doc/source/installation.rst - platform/external/python/cffi - Git at Google

 =======================================================
 Installation and Status
 =======================================================

 Quick installation for CPython (cffi is distributed with PyPy):

 * ``pip install cffi``

 * or get the source code via the `Python Package Index`__.

 .. __: http://pypi.python.org/pypi/cffi

 In more details:

 This code has been developed on Linux, but should work on any POSIX
 platform as well as on Windows 32 and 64.  (It relies occasionally on
 libffi, so it depends on libffi being bug-free; this may not be fully
 the case on some of the more exotic platforms.)

 CFFI supports CPython 2.6, 2.7, 3.x (tested with 3.2 to 3.4); and is
 distributed with PyPy (CFFI 1.0 is distributed with and requires
 PyPy 2.6).

 The core speed of CFFI is better than ctypes, with import times being
 either lower if you use the post-1.0 features, or much higher if you
 don't.  The wrapper Python code you typically need to write around the
 raw CFFI interface slows things down on CPython, but not unreasonably
 so.  On PyPy, this wrapper code has a minimal impact thanks to the JIT
 compiler.  This makes CFFI the recommended way to interface with C
 libraries on PyPy.

 Requirements:

 * CPython 2.6 or 2.7 or 3.x, or PyPy (PyPy 2.0 for the earliest
   versions of CFFI; or PyPy 2.6 for CFFI 1.0).

 * in some cases you need to be able to compile C extension modules.
   On non-Windows platforms, this usually means installing the package
   ``python-dev``.  Refer to the appropriate docs for your OS.

 * on CPython, on non-Windows platforms, you also need to install
   ``libffi-dev`` in order to compile CFFI itself.

 * pycparser >= 2.06: https://github.com/eliben/pycparser (automatically
   tracked by ``pip install cffi``).

 * `py.test`_ is needed to run the tests of CFFI itself.

 .. _`py.test`: http://pypi.python.org/pypi/pytest

 Download and Installation:

 * https://pypi.python.org/pypi/cffi

 * Checksums of the "source" package version 1.12.2:

    - MD5: 4d7dcb6c7c738c15d2ece9bd4c5f86da

    - SHA: 5f579d4980cbcc8aac592721f714ef6a64370ab1

    - SHA256: e113878a446c6228669144ae8a56e268c91b7f1fafae927adc4879d9849e0ea7

 * Or grab the most current version from the `Bitbucket page`_:
   ``hg clone https://bitbucket.org/cffi/cffi``

 * ``python setup.py install`` or ``python setup_base.py install``
   (should work out of the box on Linux or Windows; see below for
   `MacOS X`_ or `Windows 64`_.)

 * running the tests: ``py.test  c/  testing/`` (if you didn't
   install cffi yet, you need first ``python setup_base.py build_ext -f
   -i``)

 .. _`Bitbucket page`: https://bitbucket.org/cffi/cffi

 Demos:

 * The `demo`_ directory contains a number of small and large demos
   of using ``cffi``.

 * The documentation below might be sketchy on details; for now the
   ultimate reference is given by the tests, notably
   `testing/cffi1/test_verify1.py`_ and `testing/cffi0/backend_tests.py`_.

 .. _`demo`: https://bitbucket.org/cffi/cffi/src/default/demo
 .. _`testing/cffi1/test_verify1.py`: https://bitbucket.org/cffi/cffi/src/default/testing/cffi1/test_verify1.py
 .. _`testing/cffi0/backend_tests.py`: https://bitbucket.org/cffi/cffi/src/default/testing/cffi0/backend_tests.py


 Platform-specific instructions
 ------------------------------

 ``libffi`` is notoriously messy to install and use --- to the point that
 CPython includes its own copy to avoid relying on external packages.
 CFFI does the same for Windows, but not for other platforms (which should
 have their own working libffi's).
 Modern Linuxes work out of the box thanks to ``pkg-config``.  Here are some
 (user-supplied) instructions for other platforms.


 MacOS X
 +++++++

 **Homebrew** (Thanks David Griffin for this)

 1) Install homebrew: http://brew.sh

 2) Run the following commands in a terminal

 ::

     brew install pkg-config libffi
     PKG_CONFIG_PATH=/usr/local/opt/libffi/lib/pkgconfig pip install cffi


 Alternatively, **on OS/X 10.6** (Thanks Juraj Sukop for this)

 For building libffi you can use the default install path, but then, in
 ``setup.py`` you need to change::

     include_dirs = []

 to::

     include_dirs = ['/usr/local/lib/libffi-3.0.11/include']

 Then running ``python setup.py build`` complains about "fatal error: error writing to -: Broken pipe", which can be fixed by running::

     ARCHFLAGS="-arch i386 -arch x86_64" python setup.py build

 as described here_.

 .. _here: http://superuser.com/questions/259278/python-2-6-1-pycrypto-2-3-pypi-package-broken-pipe-during-build


 Windows (regular 32-bit)
 ++++++++++++++++++++++++

 Win32 works and is tested at least each official release.

 The recommended C compiler compatible with Python 2.7 is this one:
 http://www.microsoft.com/en-us/download/details.aspx?id=44266
 There is a known problem with distutils on Python 2.7, as
 explained in https://bugs.python.org/issue23246, and the same
 problem applies whenever you want to run compile() to build a dll with
 this specific compiler suite download.
 ``import setuptools`` might help, but YMMV

 For Python 3.4 and beyond:
 https://www.visualstudio.com/en-us/downloads/visual-studio-2015-ctp-vs


 Windows 64
 ++++++++++

 Win64 received very basic testing and we applied a few essential
 fixes in cffi 0.7. The comment above applies for Python 2.7 on
 Windows 64 as well. Please report any other issue.

 Note as usual that this is only about running the 64-bit version of
 Python on the 64-bit OS.  If you're running the 32-bit version (the
 common case apparently), then you're running Win32 as far as we're
 concerned.

 .. _`issue 9`: https://bitbucket.org/cffi/cffi/issue/9
 .. _`Python issue 7546`: http://bugs.python.org/issue7546


 Linux and OS/X: UCS2 versus UCS4
 ++++++++++++++++++++++++++++++++

 This is about getting an ImportError about ``_cffi_backend.so`` with a
 message like ``Symbol not found: _PyUnicodeUCS2_AsASCIIString``.  This
 error occurs in Python 2 as soon as you mix "ucs2" and "ucs4" builds of
 Python.  It means that you are now running a Python compiled with
 "ucs4", but the extension module ``_cffi_backend.so`` was compiled by a
 different Python: one that was running "ucs2".  (If the opposite problem
 occurs, you get an error about ``_PyUnicodeUCS4_AsASCIIString``
 instead.)

 If you are using ``pyenv``, then see
 https://github.com/yyuu/pyenv/issues/257.

 More generally, the solution that should always work is to download the
 sources of CFFI (instead of a prebuilt binary) and make sure that you
 build it with the same version of Python than the one that will use it.
 For example, with virtualenv:

 * ``virtualenv ~/venv``

 * ``cd ~/path/to/sources/of/cffi``

 * ``~/venv/bin/python setup.py build --force`` # forcing a rebuild to
   make sure

 * ``~/venv/bin/python setup.py install``

 This will compile and install CFFI in this virtualenv, using the
 Python from this virtualenv.


 NetBSD
 ++++++

 You need to make sure you have an up-to-date version of libffi, which
 fixes some bugs.
	=======================================================
	Installation and Status
	=======================================================

	Quick installation for CPython (cffi is distributed with PyPy):

	* ``pip install cffi``

	* or get the source code via the `Python Package Index`__.

	.. __: http://pypi.python.org/pypi/cffi

	In more details:

	This code has been developed on Linux, but should work on any POSIX
	platform as well as on Windows 32 and 64. (It relies occasionally on
	libffi, so it depends on libffi being bug-free; this may not be fully
	the case on some of the more exotic platforms.)

	CFFI supports CPython 2.6, 2.7, 3.x (tested with 3.2 to 3.4); and is
	distributed with PyPy (CFFI 1.0 is distributed with and requires
	PyPy 2.6).

	The core speed of CFFI is better than ctypes, with import times being
	either lower if you use the post-1.0 features, or much higher if you
	don't. The wrapper Python code you typically need to write around the
	raw CFFI interface slows things down on CPython, but not unreasonably
	so. On PyPy, this wrapper code has a minimal impact thanks to the JIT
	compiler. This makes CFFI the recommended way to interface with C
	libraries on PyPy.

	Requirements:

	* CPython 2.6 or 2.7 or 3.x, or PyPy (PyPy 2.0 for the earliest
	versions of CFFI; or PyPy 2.6 for CFFI 1.0).

	* in some cases you need to be able to compile C extension modules.
	On non-Windows platforms, this usually means installing the package
	``python-dev``. Refer to the appropriate docs for your OS.

	* on CPython, on non-Windows platforms, you also need to install
	``libffi-dev`` in order to compile CFFI itself.

	* pycparser >= 2.06: https://github.com/eliben/pycparser (automatically
	tracked by ``pip install cffi``).

	* `py.test`_ is needed to run the tests of CFFI itself.

	.. _`py.test`: http://pypi.python.org/pypi/pytest

	Download and Installation:

	* https://pypi.python.org/pypi/cffi

	* Checksums of the "source" package version 1.12.2:

	- MD5: 4d7dcb6c7c738c15d2ece9bd4c5f86da

	- SHA: 5f579d4980cbcc8aac592721f714ef6a64370ab1

	- SHA256: e113878a446c6228669144ae8a56e268c91b7f1fafae927adc4879d9849e0ea7

	* Or grab the most current version from the `Bitbucket page`_:
	``hg clone https://bitbucket.org/cffi/cffi``

	* ``python setup.py install`` or ``python setup_base.py install``
	(should work out of the box on Linux or Windows; see below for
	`MacOS X`_ or `Windows 64`_.)

	* running the tests: ``py.test c/ testing/`` (if you didn't
	install cffi yet, you need first ``python setup_base.py build_ext -f
	-i``)

	.. _`Bitbucket page`: https://bitbucket.org/cffi/cffi

	Demos:

	* The `demo`_ directory contains a number of small and large demos
	of using ``cffi``.

	* The documentation below might be sketchy on details; for now the
	ultimate reference is given by the tests, notably
	`testing/cffi1/test_verify1.py`_ and `testing/cffi0/backend_tests.py`_.

	.. _`demo`: https://bitbucket.org/cffi/cffi/src/default/demo
	.. _`testing/cffi1/test_verify1.py`: https://bitbucket.org/cffi/cffi/src/default/testing/cffi1/test_verify1.py
	.. _`testing/cffi0/backend_tests.py`: https://bitbucket.org/cffi/cffi/src/default/testing/cffi0/backend_tests.py


	Platform-specific instructions
	------------------------------

	``libffi`` is notoriously messy to install and use --- to the point that
	CPython includes its own copy to avoid relying on external packages.
	CFFI does the same for Windows, but not for other platforms (which should
	have their own working libffi's).
	Modern Linuxes work out of the box thanks to ``pkg-config``. Here are some
	(user-supplied) instructions for other platforms.


	MacOS X
	+++++++

	Homebrew (Thanks David Griffin for this)

	1) Install homebrew: http://brew.sh

	2) Run the following commands in a terminal

	::

	brew install pkg-config libffi
	PKG_CONFIG_PATH=/usr/local/opt/libffi/lib/pkgconfig pip install cffi


	Alternatively, on OS/X 10.6 (Thanks Juraj Sukop for this)

	For building libffi you can use the default install path, but then, in
	``setup.py`` you need to change::

	include_dirs = []

	to::

	include_dirs = ['/usr/local/lib/libffi-3.0.11/include']

	Then running ``python setup.py build`` complains about "fatal error: error writing to -: Broken pipe", which can be fixed by running::

	ARCHFLAGS="-arch i386 -arch x86_64" python setup.py build

	as described here_.

	.. _here: http://superuser.com/questions/259278/python-2-6-1-pycrypto-2-3-pypi-package-broken-pipe-during-build


	Windows (regular 32-bit)
	++++++++++++++++++++++++

	Win32 works and is tested at least each official release.

	The recommended C compiler compatible with Python 2.7 is this one:
	http://www.microsoft.com/en-us/download/details.aspx?id=44266
	There is a known problem with distutils on Python 2.7, as
	explained in https://bugs.python.org/issue23246, and the same
	problem applies whenever you want to run compile() to build a dll with
	this specific compiler suite download.
	``import setuptools`` might help, but YMMV

	For Python 3.4 and beyond:
	https://www.visualstudio.com/en-us/downloads/visual-studio-2015-ctp-vs


	Windows 64
	++++++++++

	Win64 received very basic testing and we applied a few essential
	fixes in cffi 0.7. The comment above applies for Python 2.7 on
	Windows 64 as well. Please report any other issue.

	Note as usual that this is only about running the 64-bit version of
	Python on the 64-bit OS. If you're running the 32-bit version (the
	common case apparently), then you're running Win32 as far as we're
	concerned.

	.. _`issue 9`: https://bitbucket.org/cffi/cffi/issue/9
	.. _`Python issue 7546`: http://bugs.python.org/issue7546


	Linux and OS/X: UCS2 versus UCS4
	++++++++++++++++++++++++++++++++

	This is about getting an ImportError about ``_cffi_backend.so`` with a
	message like ``Symbol not found: _PyUnicodeUCS2_AsASCIIString``. This
	error occurs in Python 2 as soon as you mix "ucs2" and "ucs4" builds of
	Python. It means that you are now running a Python compiled with
	"ucs4", but the extension module ``_cffi_backend.so`` was compiled by a
	different Python: one that was running "ucs2". (If the opposite problem
	occurs, you get an error about ``_PyUnicodeUCS4_AsASCIIString``
	instead.)

	If you are using ``pyenv``, then see
	https://github.com/yyuu/pyenv/issues/257.

	More generally, the solution that should always work is to download the
	sources of CFFI (instead of a prebuilt binary) and make sure that you
	build it with the same version of Python than the one that will use it.
	For example, with virtualenv:

	* ``virtualenv ~/venv``

	* ``cd ~/path/to/sources/of/cffi``

	* ``~/venv/bin/python setup.py build --force`` # forcing a rebuild to
	make sure

	* ``~/venv/bin/python setup.py install``

	This will compile and install CFFI in this virtualenv, using the
	Python from this virtualenv.


	NetBSD
	++++++

	You need to make sure you have an up-to-date version of libffi, which
	fixes some bugs.