165 lines
6.4 KiB
ReStructuredText
165 lines
6.4 KiB
ReStructuredText
.. highlightlang:: c
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.. _building:
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*****************************
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Building C and C++ Extensions
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*****************************
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A C extension for CPython is a shared library (e.g. a ``.so`` file on Linux,
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``.pyd`` on Windows), which exports an *initialization function*.
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To be importable, the shared library must be available on :envvar:`PYTHONPATH`,
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and must be named after the module name, with an appropriate extension.
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When using distutils, the correct filename is generated automatically.
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The initialization function has the signature:
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.. c:function:: PyObject* PyInit_modulename(void)
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It returns either a fully-initialized module, or a :c:type:`PyModuleDef`
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instance. See :ref:`initializing-modules` for details.
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.. highlightlang:: python
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For modules with ASCII-only names, the function must be named
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``PyInit_<modulename>``, with ``<modulename>`` replaced by the name of the
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module. When using :ref:`multi-phase-initialization`, non-ASCII module names
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are allowed. In this case, the initialization function name is
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``PyInitU_<modulename>``, with ``<modulename>`` encoded using Python's
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*punycode* encoding with hyphens replaced by underscores. In Python::
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def initfunc_name(name):
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try:
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suffix = b'_' + name.encode('ascii')
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except UnicodeEncodeError:
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suffix = b'U_' + name.encode('punycode').replace(b'-', b'_')
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return b'PyInit' + suffix
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It is possible to export multiple modules from a single shared library by
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defining multiple initialization functions. However, importing them requires
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using symbolic links or a custom importer, because by default only the
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function corresponding to the filename is found.
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See the *"Multiple modules in one library"* section in :pep:`489` for details.
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.. highlightlang:: c
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Building C and C++ Extensions with distutils
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============================================
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.. sectionauthor:: Martin v. Löwis <martin@v.loewis.de>
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Extension modules can be built using distutils, which is included in Python.
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Since distutils also supports creation of binary packages, users don't
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necessarily need a compiler and distutils to install the extension.
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A distutils package contains a driver script, :file:`setup.py`. This is a plain
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Python file, which, in the most simple case, could look like this::
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from distutils.core import setup, Extension
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module1 = Extension('demo',
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sources = ['demo.c'])
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setup (name = 'PackageName',
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version = '1.0',
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description = 'This is a demo package',
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ext_modules = [module1])
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With this :file:`setup.py`, and a file :file:`demo.c`, running ::
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python setup.py build
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will compile :file:`demo.c`, and produce an extension module named ``demo`` in
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the :file:`build` directory. Depending on the system, the module file will end
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up in a subdirectory :file:`build/lib.system`, and may have a name like
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:file:`demo.so` or :file:`demo.pyd`.
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In the :file:`setup.py`, all execution is performed by calling the ``setup``
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function. This takes a variable number of keyword arguments, of which the
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example above uses only a subset. Specifically, the example specifies
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meta-information to build packages, and it specifies the contents of the
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package. Normally, a package will contain additional modules, like Python
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source modules, documentation, subpackages, etc. Please refer to the distutils
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documentation in :ref:`distutils-index` to learn more about the features of
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distutils; this section explains building extension modules only.
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It is common to pre-compute arguments to :func:`setup`, to better structure the
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driver script. In the example above, the ``ext_modules`` argument to
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:func:`~distutils.core.setup` is a list of extension modules, each of which is
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an instance of
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the :class:`~distutils.extension.Extension`. In the example, the instance
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defines an extension named ``demo`` which is build by compiling a single source
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file, :file:`demo.c`.
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In many cases, building an extension is more complex, since additional
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preprocessor defines and libraries may be needed. This is demonstrated in the
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example below. ::
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from distutils.core import setup, Extension
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module1 = Extension('demo',
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define_macros = [('MAJOR_VERSION', '1'),
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('MINOR_VERSION', '0')],
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include_dirs = ['/usr/local/include'],
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libraries = ['tcl83'],
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library_dirs = ['/usr/local/lib'],
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sources = ['demo.c'])
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setup (name = 'PackageName',
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version = '1.0',
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description = 'This is a demo package',
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author = 'Martin v. Loewis',
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author_email = 'martin@v.loewis.de',
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url = 'https://docs.python.org/extending/building',
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long_description = '''
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This is really just a demo package.
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''',
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ext_modules = [module1])
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In this example, :func:`~distutils.core.setup` is called with additional
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meta-information, which
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is recommended when distribution packages have to be built. For the extension
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itself, it specifies preprocessor defines, include directories, library
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directories, and libraries. Depending on the compiler, distutils passes this
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information in different ways to the compiler. For example, on Unix, this may
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result in the compilation commands ::
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gcc -DNDEBUG -g -O3 -Wall -Wstrict-prototypes -fPIC -DMAJOR_VERSION=1 -DMINOR_VERSION=0 -I/usr/local/include -I/usr/local/include/python2.2 -c demo.c -o build/temp.linux-i686-2.2/demo.o
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gcc -shared build/temp.linux-i686-2.2/demo.o -L/usr/local/lib -ltcl83 -o build/lib.linux-i686-2.2/demo.so
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These lines are for demonstration purposes only; distutils users should trust
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that distutils gets the invocations right.
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.. _distributing:
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Distributing your extension modules
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===================================
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When an extension has been successfully build, there are three ways to use it.
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End-users will typically want to install the module, they do so by running ::
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python setup.py install
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Module maintainers should produce source packages; to do so, they run ::
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python setup.py sdist
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In some cases, additional files need to be included in a source distribution;
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this is done through a :file:`MANIFEST.in` file; see :ref:`manifest` for details.
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If the source distribution has been build successfully, maintainers can also
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create binary distributions. Depending on the platform, one of the following
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commands can be used to do so. ::
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python setup.py bdist_wininst
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python setup.py bdist_rpm
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python setup.py bdist_dumb
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