mirror of https://github.com/python/cpython
190 lines
6.4 KiB
TeX
190 lines
6.4 KiB
TeX
\chapter{Building C and \Cpp{} Extensions on \UNIX{}
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\label{building-on-unix}}
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\sectionauthor{Jim Fulton}{jim@zope.com}
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%The make file make file, building C extensions on Unix
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Starting in Python 1.4, Python provides a special make file for
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building make files for building dynamically-linked extensions and
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custom interpreters. The make file make file builds a make file
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that reflects various system variables determined by configure when
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the Python interpreter was built, so people building module's don't
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have to resupply these settings. This vastly simplifies the process
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of building extensions and custom interpreters on \UNIX{} systems.
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The make file make file is distributed as the file
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\file{Misc/Makefile.pre.in} in the Python source distribution. The
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first step in building extensions or custom interpreters is to copy
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this make file to a development directory containing extension module
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source.
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The make file make file, \file{Makefile.pre.in} uses metadata
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provided in a file named \file{Setup}. The format of the \file{Setup}
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file is the same as the \file{Setup} (or \file{Setup.dist}) file
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provided in the \file{Modules/} directory of the Python source
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distribution. The \file{Setup} file contains variable definitions:
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\begin{verbatim}
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EC=/projects/ExtensionClass
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\end{verbatim}
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and module description lines. It can also contain blank lines and
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comment lines that start with \character{\#}.
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A module description line includes a module name, source files,
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options, variable references, and other input files, such
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as libraries or object files. Consider a simple example:
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\begin{verbatim}
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ExtensionClass ExtensionClass.c
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\end{verbatim}
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This is the simplest form of a module definition line. It defines a
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module, \module{ExtensionClass}, which has a single source file,
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\file{ExtensionClass.c}.
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This slightly more complex example uses an \strong{-I} option to
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specify an include directory:
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\begin{verbatim}
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EC=/projects/ExtensionClass
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cPersistence cPersistence.c -I$(EC)
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\end{verbatim} % $ <-- bow to font lock
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This example also illustrates the format for variable references.
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For systems that support dynamic linking, the \file{Setup} file should
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begin:
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\begin{verbatim}
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*shared*
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\end{verbatim}
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to indicate that the modules defined in \file{Setup} are to be built
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as dynamically linked modules. A line containing only \samp{*static*}
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can be used to indicate the subsequently listed modules should be
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statically linked.
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Here is a complete \file{Setup} file for building a
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\module{cPersistent} module:
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\begin{verbatim}
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# Set-up file to build the cPersistence module.
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# Note that the text should begin in the first column.
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*shared*
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# We need the path to the directory containing the ExtensionClass
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# include file.
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EC=/projects/ExtensionClass
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cPersistence cPersistence.c -I$(EC)
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\end{verbatim} % $ <-- bow to font lock
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After the \file{Setup} file has been created, \file{Makefile.pre.in}
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is run with the \samp{boot} target to create a make file:
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\begin{verbatim}
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make -f Makefile.pre.in boot
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\end{verbatim}
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This creates the file, Makefile. To build the extensions, simply
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run the created make file:
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\begin{verbatim}
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make
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\end{verbatim}
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It's not necessary to re-run \file{Makefile.pre.in} if the
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\file{Setup} file is changed. The make file automatically rebuilds
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itself if the \file{Setup} file changes.
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\section{Building Custom Interpreters \label{custom-interps}}
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The make file built by \file{Makefile.pre.in} can be run with the
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\samp{static} target to build an interpreter:
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\begin{verbatim}
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make static
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\end{verbatim}
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Any modules defined in the \file{Setup} file before the
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\samp{*shared*} line will be statically linked into the interpreter.
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Typically, a \samp{*shared*} line is omitted from the
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\file{Setup} file when a custom interpreter is desired.
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\section{Module Definition Options \label{module-defn-options}}
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Several compiler options are supported:
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\begin{tableii}{l|l}{programopt}{Option}{Meaning}
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\lineii{-C}{Tell the C pre-processor not to discard comments}
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\lineii{-D\var{name}=\var{value}}{Define a macro}
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\lineii{-I\var{dir}}{Specify an include directory, \var{dir}}
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\lineii{-L\var{dir}}{Specify a link-time library directory, \var{dir}}
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\lineii{-R\var{dir}}{Specify a run-time library directory, \var{dir}}
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\lineii{-l\var{lib}}{Link a library, \var{lib}}
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\lineii{-U\var{name}}{Undefine a macro}
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\end{tableii}
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Other compiler options can be included (snuck in) by putting them
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in variables.
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Source files can include files with \file{.c}, \file{.C}, \file{.cc},
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\file{.cpp}, \file{.cxx}, and \file{.c++} extensions.
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Other input files include files with \file{.a}, \file{.o}, \file{.sl},
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and \file{.so} extensions.
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\section{Example \label{module-defn-example}}
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Here is a more complicated example from \file{Modules/Setup.dist}:
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\begin{verbatim}
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GMP=/ufs/guido/src/gmp
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mpz mpzmodule.c -I$(GMP) $(GMP)/libgmp.a
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\end{verbatim}
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which could also be written as:
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\begin{verbatim}
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mpz mpzmodule.c -I$(GMP) -L$(GMP) -lgmp
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\end{verbatim}
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\section{Distributing your extension modules
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\label{distributing}}
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There are two ways to distribute extension modules for others to use.
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The way that allows the easiest cross-platform support is to use the
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\module{distutils}\refstmodindex{distutils} package. The manual
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\citetitle[../dist/dist.html]{Distributing Python Modules} contains
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information on this approach. It is recommended that all new
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extensions be distributed using this approach to allow easy building
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and installation across platforms. Older extensions should migrate to
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this approach as well.
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What follows describes the older approach; there are still many
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extensions which use this.
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When distributing your extension modules in source form, make sure to
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include a \file{Setup} file. The \file{Setup} file should be named
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\file{Setup.in} in the distribution. The make file make file,
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\file{Makefile.pre.in}, will copy \file{Setup.in} to \file{Setup} if
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the person installing the extension doesn't do so manually.
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Distributing a \file{Setup.in} file makes it easy for people to
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customize the \file{Setup} file while keeping the original in
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\file{Setup.in}.
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It is a good idea to include a copy of \file{Makefile.pre.in} for
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people who do not have a source distribution of Python.
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Do not distribute a make file. People building your modules
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should use \file{Makefile.pre.in} to build their own make file. A
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\file{README} file included in the package should provide simple
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instructions to perform the build.
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