mirror of https://github.com/python/cpython.git
960 lines
39 KiB
TeX
960 lines
39 KiB
TeX
\documentclass{howto}
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\usepackage{ltxmarkup}
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\usepackage{times}
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\usepackage{distutils}
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\title{Distributing Python Modules}
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\author{Greg Ward}
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\authoraddress{E-mail: \email{gward@python.net}}
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\begin{document}
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\maketitle
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\tableofcontents
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\section{Introduction}
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\label{intro}
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In the past, Python module developers have not had much infrastructure
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support for distributing modules, nor have Python users had much support
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for installing and maintaining third-party modules. With the
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introduction of the Python Distribution Utilities (Distutils for short)
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in Python 1.6, this situation should start to improve.
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This document only covers using the Distutils to distribute your Python
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modules. Using the Distutils does not tie you to Python 1.6, though:
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the Distutils work just fine with Python 1.5.2, and it is reasonable
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(and expected to become commonplace) to expect users of Python 1.5.2 to
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download and install the Distutils separately before they can install
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your modules. Python 1.6 (or later) users, of course, won't have to add
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anything to their Python installation in order to use the Distutils to
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install third-party modules.
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This document concentrates on the role of developer/distributor: if
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you're looking for information on installing Python modules, you
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should refer to the \citetitle[../inst/inst.html]{Installing Python
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Modules} manual.
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\section{Concepts \& Terminology}
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\label{concepts}
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Using the Distutils is quite simple, both for module developers and for
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users/administrators installing third-party modules. As a developer,
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your responsibilites (apart from writing solid, well-documented and
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well-tested code, of course!) are:
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\begin{itemize}
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\item write a setup script (\file{setup.py} by convention)
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\item (optional) write a setup configuration file
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\item create a source distribution
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\item (optional) create one or more built (binary) distributions
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\end{itemize}
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Each of these tasks is covered in this document.
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Not all module developers have access to a multitude of platforms, so
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it's not always feasible to expect them to create a multitude of built
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distributions. It is hoped that a class of intermediaries, called
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\emph{packagers}, will arise to address this need. Packagers will take
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source distributions released by module developers, build them on one or
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more platforms, and release the resulting built distributions. Thus,
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users on the most popular platforms will be able to install most popular
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Python module distributions in the most natural way for their platform,
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without having to run a single setup script or compile a line of code.
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\subsection{A simple example}
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\label{simple-example}
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The setup script is usually quite simple, although since it's written in
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Python, there are no arbitrary limits to what you can do with it. If
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all you want to do is distribute a module called \module{foo}, contained
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in a file \file{foo.py}, then your setup script can be as little as
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this:
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\begin{verbatim}
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from distutils.core import setup
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setup (name = "foo",
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version = "1.0",
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py_modules = ["foo"])
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\end{verbatim}
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Some observations:
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\begin{itemize}
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\item most information that you supply to the Distutils is supplied as
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keyword arguments to the \function{setup()} function
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\item those keyword arguments fall into two categories: package
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meta-data (name, version number) and information about what's in the
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package (a list of pure Python modules, in this case)
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\item modules are specified by module name, not filename (the same will
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hold true for packages and extensions)
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\item it's recommended that you supply a little more meta-data, in
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particular your name, email address and a URL for the project
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\end{itemize}
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To create a source distribution for this module, you would create a
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setup script, \file{setup.py}, containing the above code, and run:
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\begin{verbatim}
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python setup.py sdist
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\end{verbatim}
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which will create an archive file (e.g., tarball on Unix, zip file on
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Windows) containing your setup script, \file{setup.py}, and your module,
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\file{foo.py}. The archive file will be named \file{Foo-1.0.tar.gz} (or
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\file{.zip}), and will unpack into a directory \file{Foo-1.0}.
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If an end-user wishes to install your \module{foo} module, all she has
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to do is download \file{Foo-1.0.tar.gz} (or \file{.zip}), unpack it,
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and---from the \file{Foo-1.0} directory---run
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\begin{verbatim}
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python setup.py install
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\end{verbatim}
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which will ultimately copy \file{foo.py} to the appropriate directory
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for third-party modules in their Python installation.
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This simple example demonstrates some fundamental concepts of the
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Distutils: first, both developers and installers have the same basic
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user interface, i.e. the setup script. The difference is which
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Distutils \emph{commands} they use: the \command{sdist} command is
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almost exclusively for module developers, while \command{install} is
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more often for installers (although most developers will want to install
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their own code occasionally).
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If you want to make things really easy for your users, you can create
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one or more built distributions for them. For instance, if you are
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running on a Windows machine, and want to make things easy for other
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Windows users, you can create an executable installer (the most
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appropriate type of built distribution for this platform) with the
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\command{bdist\_wininst} command. For example:
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\begin{verbatim}
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python setup.py bdist_wininst
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\end{verbatim}
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will create an executable installer, \file{Foo-1.0.win32.exe}, in the
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current directory.
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\XXX{not implemented yet}
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(Another way to create executable installers for Windows is with the
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\command{bdist\_wise} command, which uses Wise---the commercial
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installer-generator used to create Python's own installer---to create
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the installer. Wise-based installers are more appropriate for large,
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industrial-strength applications that need the full capabilities of a
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``real'' installer. \command{bdist\_wininst} creates a self-extracting
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zip file with a minimal user interface, which is enough for small- to
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medium-sized module collections. You'll need to have version XXX of
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Wise installed on your system for the \command{bdist\_wise} command to
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work; it's available from \url{http://foo/bar/baz}.)
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Currently (Distutils 0.9.1), the are only other useful built
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distribution format is RPM, implemented by the \command{bdist\_rpm}
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command. For example, the following command will create an RPM file
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called \file{Foo-1.0.noarch.rpm}:
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\begin{verbatim}
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python setup.py bdist_rpm
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\end{verbatim}
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(This uses the \command{rpm} command, so has to be run on an RPM-based
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system such as Red Hat Linux, SuSE Linux, or Mandrake Linux.)
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You can find out what distribution formats are available at any time by
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running
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\begin{verbatim}
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python setup.py bdist --help-formats
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\end{verbatim}
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\subsection{General Python terminology}
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\label{python-terms}
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If you're reading this document, you probably have a good idea of what
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modules, extensions, and so forth are. Nevertheless, just to be sure
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that everyone is operating from a common starting point, we offer the
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following glossary of common Python terms:
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\begin{description}
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\item[module] the basic unit of code reusability in Python: a block of
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code imported by some other code. Three types of modules concern us
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here: pure Python modules, extension modules, and packages.
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\item[pure Python module] a module written in Python and contained in a
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single \file{.py} file (and possibly associated \file{.pyc} and/or
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\file{.pyo} files). Sometimes referred to as a ``pure module.''
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\item[extension module] a module written in the low-level language of
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the Python implemention: C/C++ for CPython, Java for JPython.
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Typically contained in a single dynamically loadable pre-compiled
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file, e.g. a shared object (\file{.so}) file for CPython extensions on
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Unix, a DLL (given the \file{.pyd} extension) for CPython extensions
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on Windows, or a Java class file for JPython extensions. (Note that
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currently, the Distutils only handles C/C++ extensions for CPython.)
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\item[package] a module that contains other modules; typically contained
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in a directory in the filesystem and distinguished from other
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directories by the presence of a file \file{\_\_init\_\_.py}.
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\item[root package] the root of the hierarchy of packages. (This isn't
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really a package, since it doesn't have an \file{\_\_init\_\_.py}
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file. But we have to call it something.) The vast majority of the
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standard library is in the root package, as are many small, standalone
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third-party modules that don't belong to a larger module collection.
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Unlike regular packages, modules in the root package can be found in
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many directories: in fact, every directory listed in \code{sys.path}
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can contribute modules to the root package.
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\end{description}
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\subsection{Distutils-specific terminology}
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\label{distutils-term}
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The following terms apply more specifically to the domain of
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distributing Python modules using the Distutils:
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\begin{description}
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\item[module distribution] a collection of Python modules distributed
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together as a single downloadable resource and meant to be installed
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\emph{en masse}. Examples of some well-known module distributions are
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Numeric Python, PyXML, PIL (the Python Imaging Library), or
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mxDateTime. (This would be called a \emph{package}, except that term
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is already taken in the Python context: a single module distribution
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may contain zero, one, or many Python packages.)
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\item[pure module distribution] a module distribution that contains only
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pure Python modules and packages. Sometimes referred to as a ``pure
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distribution.''
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\item[non-pure module distribution] a module distribution that contains
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at least one extension module. Sometimes referred to as a ``non-pure
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distribution.''
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\item[distribution root] the top-level directory of your source tree (or
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source distribution); the directory where \file{setup.py} exists and
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is run from
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\end{description}
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\section{Writing the Setup Script}
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\label{setup-script}
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The setup script is the centre of all activity in building,
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distributing, and installing modules using the Distutils. The main
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purpose of the setup script is to describe your module distribution to
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the Distutils, so that the various commands that operate on your modules
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do the right thing. As we saw in section~\ref{simple-example} above,
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the setup script consists mainly of a call to \function{setup()}, and
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most information supplied to the Distutils by the module developer is
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supplied as keyword arguments to \function{setup()}.
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Here's a slightly more involved example, which we'll follow for the next
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couple of sections: the Distutils' own setup script. (Keep in mind that
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although the Distutils are included with Python 1.6 and later, they also
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have an independent existence so that Python 1.5.2 users can use them to
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install other module distributions. The Distutils' own setup script,
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shown here, is used to install the package into Python 1.5.2.)
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\begin{verbatim}
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#!/usr/bin/env python
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from distutils.core import setup
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setup (name = "Distutils",
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version = "1.0",
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description = "Python Distribution Utilities",
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author = "Greg Ward",
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author_email = "gward@python.net",
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url = "http://www.python.org/sigs/distutils-sig/",
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packages = ['distutils', 'distutils.command'],
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)
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\end{verbatim}
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There are only two differences between this and the trivial one-file
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distribution presented in section~\ref{simple-example}: more
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meta-data, and the specification of pure Python modules by package,
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rather than by module. This is important since the Distutils consist of
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a couple of dozen modules split into (so far) two packages; an explicit
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list of every module would be tedious to generate and difficult to
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maintain.
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Note that any pathnames (files or directories) supplied in the setup
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script should be written using the Unix convention, i.e.
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slash-separated. The Distutils will take care of converting this
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platform-neutral representation into whatever is appropriate on your
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current platform before actually using the pathname. This makes your
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setup script portable across operating systems, which of course is one
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of the major goals of the Distutils. In this spirit, all pathnames in
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this document are slash-separated (Mac OS programmers should keep in
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mind that the \emph{absence} of a leading slash indicates a relative
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path, the opposite of the Mac OS convention with colons).
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\subsection{Listing whole packages}
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\label{listing-packages}
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The \option{packages} option tells the Distutils to process (build,
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distribute, install, etc.) all pure Python modules found in each package
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mentioned in the \option{packages} list. In order to do this, of
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course, there has to be a correspondence between package names and
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directories in the filesystem. The default correspondence is the most
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obvious one, i.e. package \module{distutils} is found in the directory
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\file{distutils} relative to the distribution root. Thus, when you say
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\code{packages = ['foo']} in your setup script, you are promising that
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the Distutils will find a file \file{foo/\_\_init\_\_.py} (which might
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be spelled differently on your system, but you get the idea) relative to
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the directory where your setup script lives. (If you break this
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promise, the Distutils will issue a warning but process the broken
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package anyways.)
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If you use a different convention to lay out your source directory,
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that's no problem: you just have to supply the \option{package\_dir}
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option to tell the Distutils about your convention. For example, say
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you keep all Python source under \file{lib}, so that modules in the
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``root package'' (i.e., not in any package at all) are right in
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\file{lib}, modules in the \module{foo} package are in \file{lib/foo},
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and so forth. Then you would put
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\begin{verbatim}
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package_dir = {'': 'lib'}
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\end{verbatim}
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in your setup script. (The keys to this dictionary are package names,
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and an empty package name stands for the root package. The values are
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directory names relative to your distribution root.) In this case, when
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you say \code{packages = ['foo']}, you are promising that the file
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\file{lib/foo/\_\_init\_\_.py} exists.
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Another possible convention is to put the \module{foo} package right in
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\file{lib}, the \module{foo.bar} package in \file{lib/bar}, etc. This
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would be written in the setup script as
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\begin{verbatim}
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package_dir = {'foo': 'lib'}
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\end{verbatim}
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A \code{\var{package}: \var{dir}} entry in the \option{package\_dir}
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dictionary implicitly applies to all packages below \var{package}, so
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the \module{foo.bar} case is automatically handled here. In this
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example, having \code{packages = ['foo', 'foo.bar']} tells the Distutils
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to look for \file{lib/\_\_init\_\_.py} and
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\file{lib/bar/\_\_init\_\_.py}. (Keep in mind that although
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\option{package\_dir} applies recursively, you must explicitly list all
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packages in \option{packages}: the Distutils will \emph{not} recursively
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scan your source tree looking for any directory with an
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\file{\_\_init\_\_.py} file.)
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\subsection{Listing individual modules}
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\label{listing-modules}
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For a small module distribution, you might prefer to list all modules
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rather than listing packages---especially the case of a single module
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that goes in the ``root package'' (i.e., no package at all). This
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simplest case was shown in section~\ref{simple-example}; here is a
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slightly more involved example:
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\begin{verbatim}
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py_modules = ['mod1', 'pkg.mod2']
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\end{verbatim}
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This describes two modules, one of them in the ``root'' package, the
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other in the \module{pkg} package. Again, the default package/directory
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layout implies that these two modules can be found in \file{mod1.py} and
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\file{pkg/mod2.py}, and that \file{pkg/\_\_init\_\_.py} exists as well.
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And again, you can override the package/directory correspondence using
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the \option{package\_dir} option.
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\subsection{Describing extension modules}
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\label{sec:describing-extensions}
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Just as writing Python extension modules is a bit more complicated than
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writing pure Python modules, describing them to the Distutils is a bit
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more complicated. Unlike pure modules, it's not enough just to list
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modules or packages and expect the Distutils to go out and find the
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right files; you have to specify the extension name, source file(s), and
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any compile/link requirements (include directories, libraries to link
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with, etc.).
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All of this is done through another keyword argument to
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\function{setup()}, the \option{extensions} option. \option{extensions}
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is just a list of \class{Extension} instances, each of which describes a
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single extension module. Suppose your distribution includes a single
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extension, called \module{foo} and implemented by \file{foo.c}. If no
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additional instructions to the compiler/linker are needed, describing
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this extension is quite simple:
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\begin{verbatim}
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Extension("foo", ["foo.c"])
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\end{verbatim}
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The \class{Extension} class can be imported from
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\module{distutils.core}, along with \function{setup()}. Thus, the setup
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script for a module distribution that contains only this one extension
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and nothing else might be:
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\begin{verbatim}
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from distutils.core import setup, Extension
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setup(name = "foo", version = "1.0",
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extensions = [Extension("foo", ["foo.c"])])
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\end{verbatim}
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The \class{Extension} class (actually, the underlying extension-building
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machinery implemented by the \command{built\_ext} command) supports a
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great deal of flexibility in describing Python extensions, which is
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explained in the following sections.
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\subsubsection{Extension names and packages}
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The first argument to the \class{Extension} constructor is always the
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name of the extension, including any package names. For example,
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\begin{verbatim}
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Extension("foo", ["src/foo1.c", "src/foo2.c"])
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\end{verbatim}
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describes an extension that lives in the root package, while
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\begin{verbatim}
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Extension("pkg.foo", ["src/foo1.c", "src/foo2.c"])
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\end{verbatim}
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describes the same extension in the \module{pkg} package. The source
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files and resulting object code are identical in both cases; the only
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difference is where in the filesystem (and therefore where in Python's
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namespace hierarchy) the resulting extension lives.
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If you have a number of extensions all in the same package (or all under
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the same base package), use the \option{ext\_package} keyword argument
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to \function{setup()}. For example,
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\begin{verbatim}
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setup(...
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ext_package = "pkg",
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extensions = [Extension("foo", ["foo.c"]),
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Extension("subpkg.bar", ["bar.c"])]
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)
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\end{verbatim}
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will compile \file{foo.c} to the extension \module{pkg.foo}, and
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\file{bar.c} to \module{pkg.subpkg.bar}.
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\subsubsection{Extension source files}
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The second argument to the \class{Extension} constructor is a list of
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source files. Since the Distutils currently only support C/C++
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extensions, these are normally C/C++ source files. (Be sure to use
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appropriate extensions to distinguish C++ source files: \file{.cc} and
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\file{.cpp} seem to be recognized by both Unix and Windows compilers.)
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However, you can also include SWIG interface (\file{.i}) files in the
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list; the \command{build\_ext} command knows how to deal with SWIG
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extensions: it will run SWIG on the interface file and compile the
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resulting C/C++ file into your extension.
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\XXX{SWIG support is rough around the edges and largely untested;
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especially SWIG support of C++ extensions! Explain in more detail
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here when the interface firms up.}
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On some platforms, you can include non-source files that are processed
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by the compiler and included in your extension. Currently, this just
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means Windows resource files for Visual C++. \XXX{get more detail on
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this feature from Thomas Heller!}
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\subsubsection{Preprocessor options}
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Three optional arguments to \class{Extension} will help if you need to
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specify include directories to search or preprocessor macros to
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define/undefine: \code{include\_dirs}, \code{define\_macros}, and
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\code{undef\_macros}.
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For example, if your extension requires header files in the
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\file{include} directory under your distribution root, use the
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\code{include\_dirs} option:
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\begin{verbatim}
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|
Extension("foo", ["foo.c"], include_dirs=["include"])
|
|
\end{verbatim}
|
|
|
|
You can specify absolute directories there; if you know that your
|
|
extension will only be built on Unix systems with X11R6 installed to
|
|
\file{/usr}, you can get away with
|
|
\begin{verbatim}
|
|
Extension("foo", ["foo.c"], include_dirs=["/usr/include/X11"])
|
|
\end{verbatim}
|
|
You should avoid this sort of non-portable usage if you plan to
|
|
distribute your code: it's probably better to write your code to include
|
|
(e.g.) \code{<X11/Xlib.h>}.
|
|
|
|
If you need to include header files from some other Python extension,
|
|
you can take advantage of the fact that the Distutils install extension
|
|
header files in a consistent way. For example, the Numerical Python
|
|
header files are installed (on a standard Unix installation) to
|
|
\file{/usr/local/include/python1.5/Numerical}. (The exact location will
|
|
differ according to your platform and Python installation.) Since the
|
|
Python include directory---\file{/usr/local/include/python1.5} in this
|
|
case---is always included in the search path when building Python
|
|
extensions, the best approach is to include (e.g.)
|
|
\code{<Numerical/arrayobject.h>}. If you insist on putting the
|
|
\file{Numerical} include directory right into your header search path,
|
|
though, you can find that directory using the Distutils
|
|
\module{sysconfig} module:
|
|
\begin{verbatim}
|
|
from distutils.sysconfig import get_python_inc
|
|
incdir = os.path.join(get_python_inc(plat_specific=1), "Numerical")
|
|
setup(...,
|
|
Extension(..., include_dirs=[incdir]))
|
|
\end{verbatim}
|
|
Even though this is quite portable---it will work on any Python
|
|
installation, regardless of platform---it's probably easier to just
|
|
write your C code in the sensible way.
|
|
|
|
You can define and undefine pre-processor macros with the
|
|
\code{define\_macros} and \code{undef\_macros} options.
|
|
\code{define\_macros} takes a list of \code{(name, value)} tuples, where
|
|
\code{name} is the name of the macro to define (a string) and
|
|
\code{value} is its value: either a string or \code{None}. (Defining a
|
|
macro \code{FOO} to \code{None} is the equivalent of a bare
|
|
\code{\#define FOO} in your C source: with most compilers, this sets
|
|
\code{FOO} to the string \code{1}.) \code{undef\_macros} is just
|
|
a list of macros to undefine.
|
|
|
|
For example:
|
|
\begin{verbatim}
|
|
Extension(...,
|
|
define_macros=[('NDEBUG', '1')],
|
|
('HAVE_STRFTIME', None),
|
|
undef_macros=['HAVE_FOO', 'HAVE_BAR'])
|
|
\end{verbatim}
|
|
is the equivalent of having this at the top of every C source file:
|
|
\begin{verbatim}
|
|
#define NDEBUG 1
|
|
#define HAVE_STRFTIME
|
|
#undef HAVE_FOO
|
|
#undef HAVE_BAR
|
|
\end{verbatim}
|
|
|
|
|
|
\subsubsection{Library options}
|
|
|
|
You can also specify the libraries to link against when building your
|
|
extension, and the directories to search for those libraries. The
|
|
\code{libraries} option is a list of libraries to link against,
|
|
\code{library\_dirs} is a list of directories to search for libraries at
|
|
link-time, and \code{runtime\_library\_dirs} is a list of directories to
|
|
search for shared (dynamically loaded) libraries at run-time.
|
|
|
|
For example, if you need to link against libraries known to be in the
|
|
standard library search path on target systems
|
|
\begin{verbatim}
|
|
Extension(...,
|
|
libraries=["gdbm", "readline"])
|
|
\end{verbatim}
|
|
|
|
If you need to link with libraries in a non-standard location, you'll
|
|
have to include the location in \code{library\_dirs}:
|
|
\begin{verbatim}
|
|
Extension(...,
|
|
library_dirs=["/usr/X11R6/lib"],
|
|
libraries=["X11", "Xt"])
|
|
\end{verbatim}
|
|
(Again, this sort of non-portable construct should be avoided if you
|
|
intend to distribute your code.)
|
|
|
|
\XXX{still undocumented: extra\_objects, extra\_compile\_args,
|
|
extra\_link\_args, export\_symbols---none of which are frequently
|
|
needed, some of which might be completely unnecessary!}
|
|
|
|
|
|
\section{Writing the Setup Configuration File}
|
|
\label{setup-config}
|
|
|
|
Often, it's not possible to write down everything needed to build a
|
|
distribution \emph{a priori}. You need to get some information from the
|
|
user, or from the user's system, in order to proceed. For example, you
|
|
might include an optional extension module that provides an interface to
|
|
a particular C library. If that library is installed on the user's
|
|
system, then you can build your optional extension---but you need to
|
|
know where to find the header and library file. If it's not installed,
|
|
you need to know this so you can omit your optional extension.
|
|
|
|
The preferred way to do this, of course, would be for you to tell the
|
|
Distutils which optional features (C libraries, system calls, external
|
|
utilities, etc.) you're looking for, and it would inspect the user's
|
|
system and try to find them. This functionality may appear in a future
|
|
version of the Distutils, but it isn't there now. So, for the time
|
|
being, we rely on the user building and installing your software to
|
|
provide the necessary information. The vehicle for doing so is the
|
|
setup configuration file, \file{setup.cfg}.
|
|
|
|
\XXX{need more here!}
|
|
|
|
|
|
\section{Creating a Source Distribution}
|
|
\label{source-dist}
|
|
|
|
As shown in section~\ref{simple-example}, you use the
|
|
\command{sdist} command to create a source distribution. In the
|
|
simplest case,
|
|
\begin{verbatim}
|
|
python setup.py sdist
|
|
\end{verbatim}
|
|
(assuming you haven't specified any \command{sdist} options in the setup
|
|
script or config file), \command{sdist} creates the archive of the
|
|
default format for the current platform. The default formats are:
|
|
\begin{tableii}{ll}{textrm}%
|
|
{Platform}{Default archive format for source distributions}
|
|
\lineii{Unix}{gzipped tar file (\file{.tar.gz})}
|
|
\lineii{Windows}{zip file}
|
|
\end{tableii}
|
|
You can specify as many formats as you like using the
|
|
\longprogramopt{formats} option, for example:
|
|
\begin{verbatim}
|
|
python setup.py sdist --formats=gztar,zip
|
|
\end{verbatim}
|
|
to create a gzipped tarball and a zip file. The available formats are:
|
|
\begin{tableiii}{l|l|c}{code}%
|
|
{Format}{Description}{Notes}
|
|
\lineiii{zip}{zip file (\file{.zip})}{(1)}
|
|
\lineiii{gztar}{gzipped tar file (\file{.tar.gz})}{(2)}
|
|
\lineiii{ztar}{compressed tar file (\file{.tar.Z})}{}
|
|
\lineiii{tar}{tar file (\file{.tar})}{}
|
|
\end{tableiii}
|
|
|
|
\noindent Notes:
|
|
\begin{description}
|
|
\item[(1)] default on Windows
|
|
\item[(2)] default on Unix
|
|
\end{description}
|
|
|
|
|
|
\subsection{The manifest and manifest template}
|
|
\label{manifest}
|
|
|
|
Without any additional information, the \command{sdist} command puts a
|
|
minimal set of files into the source distribution:
|
|
\begin{itemize}
|
|
\item all Python source files implied by the \option{py\_modules} and
|
|
\option{packages} options
|
|
\item all C source files mentioned in the \option{ext\_modules} or
|
|
\option{libraries} options (\XXX{getting C library sources currently
|
|
broken -- no get\_source\_files() method in build\_clib.py!})
|
|
\item anything that looks like a test script: \file{test/test*.py}
|
|
(currently, the Distutils don't do anything with test scripts except
|
|
include them in source distributions, but in the future there will be
|
|
a standard for testing Python module distributions)
|
|
\item \file{README.txt} (or \file{README}) and \file{setup.py}
|
|
\end{itemize}
|
|
Sometimes this is enough, but usually you will want to specify
|
|
additional files to distribute. The typical way to do this is to write
|
|
a \emph{manifest template}, called \file{MANIFEST.in} by default. The
|
|
\command{sdist} command processes this template and generates a manifest
|
|
file, \file{MANIFEST}. (If you prefer, you can skip the manifest
|
|
template and generate the manifest yourself: it just lists one file per
|
|
line.)
|
|
|
|
The manifest template has one command per line, where each command
|
|
specifies a set of files to include or exclude from the source
|
|
distribution. For an example, again we turn to the Distutils' own
|
|
manifest template:
|
|
\begin{verbatim}
|
|
include *.txt
|
|
recursive-include examples *.txt *.py
|
|
prune examples/sample?/build
|
|
\end{verbatim}
|
|
The meanings should be fairly clear: include all files in the
|
|
distribution root matching \code{*.txt}, all files anywhere under the
|
|
\file{examples} directory matching \code{*.txt} or \code{*.py}, and
|
|
exclude all directories matching \code{examples/sample?/build}. There
|
|
are several other commands available in the manifest template
|
|
mini-language; see section~\ref{sdist-cmd}.
|
|
|
|
The order of commands in the manifest template very much matters:
|
|
initially, we have the list of default files as described above, and
|
|
each command in the template adds to or removes from that list of files.
|
|
When we have fully processed the manifest template, we have our complete
|
|
list of files. This list is written to the manifest for future
|
|
reference, and then used to build the source distribution archive(s).
|
|
|
|
Following the Distutils' own manifest template, let's trace how the
|
|
\command{sdist} command will build the list of files to include in the
|
|
Distutils source distribution:
|
|
\begin{enumerate}
|
|
\item include all Python source files in the \file{distutils} and
|
|
\file{distutils/command} subdirectories (because packages
|
|
corresponding to those two directories were mentioned in the
|
|
\option{packages} option in the setup script)
|
|
\item include \file{test/test*.py} (always included)
|
|
\item include \file{README.txt} and \file{setup.py} (always included)
|
|
\item include \file{*.txt} in the distribution root (this will find
|
|
\file{README.txt} a second time, but such redundancies are weeded out
|
|
later)
|
|
\item in the sub-tree under \file{examples}, include anything matching
|
|
\file{*.txt}
|
|
\item in the sub-tree under \file{examples}, include anything matching
|
|
\file{*.py}
|
|
\item remove all files in the sub-trees starting at directories matching
|
|
\file{examples/sample?/build}---this may exclude files included by the
|
|
previous two steps, so it's important that the \code{prune} command in
|
|
the manifest template comes after the two \code{recursive-include}
|
|
commands
|
|
\end{enumerate}
|
|
|
|
Just like in the setup script, file and directory names in the manifest
|
|
template should always be slash-separated; the Distutils will take care
|
|
of converting them to the standard representation on your platform.
|
|
That way, the manifest template is portable across operating systems.
|
|
|
|
|
|
\subsection{Manifest-related options}
|
|
\label{manifest-options}
|
|
|
|
The normal course of operations for the \command{sdist} command is as
|
|
follows:
|
|
\begin{itemize}
|
|
\item if the manifest file, \file{MANIFEST} doesn't exist, read
|
|
\file{MANIFEST.in} and create the manifest
|
|
\item if either \file{MANIFEST.in} or the setup script (\file{setup.py})
|
|
are more recent than \file{MANIFEST}, recreate \file{MANIFEST} by
|
|
reading \file{MANIFEST.in}
|
|
\item use the list of files now in \file{MANIFEST} (either just
|
|
generated or read in) to create the source distribution archive(s)
|
|
\end{itemize}
|
|
There are a couple of options that modify this behaviour.
|
|
|
|
First, you might want to force the manifest to be regenerated---for
|
|
example, if you have added or removed files or directories that match an
|
|
existing pattern in the manifest template, you should regenerate the
|
|
manifest:
|
|
\begin{verbatim}
|
|
python setup.py sdist --force-manifest
|
|
\end{verbatim}
|
|
|
|
Or, you might just want to (re)generate the manifest, but not create a
|
|
source distribution:
|
|
\begin{verbatim}
|
|
python setup.py sdist --manifest-only
|
|
\end{verbatim}
|
|
(\longprogramopt{manifest-only} implies \longprogramopt{force-manifest}.)
|
|
|
|
If you don't want to use the default file set, you can supply the
|
|
\longprogramopt{no-defaults} option. If you use
|
|
\longprogramopt{no-defaults} and don't supply a manifest template (or
|
|
it's empty, or nothing matches the patterns in it), then your source
|
|
distribution will be empty.
|
|
|
|
|
|
\section{Creating Built Distributions}
|
|
\label{built-dist}
|
|
|
|
A ``built distribution'' is what you're probably used to thinking of
|
|
either as a ``binary package'' or an ``installer'' (depending on your
|
|
background). It's not necessarily binary, though, because it might
|
|
contain only Python source code and/or byte-code; and we don't call it a
|
|
package, because that word is already spoken for in Python. (And
|
|
``installer'' is a term specific to the Windows world. \XXX{do Mac
|
|
people use it?})
|
|
|
|
A built distribution is how you make life as easy as possible for
|
|
installers of your module distribution: for users of RPM-based Linux
|
|
systems, it's a binary RPM; for Windows users, it's an executable
|
|
installer; for Debian-based Linux users, it's a Debian package; and so
|
|
forth. Obviously, no one person will be able to create built
|
|
distributions for every platform under the sun, so the Distutils is
|
|
designed to enable module developers to concentrate on their
|
|
specialty---writing code and creating source distributions---while an
|
|
intermediary species of \emph{packager} springs up to turn source
|
|
distributions into built distributions for as many platforms as there
|
|
are packagers.
|
|
|
|
Of course, the module developer could be his own packager; or the
|
|
packager could be a volunteer ``out there'' somewhere who has access to
|
|
a platform which the original developer does not; or it could be
|
|
software periodically grabbing new source distributions and turning them
|
|
into built distributions for as many platforms as the software has
|
|
access to. Regardless of the nature of the beast, a packager uses the
|
|
setup script and the \command{bdist} command family to generate built
|
|
distributions.
|
|
|
|
As a simple example, if I run the following command in the Distutils
|
|
source tree:
|
|
\begin{verbatim}
|
|
python setup.py bdist
|
|
\end{verbatim}
|
|
then the Distutils builds my module distribution (the Distutils itself
|
|
in this case), does a ``fake'' installation (also in the \file{build}
|
|
directory), and creates the default type of built distribution for my
|
|
platform. Currently, the default format for built distributions is a
|
|
``dumb'' archive---tarball on Unix, ZIP file on Windows. (These are
|
|
called ``dumb'' built distributions, because they must be unpacked in a
|
|
specific location to work.)
|
|
|
|
Thus, the above command on a Unix system creates
|
|
\file{Distutils-0.9.1.\filevar{plat}.tar.gz}; unpacking this tarball
|
|
from the root of the filesystemq installs the Distutils just as though
|
|
you had downloaded the source distribution and run \code{python setup.py
|
|
install}. (Assuming that the target system has their Python
|
|
installation laid out the same as you do---another reason these are
|
|
called ``dumb'' distributions.) Obviously, for pure Python
|
|
distributions, this isn't a huge win---but for non-pure distributions,
|
|
which include extensions that would need to be compiled, it can mean the
|
|
difference between someone being able to use your extensions or not.
|
|
|
|
\XXX{filenames are inaccurate here!}
|
|
|
|
The \command{bdist} command has a \longprogramopt{format} option,
|
|
similar to the \command{sdist} command, which you can use to select the
|
|
types of built distribution to generate: for example,
|
|
\begin{verbatim}
|
|
python setup.py bdist --format=zip
|
|
\end{verbatim}
|
|
would, when run on a Unix system, create
|
|
\file{Distutils-0.8.\filevar{plat}.zip}---again, this archive would be
|
|
unpacked from the root directory to install the Distutils.
|
|
|
|
The available formats for built distributions are:
|
|
\begin{tableiii}{l|l|c}{code}%
|
|
{Format}{Description}{Notes}
|
|
\lineiii{zip}{zip file (\file{.zip})}{}
|
|
\lineiii{gztar}{gzipped tar file (\file{.tar.gz})}{(1)}
|
|
\lineiii{ztar}{compressed tar file (\file{.tar.Z})}{}
|
|
\lineiii{tar}{tar file (\file{.tar})}{}
|
|
\lineiii{rpm}{RPM}{}
|
|
\lineiii{srpm}{source RPM}{\XXX{to do!}}
|
|
\lineiii{wininst}{self-extracting ZIP file for Windows}{(2)}
|
|
%\lineiii{wise}{Wise installer for Windows}{(3)}
|
|
\end{tableiii}
|
|
|
|
\noindent Notes:
|
|
\begin{description}
|
|
\item[(1)] default on Unix
|
|
\item[(2)] default on Windows \XXX{to-do!}
|
|
%\item[(3)] not implemented yet
|
|
\end{description}
|
|
|
|
You don't have to use the \command{bdist} command with the
|
|
\longprogramopt{formats} option; you can also use the command that
|
|
directly implements the format you're interested in. Some of these
|
|
\command{bdist} ``sub-commands'' actually generate several similar
|
|
formats; for instance, the \command{bdist\_dumb} command generates all
|
|
the ``dumb'' archive formats (\code{tar}, \code{ztar}, \code{gztar}, and
|
|
\code{zip}), and \command{bdist\_rpm} generates both binary and source
|
|
RPMs. The \command{bdist} sub-commands, and the formats generated by
|
|
each, are:
|
|
\begin{tableii}{l|l}{command}%
|
|
{Command}{Formats}
|
|
\lineii{bdist\_dumb}{tar, ztar, gztar, zip}
|
|
\lineii{bdist\_rpm}{rpm, srpm}
|
|
\lineii{bdist\_wininst}{wininst}
|
|
%\lineii{bdist\_wise}{wise}
|
|
\end{tableii}
|
|
|
|
\section{Examples}
|
|
\label{examples}
|
|
|
|
|
|
\subsection{Pure Python distribution (by module)}
|
|
\label{pure-mod}
|
|
|
|
|
|
\subsection{Pure Python distribution (by package)}
|
|
\label{pure-pkg}
|
|
|
|
|
|
\subsection{Single extension module}
|
|
\label{single-ext}
|
|
|
|
|
|
\subsection{Multiple extension modules}
|
|
\label{multiple-ext}
|
|
|
|
|
|
\subsection{Putting it all together}
|
|
|
|
|
|
|
|
\section{Extending the Distutils}
|
|
\label{extending}
|
|
|
|
|
|
\subsection{Extending existing commands}
|
|
\label{extend-existing}
|
|
|
|
|
|
\subsection{Writing new commands}
|
|
\label{new-commands}
|
|
|
|
|
|
|
|
\section{Reference}
|
|
\label{ref}
|
|
|
|
|
|
\subsection{Building modules: the \protect\command{build} command family}
|
|
\label{build-cmds}
|
|
|
|
\subsubsection{\protect\command{build}}
|
|
\label{build-cmd}
|
|
|
|
\subsubsection{\protect\command{build\_py}}
|
|
\label{build-py-cmd}
|
|
|
|
\subsubsection{\protect\command{build\_ext}}
|
|
\label{build-ext-cmd}
|
|
|
|
\subsubsection{\protect\command{build\_clib}}
|
|
\label{build-clib-cmd}
|
|
|
|
|
|
\subsection{Installing modules: the \protect\command{install} command family}
|
|
\label{install-cmd}
|
|
|
|
The install command ensures that the build commands have been run and then
|
|
runs the subcommands \command{install\_lib},
|
|
\command{install\_data} and
|
|
\command{install\_scripts}.
|
|
|
|
\subsubsection{\protect\command{install\_lib}}
|
|
\label{sec:install-lib-cmd}
|
|
|
|
\subsubsection{\protect\command{install\_data}}
|
|
\label{sec:install-data-cmd}
|
|
This command installs all data files provided with the distribution.
|
|
|
|
\subsubsection{\protect\command{install\_scripts}}
|
|
\label{sec:install-scripts-cmd}
|
|
This command installs all (Python) scripts in the distribution.
|
|
|
|
|
|
\subsection{Cleaning up: the \protect\command{clean} command}
|
|
\label{clean-cmd}
|
|
|
|
|
|
\subsection{Creating a source distribution: the \protect\command{sdist} command}
|
|
\label{sdist-cmd}
|
|
|
|
|
|
\XXX{fragment moved down from above: needs context!}
|
|
The manifest template commands are:
|
|
\begin{tableii}{ll}{command}{Command}{Description}
|
|
\lineii{include \var{pat1} \var{pat2} ... }
|
|
{include all files matching any of the listed patterns}
|
|
\lineii{exclude \var{pat1} \var{pat2} ... }
|
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{exclude all files matching any of the listed patterns}
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\lineii{recursive-include \var{dir} \var{pat1} \var{pat2} ... }
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{include all files under \var{dir} matching any of the listed patterns}
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\lineii{recursive-exclude \var{dir} \var{pat1} \var{pat2} ...}
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{exclude all files under \var{dir} matching any of the listed patterns}
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\lineii{global-include \var{pat1} \var{pat2} ...}
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{include all files anywhere in the source tree matching\\&
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|
any of the listed patterns}
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\lineii{global-exclude \var{pat1} \var{pat2} ...}
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|
{exclude all files anywhere in the source tree matching\\&
|
|
any of the listed patterns}
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|
\lineii{prune \var{dir}}{exclude all files under \var{dir}}
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\lineii{graft \var{dir}}{include all files under \var{dir}}
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\end{tableii}
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The patterns here are Unix-style ``glob'' patterns: \code{*} matches any
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|
sequence of regular filename characters, \code{?} matches any single
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|
regular filename character, and \code{[\var{range}]} matches any of the
|
|
characters in \var{range} (e.g., \code{a-z}, \code{a-zA-Z},
|
|
\code{a-f0-9\_.}). The definition of ``regular filename character'' is
|
|
platform-specific: on Unix it is anything except slash; on Windows
|
|
anything except backslash or colon; on Mac OS anything except colon.
|
|
\XXX{Windows and Mac OS support not there yet}
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|
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\subsection{Creating a ``built'' distribution: the
|
|
\protect\command{bdist} command family}
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\label{bdist-cmds}
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\subsubsection{\protect\command{blib}}
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\subsubsection{\protect\command{blib\_dumb}}
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\subsubsection{\protect\command{blib\_rpm}}
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|
|
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\subsubsection{\protect\command{blib\_wise}}
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\end{document}
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