Thank you for your interest in this project! Please refer to the following sections on how to contribute code and bug reports. ### Reporting bugs Before submitting a question or bug report, please take a moment of your time and ensure that your issue isn't already discussed in the project documentation provided at [pybind11.readthedocs.org][] or in the [issue tracker][]. You can also check [gitter][] to see if it came up before. Assuming that you have identified a previously unknown problem or an important question, it's essential that you submit a self-contained and minimal piece of code that reproduces the problem. In other words: no external dependencies, isolate the function(s) that cause breakage, submit matched and complete C++ and Python snippets that can be easily compiled and run in isolation; or ideally make a small PR with a failing test case that can be used as a starting point. ## Pull requests Contributions are submitted, reviewed, and accepted using GitHub pull requests. Please refer to [this article][using pull requests] for details and adhere to the following rules to make the process as smooth as possible: * Make a new branch for every feature you're working on. * Make small and clean pull requests that are easy to review but make sure they do add value by themselves. * Add tests for any new functionality and run the test suite (`cmake --build build --target pytest`) to ensure that no existing features break. * Please run [`pre-commit`][pre-commit] to check your code matches the project style. (Note that `gawk` is required.) Use `pre-commit run --all-files` before committing (or use installed-mode, check pre-commit docs) to verify your code passes before pushing to save time. * This project has a strong focus on providing general solutions using a minimal amount of code, thus small pull requests are greatly preferred. ### Licensing of contributions pybind11 is provided under a BSD-style license that can be found in the ``LICENSE`` file. By using, distributing, or contributing to this project, you agree to the terms and conditions of this license. You are under no obligation whatsoever to provide any bug fixes, patches, or upgrades to the features, functionality or performance of the source code ("Enhancements") to anyone; however, if you choose to make your Enhancements available either publicly, or directly to the author of this software, without imposing a separate written license agreement for such Enhancements, then you hereby grant the following license: a non-exclusive, royalty-free perpetual license to install, use, modify, prepare derivative works, incorporate into other computer software, distribute, and sublicense such enhancements or derivative works thereof, in binary and source code form. ## Development of pybind11 ### Quick setup To setup a quick development environment, use [`nox`](https://nox.thea.codes). This will allow you to do some common tasks with minimal setup effort, but will take more time to run and be less flexible than a full development environment. If you use [`pipx run nox`](https://pipx.pypa.io), you don't even need to install `nox`. Examples: ```bash # List all available sessions nox -l # Run linters nox -s lint # Run tests on Python 3.9 nox -s tests-3.9 # Build and preview docs nox -s docs -- serve # Build SDists and wheels nox -s build ``` ### Full setup To setup an ideal development environment, run the following commands on a system with CMake 3.14+: ```bash python3 -m venv venv source venv/bin/activate pip install -r tests/requirements.txt cmake -S . -B build -DDOWNLOAD_CATCH=ON -DDOWNLOAD_EIGEN=ON cmake --build build -j4 ``` Tips: * You can use `virtualenv` (from PyPI) instead of `venv` (which is Python 3 only). * You can select any name for your environment folder; if it contains "env" it will be ignored by git. * If you don’t have CMake 3.14+, just add “cmake” to the pip install command. * You can use `-DPYBIND11_FINDPYTHON=ON` to use FindPython on CMake 3.12+ * In classic mode, you may need to set `-DPYTHON_EXECUTABLE=/path/to/python`. FindPython uses `-DPython_ROOT_DIR=/path/to` or `-DPython_EXECUTABLE=/path/to/python`. ### Configuration options In CMake, configuration options are given with “-D”. Options are stored in the build directory, in the `CMakeCache.txt` file, so they are remembered for each build directory. Two selections are special - the generator, given with `-G`, and the compiler, which is selected based on environment variables `CXX` and similar, or `-DCMAKE_CXX_COMPILER=`. Unlike the others, these cannot be changed after the initial run. The valid options are: * `-DCMAKE_BUILD_TYPE`: Release, Debug, MinSizeRel, RelWithDebInfo * `-DPYBIND11_FINDPYTHON=ON`: Use CMake 3.12+’s FindPython instead of the classic, deprecated, custom FindPythonLibs * `-DPYBIND11_NOPYTHON=ON`: Disable all Python searching (disables tests) * `-DBUILD_TESTING=ON`: Enable the tests * `-DDOWNLOAD_CATCH=ON`: Download catch to build the C++ tests * `-DOWNLOAD_EIGEN=ON`: Download Eigen for the NumPy tests * `-DPYBIND11_INSTALL=ON/OFF`: Enable the install target (on by default for the master project) * `-DUSE_PYTHON_INSTALL_DIR=ON`: Try to install into the python dir
A few standard CMake tricks: (click to expand)

* Use `cmake --build build -v` to see the commands used to build the files. * Use `cmake build -LH` to list the CMake options with help. * Use `ccmake` if available to see a curses (terminal) gui, or `cmake-gui` for a completely graphical interface (not present in the PyPI package). * Use `cmake --build build -j12` to build with 12 cores (for example). * Use `-G` and the name of a generator to use something different. `cmake --help` lists the generators available. - On Unix, setting `CMAKE_GENERATER=Ninja` in your environment will give you automatic mulithreading on all your CMake projects! * Open the `CMakeLists.txt` with QtCreator to generate for that IDE. * You can use `-DCMAKE_EXPORT_COMPILE_COMMANDS=ON` to generate the `.json` file that some tools expect.

To run the tests, you can "build" the check target: ```bash cmake --build build --target check ``` `--target` can be spelled `-t` in CMake 3.15+. You can also run individual tests with these targets: * `pytest`: Python tests only, using the [pytest](https://docs.pytest.org/en/stable/) framework * `cpptest`: C++ tests only * `test_cmake_build`: Install / subdirectory tests If you want to build just a subset of tests, use `-DPYBIND11_TEST_OVERRIDE="test_callbacks.cpp;test_pickling.cpp"`. If this is empty, all tests will be built. You may also pass flags to the `pytest` target by editing `tests/pytest.ini` or by using the `PYTEST_ADDOPTS` environment variable (see [`pytest` docs](https://docs.pytest.org/en/2.7.3/customize.html#adding-default-options)). As an example: ```bash env PYTEST_ADDOPTS="--capture=no --exitfirst" \ cmake --build build --target pytest # Or using abbreviated flags env PYTEST_ADDOPTS="-s -x" cmake --build build --target pytest ``` ### Formatting All formatting is handled by pre-commit. Install with brew (macOS) or pip (any OS): ```bash # Any OS python3 -m pip install pre-commit # OR macOS with homebrew: brew install pre-commit ``` Then, you can run it on the items you've added to your staging area, or all files: ```bash pre-commit run # OR pre-commit run --all-files ``` And, if you want to always use it, you can install it as a git hook (hence the name, pre-commit): ```bash pre-commit install ``` ### Clang-Format As of v2.6.2, pybind11 ships with a [`clang-format`][clang-format] configuration file at the top level of the repo (the filename is `.clang-format`). Currently, formatting is NOT applied automatically, but manually using `clang-format` for newly developed files is highly encouraged. To check if a file needs formatting: ```bash clang-format -style=file --dry-run some.cpp ``` The output will show things to be fixed, if any. To actually format the file: ```bash clang-format -style=file -i some.cpp ``` Note that the `-style-file` option searches the parent directories for the `.clang-format` file, i.e. the commands above can be run in any subdirectory of the pybind11 repo. ### Clang-Tidy [`clang-tidy`][clang-tidy] performs deeper static code analyses and is more complex to run, compared to `clang-format`, but support for `clang-tidy` is built into the pybind11 CMake configuration. To run `clang-tidy`, the following recipe should work. Run the `docker` command from the top-level directory inside your pybind11 git clone. Files will be modified in place, so you can use git to monitor the changes. ```bash docker run --rm -v $PWD:/mounted_pybind11 -it silkeh/clang:12 apt-get update && apt-get install -y python3-dev python3-pytest cmake -S /mounted_pybind11/ -B build -DCMAKE_CXX_CLANG_TIDY="$(which clang-tidy);-fix" -DDOWNLOAD_EIGEN=ON -DDOWNLOAD_CATCH=ON -DCMAKE_CXX_STANDARD=17 cmake --build build -j 2 -- --keep-going ``` ### Include what you use To run include what you use, install (`brew install include-what-you-use` on macOS), then run: ```bash cmake -S . -B build-iwyu -DCMAKE_CXX_INCLUDE_WHAT_YOU_USE=$(which include-what-you-use) cmake --build build ``` The report is sent to stderr; you can pipe it into a file if you wish. ### Build recipes This builds with the Intel compiler (assuming it is in your path, along with a recent CMake and Python 3): ```bash python3 -m venv venv . venv/bin/activate pip install pytest cmake -S . -B build-intel -DCMAKE_CXX_COMPILER=$(which icpc) -DDOWNLOAD_CATCH=ON -DDOWNLOAD_EIGEN=ON -DPYBIND11_WERROR=ON ``` This will test the PGI compilers: ```bash docker run --rm -it -v $PWD:/pybind11 nvcr.io/hpc/pgi-compilers:ce apt-get update && apt-get install -y python3-dev python3-pip python3-pytest wget -qO- "https://cmake.org/files/v3.18/cmake-3.18.2-Linux-x86_64.tar.gz" | tar --strip-components=1 -xz -C /usr/local cmake -S pybind11/ -B build cmake --build build ``` ### Explanation of the SDist/wheel building design > These details below are _only_ for packaging the Python sources from git. The > SDists and wheels created do not have any extra requirements at all and are > completely normal. The main objective of the packaging system is to create SDists (Python's source distribution packages) and wheels (Python's binary distribution packages) that include everything that is needed to work with pybind11, and which can be installed without any additional dependencies. This is more complex than it appears: in order to support CMake as a first class language even when using the PyPI package, they must include the _generated_ CMake files (so as not to require CMake when installing the `pybind11` package itself). They should also provide the option to install to the "standard" location (`/include/pybind11` and `/share/cmake/pybind11`) so they are easy to find with CMake, but this can cause problems if you are not an environment or using ``pyproject.toml`` requirements. This was solved by having two packages; the "nice" pybind11 package that stores the includes and CMake files inside the package, that you get access to via functions in the package, and a `pybind11-global` package that can be included via `pybind11[global]` if you want the more invasive but discoverable file locations. If you want to install or package the GitHub source, it is best to have Pip 10 or newer on Windows, macOS, or Linux (manylinux1 compatible, includes most distributions). You can then build the SDists, or run any procedure that makes SDists internally, like making wheels or installing. ```bash # Editable development install example python3 -m pip install -e . ``` Since Pip itself does not have an `sdist` command (it does have `wheel` and `install`), you may want to use the upcoming `build` package: ```bash python3 -m pip install build # Normal package python3 -m build -s . # Global extra PYBIND11_GLOBAL_SDIST=1 python3 -m build -s . ``` If you want to use the classic "direct" usage of `python setup.py`, you will need CMake 3.15+ and either `make` or `ninja` preinstalled (possibly via `pip install cmake ninja`), since directly running Python on `setup.py` cannot pick up and install `pyproject.toml` requirements. As long as you have those two things, though, everything works the way you would expect: ```bash # Normal package python3 setup.py sdist # Global extra PYBIND11_GLOBAL_SDIST=1 python3 setup.py sdist ``` A detailed explanation of the build procedure design for developers wanting to work on or maintain the packaging system is as follows: #### 1. Building from the source directory When you invoke any `setup.py` command from the source directory, including `pip wheel .` and `pip install .`, you will activate a full source build. This is made of the following steps: 1. If the tool is PEP 518 compliant, like Pip 10+, it will create a temporary virtual environment and install the build requirements (mostly CMake) into it. (if you are not on Windows, macOS, or a manylinux compliant system, you can disable this with `--no-build-isolation` as long as you have CMake 3.15+ installed) 2. The environment variable `PYBIND11_GLOBAL_SDIST` is checked - if it is set and truthy, this will be make the accessory `pybind11-global` package, instead of the normal `pybind11` package. This package is used for installing the files directly to your environment root directory, using `pybind11[global]`. 2. `setup.py` reads the version from `pybind11/_version.py` and verifies it matches `includes/pybind11/detail/common.h`. 3. CMake is run with `-DCMAKE_INSTALL_PREIFX=pybind11`. Since the CMake install procedure uses only relative paths and is identical on all platforms, these files are valid as long as they stay in the correct relative position to the includes. `pybind11/share/cmake/pybind11` has the CMake files, and `pybind11/include` has the includes. The build directory is discarded. 4. Simpler files are placed in the SDist: `tools/setup_*.py.in`, `tools/pyproject.toml` (`main` or `global`) 5. The package is created by running the setup function in the `tools/setup_*.py`. `setup_main.py` fills in Python packages, and `setup_global.py` fills in only the data/header slots. 6. A context manager cleans up the temporary CMake install directory (even if an error is thrown). ### 2. Building from SDist Since the SDist has the rendered template files in `tools` along with the includes and CMake files in the correct locations, the builds are completely trivial and simple. No extra requirements are required. You can even use Pip 9 if you really want to. [pre-commit]: https://pre-commit.com [clang-format]: https://clang.llvm.org/docs/ClangFormat.html [clang-tidy]: https://clang.llvm.org/extra/clang-tidy/ [pybind11.readthedocs.org]: http://pybind11.readthedocs.org/en/latest [issue tracker]: https://github.com/pybind/pybind11/issues [gitter]: https://gitter.im/pybind/Lobby [using pull requests]: https://help.github.com/articles/using-pull-requests