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2c4cd8419d
* Add AutoWIG to list of binding generators
294 lines
12 KiB
ReStructuredText
294 lines
12 KiB
ReStructuredText
.. _compiling:
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Build systems
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#############
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Building with setuptools
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========================
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For projects on PyPI, building with setuptools is the way to go. Sylvain Corlay
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has kindly provided an example project which shows how to set up everything,
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including automatic generation of documentation using Sphinx. Please refer to
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the [python_example]_ repository.
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.. [python_example] https://github.com/pybind/python_example
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Building with cppimport
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========================
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[cppimport]_ is a small Python import hook that determines whether there is a C++
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source file whose name matches the requested module. If there is, the file is
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compiled as a Python extension using pybind11 and placed in the same folder as
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the C++ source file. Python is then able to find the module and load it.
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.. [cppimport] https://github.com/tbenthompson/cppimport
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.. _cmake:
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Building with CMake
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===================
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For C++ codebases that have an existing CMake-based build system, a Python
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extension module can be created with just a few lines of code:
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.. code-block:: cmake
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cmake_minimum_required(VERSION 2.8.12)
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project(example)
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add_subdirectory(pybind11)
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pybind11_add_module(example example.cpp)
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This assumes that the pybind11 repository is located in a subdirectory named
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:file:`pybind11` and that the code is located in a file named :file:`example.cpp`.
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The CMake command ``add_subdirectory`` will import the pybind11 project which
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provides the ``pybind11_add_module`` function. It will take care of all the
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details needed to build a Python extension module on any platform.
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A working sample project, including a way to invoke CMake from :file:`setup.py` for
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PyPI integration, can be found in the [cmake_example]_ repository.
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.. [cmake_example] https://github.com/pybind/cmake_example
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pybind11_add_module
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-------------------
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To ease the creation of Python extension modules, pybind11 provides a CMake
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function with the following signature:
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.. code-block:: cmake
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pybind11_add_module(<name> [MODULE | SHARED] [EXCLUDE_FROM_ALL]
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[NO_EXTRAS] [SYSTEM] [THIN_LTO] source1 [source2 ...])
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This function behaves very much like CMake's builtin ``add_library`` (in fact,
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it's a wrapper function around that command). It will add a library target
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called ``<name>`` to be built from the listed source files. In addition, it
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will take care of all the Python-specific compiler and linker flags as well
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as the OS- and Python-version-specific file extension. The produced target
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``<name>`` can be further manipulated with regular CMake commands.
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``MODULE`` or ``SHARED`` may be given to specify the type of library. If no
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type is given, ``MODULE`` is used by default which ensures the creation of a
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Python-exclusive module. Specifying ``SHARED`` will create a more traditional
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dynamic library which can also be linked from elsewhere. ``EXCLUDE_FROM_ALL``
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removes this target from the default build (see CMake docs for details).
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Since pybind11 is a template library, ``pybind11_add_module`` adds compiler
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flags to ensure high quality code generation without bloat arising from long
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symbol names and duplication of code in different translation units. It
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sets default visibility to *hidden*, which is required for some pybind11
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features and functionality when attempting to load multiple pybind11 modules
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compiled under different pybind11 versions. It also adds additional flags
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enabling LTO (Link Time Optimization) and strip unneeded symbols. See the
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:ref:`FAQ entry <faq:symhidden>` for a more detailed explanation. These
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latter optimizations are never applied in ``Debug`` mode. If ``NO_EXTRAS`` is
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given, they will always be disabled, even in ``Release`` mode. However, this
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will result in code bloat and is generally not recommended.
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By default, pybind11 and Python headers will be included with ``-I``. In order
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to include pybind11 as system library, e.g. to avoid warnings in downstream
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code with warn-levels outside of pybind11's scope, set the option ``SYSTEM``.
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As stated above, LTO is enabled by default. Some newer compilers also support
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different flavors of LTO such as `ThinLTO`_. Setting ``THIN_LTO`` will cause
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the function to prefer this flavor if available. The function falls back to
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regular LTO if ``-flto=thin`` is not available.
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.. _ThinLTO: http://clang.llvm.org/docs/ThinLTO.html
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Configuration variables
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-----------------------
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By default, pybind11 will compile modules with the C++14 standard, if available
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on the target compiler, falling back to C++11 if C++14 support is not
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available. Note, however, that this default is subject to change: future
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pybind11 releases are expected to migrate to newer C++ standards as they become
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available. To override this, the standard flag can be given explicitly in
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`CMAKE_CXX_STANDARD <https://cmake.org/cmake/help/v3.17/variable/CMAKE_CXX_STANDARD.html>`_:
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.. code-block:: cmake
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# Use just one of these:
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set(CMAKE_CXX_STANDARD 11)
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set(CMAKE_CXX_STANDARD 14)
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set(CMAKE_CXX_STANDARD 17) # Experimental C++17 support
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add_subdirectory(pybind11) # or find_package(pybind11)
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Note that this and all other configuration variables must be set **before** the
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call to ``add_subdirectory`` or ``find_package``. The variables can also be set
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when calling CMake from the command line using the ``-D<variable>=<value>`` flag.
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The target Python version can be selected by setting ``PYBIND11_PYTHON_VERSION``
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or an exact Python installation can be specified with ``PYTHON_EXECUTABLE``.
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For example:
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.. code-block:: bash
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cmake -DPYBIND11_PYTHON_VERSION=3.6 ..
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# or
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cmake -DPYTHON_EXECUTABLE=path/to/python ..
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find_package vs. add_subdirectory
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---------------------------------
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For CMake-based projects that don't include the pybind11 repository internally,
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an external installation can be detected through ``find_package(pybind11)``.
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See the `Config file`_ docstring for details of relevant CMake variables.
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.. code-block:: cmake
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cmake_minimum_required(VERSION 2.8.12)
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project(example)
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find_package(pybind11 REQUIRED)
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pybind11_add_module(example example.cpp)
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Note that ``find_package(pybind11)`` will only work correctly if pybind11
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has been correctly installed on the system, e. g. after downloading or cloning
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the pybind11 repository :
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.. code-block:: bash
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cd pybind11
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mkdir build
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cd build
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cmake ..
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make install
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Once detected, the aforementioned ``pybind11_add_module`` can be employed as
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before. The function usage and configuration variables are identical no matter
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if pybind11 is added as a subdirectory or found as an installed package. You
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can refer to the same [cmake_example]_ repository for a full sample project
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-- just swap out ``add_subdirectory`` for ``find_package``.
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.. _Config file: https://github.com/pybind/pybind11/blob/master/tools/pybind11Config.cmake.in
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Advanced: interface library target
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----------------------------------
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When using a version of CMake greater than 3.0, pybind11 can additionally
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be used as a special *interface library* . The target ``pybind11::module``
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is available with pybind11 headers, Python headers and libraries as needed,
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and C++ compile definitions attached. This target is suitable for linking
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to an independently constructed (through ``add_library``, not
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``pybind11_add_module``) target in the consuming project.
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.. code-block:: cmake
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cmake_minimum_required(VERSION 3.0)
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project(example)
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find_package(pybind11 REQUIRED) # or add_subdirectory(pybind11)
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add_library(example MODULE main.cpp)
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target_link_libraries(example PRIVATE pybind11::module)
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set_target_properties(example PROPERTIES PREFIX "${PYTHON_MODULE_PREFIX}"
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SUFFIX "${PYTHON_MODULE_EXTENSION}")
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.. warning::
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Since pybind11 is a metatemplate library, it is crucial that certain
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compiler flags are provided to ensure high quality code generation. In
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contrast to the ``pybind11_add_module()`` command, the CMake interface
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library only provides the *minimal* set of parameters to ensure that the
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code using pybind11 compiles, but it does **not** pass these extra compiler
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flags (i.e. this is up to you).
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These include Link Time Optimization (``-flto`` on GCC/Clang/ICPC, ``/GL``
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and ``/LTCG`` on Visual Studio) and .OBJ files with many sections on Visual
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Studio (``/bigobj``). The :ref:`FAQ <faq:symhidden>` contains an
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explanation on why these are needed.
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Embedding the Python interpreter
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--------------------------------
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In addition to extension modules, pybind11 also supports embedding Python into
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a C++ executable or library. In CMake, simply link with the ``pybind11::embed``
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target. It provides everything needed to get the interpreter running. The Python
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headers and libraries are attached to the target. Unlike ``pybind11::module``,
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there is no need to manually set any additional properties here. For more
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information about usage in C++, see :doc:`/advanced/embedding`.
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.. code-block:: cmake
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cmake_minimum_required(VERSION 3.0)
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project(example)
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find_package(pybind11 REQUIRED) # or add_subdirectory(pybind11)
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add_executable(example main.cpp)
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target_link_libraries(example PRIVATE pybind11::embed)
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.. _building_manually:
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Building manually
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=================
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pybind11 is a header-only library, hence it is not necessary to link against
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any special libraries and there are no intermediate (magic) translation steps.
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On Linux, you can compile an example such as the one given in
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:ref:`simple_example` using the following command:
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.. code-block:: bash
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$ c++ -O3 -Wall -shared -std=c++11 -fPIC `python3 -m pybind11 --includes` example.cpp -o example`python3-config --extension-suffix`
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The flags given here assume that you're using Python 3. For Python 2, just
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change the executable appropriately (to ``python`` or ``python2``).
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The ``python3 -m pybind11 --includes`` command fetches the include paths for
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both pybind11 and Python headers. This assumes that pybind11 has been installed
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using ``pip`` or ``conda``. If it hasn't, you can also manually specify
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``-I <path-to-pybind11>/include`` together with the Python includes path
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``python3-config --includes``.
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Note that Python 2.7 modules don't use a special suffix, so you should simply
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use ``example.so`` instead of ``example`python3-config --extension-suffix```.
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Besides, the ``--extension-suffix`` option may or may not be available, depending
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on the distribution; in the latter case, the module extension can be manually
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set to ``.so``.
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On Mac OS: the build command is almost the same but it also requires passing
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the ``-undefined dynamic_lookup`` flag so as to ignore missing symbols when
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building the module:
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.. code-block:: bash
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$ c++ -O3 -Wall -shared -std=c++11 -undefined dynamic_lookup `python3 -m pybind11 --includes` example.cpp -o example`python3-config --extension-suffix`
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In general, it is advisable to include several additional build parameters
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that can considerably reduce the size of the created binary. Refer to section
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:ref:`cmake` for a detailed example of a suitable cross-platform CMake-based
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build system that works on all platforms including Windows.
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.. note::
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On Linux and macOS, it's better to (intentionally) not link against
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``libpython``. The symbols will be resolved when the extension library
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is loaded into a Python binary. This is preferable because you might
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have several different installations of a given Python version (e.g. the
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system-provided Python, and one that ships with a piece of commercial
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software). In this way, the plugin will work with both versions, instead
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of possibly importing a second Python library into a process that already
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contains one (which will lead to a segfault).
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Generating binding code automatically
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=====================================
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The ``Binder`` project is a tool for automatic generation of pybind11 binding
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code by introspecting existing C++ codebases using LLVM/Clang. See the
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[binder]_ documentation for details.
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.. [binder] http://cppbinder.readthedocs.io/en/latest/about.html
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[AutoWIG]_ is a Python library that wraps automatically compiled libraries into
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high-level languages. It parses C++ code using LLVM/Clang technologies and
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generates the wrappers using the Mako templating engine. The approach is automatic,
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extensible, and applies to very complex C++ libraries, composed of thousands of
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classes or incorporating modern meta-programming constructs.
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.. [AutoWIG] https://github.com/StatisKit/AutoWIG
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