:`fmt/core.h`, :file:`fmt/format.h`, :file:`fmt/format-inl.h`, :file:`src/format.cc` and optionally other headers from a `release archive `_ or the `Git repository `_ to your project. Alternatively, you can :ref:`build the library with CMake `. .. _building: Building the Library ==================== The included `CMake build script`__ can be used to build the fmt library on a wide range of platforms. CMake is freely available for download from https://www.cmake.org/download/. __ https://github.com/fmtlib/fmt/blob/master/CMakeLists.txt CMake works by generating native makefiles or project files that can be used in the compiler environment of your choice. The typical workflow starts with:: mkdir build # Create a directory to hold the build output. cd build cmake .. # Generate native build scripts. where :file:`{}` is a path to the ``fmt`` repository. If you are on a \*nix system, you should now see a Makefile in the current directory. Now you can build the library by running :command:`make`. Once the library has been built you can invoke :command:`make test` to run the tests. You can control generation of the make ``test`` target with the ``FMT_TEST`` CMake option. This can be useful if you include fmt as a subdirectory in your project but don't want to add fmt's tests to your ``test`` target. If you use Windows and have Visual Studio installed, a :file:`FMT.sln` file and several :file:`.vcproj` files will be created. You can then build them using Visual Studio or msbuild. On Mac OS X with Xcode installed, an :file:`.xcodeproj` file will be generated. To build a `shared library`__ set the ``BUILD_SHARED_LIBS`` CMake variable to ``TRUE``:: cmake -DBUILD_SHARED_LIBS=TRUE ... __ https://en.wikipedia.org/wiki/Library_%28computing%29#Shared_libraries To build a `static library` with position independent code (required if the main consumer of the fmt library is a shared library i.e. a Python extension) set the ``CMAKE_POSITION_INDEPENDENT_CODE`` CMake variable to ``TRUE``:: cmake -DCMAKE_POSITION_INDEPENDENT_CODE=TRUE ... Installing the Library ====================== After building the library you can install it on a Unix-like system by running :command:`sudo make install`. Usage with CMake ================ You can add the ``fmt`` library directory into your project and include it in your ``CMakeLists.txt`` file:: add_subdirectory(fmt) or :: add_subdirectory(fmt EXCLUDE_FROM_ALL) to exclude it from ``make``, ``make all``, or ``cmake --build .``. You can detect and use an installed version of {fmt} as follows:: find_package(fmt) target_link_libraries( fmt::fmt) Setting up your target to use a header-only version of ``fmt`` is equally easy:: target_link_libraries( PRIVATE fmt::fmt-header-only) Usage with build2 ================= You can use `build2 `_, a dependency manager and a build-system combined, to use ``fmt``. Currently this package is available in these package repositories: - **https://cppget.org/fmt/** for released and published versions. - `The git repository with the sources of the build2 package of fmt `_ for unreleased or custom revisions of ``fmt``. **Usage:** - ``build2`` package name: ``fmt`` - Library target name : ``lib{fmt}`` For example, to make your ``build2`` project depend on ``fmt``: - Add one of the repositories to your configurations, or in your ``repositories.manifest``, if not already there:: : role: prerequisite location: https://pkg.cppget.org/1/stable - Add this package as a dependency to your ``./manifest`` file (example for ``v7.0.x``):: depends: fmt ~7.0.0 - Import the target and use it as a prerequisite to your own target using `fmt` in the appropriate ``buildfile``:: import fmt = fmt%lib{fmt} lib{mylib} : cxx{**} ... $fmt Then build your project as usual with `b` or `bdep update`. For ``build2`` newcomers or to get more details and use cases, you can read the ``build2`` `toolchain introduction `_. Building the Documentation ========================== To build the documentation you need the following software installed on your system: * `Python `_ with pip and virtualenv * `Doxygen `_ * `Less `_ with ``less-plugin-clean-css``. Ubuntu doesn't package the ``clean-css`` plugin so you should use ``npm`` instead of ``apt`` to install both ``less`` and the plugin:: sudo npm install -g less less-plugin-clean-css. First generate makefiles or project files using CMake as described in the previous section. Then compile the ``doc`` target/project, for example:: make doc This will generate the HTML documentation in ``doc/html``. Conda ===== fmt can be installed on Linux, macOS and Windows with `Conda `__, using its `conda-forge `__ `package `__, as follows:: conda install -c conda-forge fmt Vcpkg ===== You can download and install fmt using the `vcpkg `__ dependency manager:: git clone https://github.com/Microsoft/vcpkg.git cd vcpkg ./bootstrap-vcpkg.sh ./vcpkg integrate install ./vcpkg install fmt The fmt port in vcpkg is kept up to date by Microsoft team members and community contributors. If the version is out of date, please `create an issue or pull request `__ on the vcpkg repository. LHelper ======= You can download and install fmt using `lhelper `__ dependency manager:: lhelper activate lhelper install fmt All the recipes for lhelper are kept in the `lhelper's recipe `__ repository. Android NDK =========== fmt provides `Android.mk file`__ that can be used to build the library with `Android NDK `_. For an example of using fmt with Android NDK, see the `android-ndk-example `_ repository. __ https://github.com/fmtlib/fmt/blob/master/support/Android.mk Homebrew ======== fmt can be installed on OS X using `Homebrew `_:: brew install fmt