460 lines
22 KiB
ReStructuredText
460 lines
22 KiB
ReStructuredText
.. _built-dist:
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****************************
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Creating Built Distributions
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****************************
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A "built distribution" is what you're probably used to thinking of either as a
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"binary package" or an "installer" (depending on your background). It's not
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necessarily binary, though, because it might contain only Python source code
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and/or byte-code; and we don't call it a package, because that word is already
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spoken for in Python. (And "installer" is a term specific to the world of
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mainstream desktop systems.)
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A built distribution is how you make life as easy as possible for installers of
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your module distribution: for users of RPM-based Linux systems, it's a binary
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RPM; for Windows users, it's an executable installer; for Debian-based Linux
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users, it's a Debian package; and so forth. Obviously, no one person will be
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able to create built distributions for every platform under the sun, so the
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Distutils are designed to enable module developers to concentrate on their
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specialty---writing code and creating source distributions---while an
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intermediary species called *packagers* springs up to turn source distributions
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into built distributions for as many platforms as there are packagers.
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Of course, the module developer could be their own packager; or the packager could
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be a volunteer "out there" somewhere who has access to a platform which the
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original developer does not; or it could be software periodically grabbing new
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source distributions and turning them into built distributions for as many
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platforms as the software has access to. Regardless of who they are, a packager
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uses the setup script and the :command:`bdist` command family to generate built
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distributions.
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As a simple example, if I run the following command in the Distutils source
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tree::
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python setup.py bdist
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then the Distutils builds my module distribution (the Distutils itself in this
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case), does a "fake" installation (also in the :file:`build` directory), and
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creates the default type of built distribution for my platform. The default
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format for built distributions is a "dumb" tar file on Unix, and a simple
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executable installer on Windows. (That tar file is considered "dumb" because it
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has to be unpacked in a specific location to work.)
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Thus, the above command on a Unix system creates
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:file:`Distutils-1.0.{plat}.tar.gz`; unpacking this tarball from the right place
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installs the Distutils just as though you had downloaded the source distribution
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and run ``python setup.py install``. (The "right place" is either the root of
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the filesystem or Python's :file:`{prefix}` directory, depending on the options
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given to the :command:`bdist_dumb` command; the default is to make dumb
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distributions relative to :file:`{prefix}`.)
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Obviously, for pure Python distributions, this isn't any simpler than just
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running ``python setup.py install``\ ---but for non-pure distributions, which
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include extensions that would need to be compiled, it can mean the difference
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between someone being able to use your extensions or not. And creating "smart"
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built distributions, such as an RPM package or an executable installer for
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Windows, is far more convenient for users even if your distribution doesn't
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include any extensions.
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The :command:`bdist` command has a :option:`!--formats` option, similar to the
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:command:`sdist` command, which you can use to select the types of built
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distribution to generate: for example, ::
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python setup.py bdist --format=zip
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would, when run on a Unix system, create
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:file:`Distutils-1.0.{plat}.zip`\ ---again, this archive would be unpacked
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from the root directory to install the Distutils.
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The available formats for built distributions are:
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+-------------+------------------------------+---------+
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| Format | Description | Notes |
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+=============+==============================+=========+
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| ``gztar`` | gzipped tar file | \(1) |
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| | (:file:`.tar.gz`) | |
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+-------------+------------------------------+---------+
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| ``bztar`` | bzipped tar file | |
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| | (:file:`.tar.bz2`) | |
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+-------------+------------------------------+---------+
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| ``xztar`` | xzipped tar file | |
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| | (:file:`.tar.xz`) | |
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+-------------+------------------------------+---------+
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| ``ztar`` | compressed tar file | \(3) |
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| | (:file:`.tar.Z`) | |
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+-------------+------------------------------+---------+
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| ``tar`` | tar file (:file:`.tar`) | |
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+-------------+------------------------------+---------+
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| ``zip`` | zip file (:file:`.zip`) | (2),(4) |
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+-------------+------------------------------+---------+
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| ``rpm`` | RPM | \(5) |
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+-------------+------------------------------+---------+
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| ``pkgtool`` | Solaris :program:`pkgtool` | |
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+-------------+------------------------------+---------+
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| ``sdux`` | HP-UX :program:`swinstall` | |
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+-------------+------------------------------+---------+
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| ``wininst`` | self-extracting ZIP file for | \(4) |
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| | Windows | |
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+-------------+------------------------------+---------+
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| ``msi`` | Microsoft Installer. | |
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+-------------+------------------------------+---------+
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.. versionchanged:: 3.5
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Added support for the ``xztar`` format.
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Notes:
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(1)
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default on Unix
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(2)
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default on Windows
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(3)
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requires external :program:`compress` utility.
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(4)
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requires either external :program:`zip` utility or :mod:`zipfile` module (part
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of the standard Python library since Python 1.6)
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(5)
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requires external :program:`rpm` utility, version 3.0.4 or better (use ``rpm
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--version`` to find out which version you have)
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You don't have to use the :command:`bdist` command with the :option:`!--formats`
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option; you can also use the command that directly implements the format you're
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interested in. Some of these :command:`bdist` "sub-commands" actually generate
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several similar formats; for instance, the :command:`bdist_dumb` command
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generates all the "dumb" archive formats (``tar``, ``gztar``, ``bztar``,
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``xztar``, ``ztar``, and ``zip``), and :command:`bdist_rpm` generates both
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binary and source RPMs. The :command:`bdist` sub-commands, and the formats
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generated by each, are:
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+--------------------------+-------------------------------------+
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| Command | Formats |
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+==========================+=====================================+
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| :command:`bdist_dumb` | tar, gztar, bztar, xztar, ztar, zip |
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+--------------------------+-------------------------------------+
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| :command:`bdist_rpm` | rpm, srpm |
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+--------------------------+-------------------------------------+
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| :command:`bdist_wininst` | wininst |
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+--------------------------+-------------------------------------+
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| :command:`bdist_msi` | msi |
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+--------------------------+-------------------------------------+
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The following sections give details on the individual :command:`bdist_\*`
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commands.
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.. .. _creating-dumb:
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.. Creating dumb built distributions
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.. =================================
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.. XXX Need to document absolute vs. prefix-relative packages here, but first
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I have to implement it!
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.. _creating-rpms:
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Creating RPM packages
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=====================
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The RPM format is used by many popular Linux distributions, including Red Hat,
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SuSE, and Mandrake. If one of these (or any of the other RPM-based Linux
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distributions) is your usual environment, creating RPM packages for other users
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of that same distribution is trivial. Depending on the complexity of your module
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distribution and differences between Linux distributions, you may also be able
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to create RPMs that work on different RPM-based distributions.
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The usual way to create an RPM of your module distribution is to run the
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:command:`bdist_rpm` command::
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python setup.py bdist_rpm
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or the :command:`bdist` command with the :option:`!--format` option::
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python setup.py bdist --formats=rpm
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The former allows you to specify RPM-specific options; the latter allows you to
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easily specify multiple formats in one run. If you need to do both, you can
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explicitly specify multiple :command:`bdist_\*` commands and their options::
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python setup.py bdist_rpm --packager="John Doe <jdoe@example.org>" \
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bdist_wininst --target-version="2.0"
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Creating RPM packages is driven by a :file:`.spec` file, much as using the
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Distutils is driven by the setup script. To make your life easier, the
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:command:`bdist_rpm` command normally creates a :file:`.spec` file based on the
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information you supply in the setup script, on the command line, and in any
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Distutils configuration files. Various options and sections in the
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:file:`.spec` file are derived from options in the setup script as follows:
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+------------------------------------------+----------------------------------------------+
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| RPM :file:`.spec` file option or section | Distutils setup script option |
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+==========================================+==============================================+
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| Name | ``name`` |
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+------------------------------------------+----------------------------------------------+
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| Summary (in preamble) | ``description`` |
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+------------------------------------------+----------------------------------------------+
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| Version | ``version`` |
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+------------------------------------------+----------------------------------------------+
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| Vendor | ``author`` and ``author_email``, |
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| | or --- & ``maintainer`` and |
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| | ``maintainer_email`` |
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+------------------------------------------+----------------------------------------------+
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| Copyright | ``license`` |
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+------------------------------------------+----------------------------------------------+
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| Url | ``url`` |
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+------------------------------------------+----------------------------------------------+
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| %description (section) | ``long_description`` |
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+------------------------------------------+----------------------------------------------+
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Additionally, there are many options in :file:`.spec` files that don't have
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corresponding options in the setup script. Most of these are handled through
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options to the :command:`bdist_rpm` command as follows:
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+-------------------------------+-----------------------------+-------------------------+
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| RPM :file:`.spec` file option | :command:`bdist_rpm` option | default value |
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| or section | | |
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+===============================+=============================+=========================+
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| Release | ``release`` | "1" |
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+-------------------------------+-----------------------------+-------------------------+
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| Group | ``group`` | "Development/Libraries" |
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+-------------------------------+-----------------------------+-------------------------+
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| Vendor | ``vendor`` | (see above) |
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+-------------------------------+-----------------------------+-------------------------+
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| Packager | ``packager`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| Provides | ``provides`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| Requires | ``requires`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| Conflicts | ``conflicts`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| Obsoletes | ``obsoletes`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| Distribution | ``distribution_name`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| BuildRequires | ``build_requires`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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| Icon | ``icon`` | (none) |
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+-------------------------------+-----------------------------+-------------------------+
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Obviously, supplying even a few of these options on the command-line would be
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tedious and error-prone, so it's usually best to put them in the setup
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configuration file, :file:`setup.cfg`\ ---see section :ref:`setup-config`. If
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you distribute or package many Python module distributions, you might want to
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put options that apply to all of them in your personal Distutils configuration
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file (:file:`~/.pydistutils.cfg`). If you want to temporarily disable
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this file, you can pass the :option:`!--no-user-cfg` option to :file:`setup.py`.
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There are three steps to building a binary RPM package, all of which are
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handled automatically by the Distutils:
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#. create a :file:`.spec` file, which describes the package (analogous to the
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Distutils setup script; in fact, much of the information in the setup script
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winds up in the :file:`.spec` file)
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#. create the source RPM
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#. create the "binary" RPM (which may or may not contain binary code, depending
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on whether your module distribution contains Python extensions)
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Normally, RPM bundles the last two steps together; when you use the Distutils,
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all three steps are typically bundled together.
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If you wish, you can separate these three steps. You can use the
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:option:`!--spec-only` option to make :command:`bdist_rpm` just create the
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:file:`.spec` file and exit; in this case, the :file:`.spec` file will be
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written to the "distribution directory"---normally :file:`dist/`, but
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customizable with the :option:`!--dist-dir` option. (Normally, the :file:`.spec`
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file winds up deep in the "build tree," in a temporary directory created by
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:command:`bdist_rpm`.)
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.. % \XXX{this isn't implemented yet---is it needed?!}
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.. % You can also specify a custom \file{.spec} file with the
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.. % \longprogramopt{spec-file} option; used in conjunction with
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.. % \longprogramopt{spec-only}, this gives you an opportunity to customize
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.. % the \file{.spec} file manually:
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.. %
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.. % \ begin{verbatim}
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.. % > python setup.py bdist_rpm --spec-only
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.. % # ...edit dist/FooBar-1.0.spec
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.. % > python setup.py bdist_rpm --spec-file=dist/FooBar-1.0.spec
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.. % \ end{verbatim}
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.. %
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.. % (Although a better way to do this is probably to override the standard
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.. % \command{bdist\_rpm} command with one that writes whatever else you want
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.. % to the \file{.spec} file.)
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.. _creating-wininst:
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Creating Windows Installers
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===========================
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Executable installers are the natural format for binary distributions on
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Windows. They display a nice graphical user interface, display some information
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about the module distribution to be installed taken from the metadata in the
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setup script, let the user select a few options, and start or cancel the
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installation.
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Since the metadata is taken from the setup script, creating Windows installers
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is usually as easy as running::
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python setup.py bdist_wininst
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or the :command:`bdist` command with the :option:`!--formats` option::
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python setup.py bdist --formats=wininst
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If you have a pure module distribution (only containing pure Python modules and
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packages), the resulting installer will be version independent and have a name
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like :file:`foo-1.0.win32.exe`. Note that creating ``wininst`` binary
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distributions in only supported on Windows systems.
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If you have a non-pure distribution, the extensions can only be created on a
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Windows platform, and will be Python version dependent. The installer filename
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will reflect this and now has the form :file:`foo-1.0.win32-py2.0.exe`. You
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have to create a separate installer for every Python version you want to
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support.
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The installer will try to compile pure modules into :term:`bytecode` after installation
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on the target system in normal and optimizing mode. If you don't want this to
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happen for some reason, you can run the :command:`bdist_wininst` command with
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the :option:`!--no-target-compile` and/or the :option:`!--no-target-optimize`
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option.
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By default the installer will display the cool "Python Powered" logo when it is
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run, but you can also supply your own 152x261 bitmap which must be a Windows
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:file:`.bmp` file with the :option:`!--bitmap` option.
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The installer will also display a large title on the desktop background window
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when it is run, which is constructed from the name of your distribution and the
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version number. This can be changed to another text by using the
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:option:`!--title` option.
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The installer file will be written to the "distribution directory" --- normally
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:file:`dist/`, but customizable with the :option:`!--dist-dir` option.
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.. _cross-compile-windows:
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Cross-compiling on Windows
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==========================
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Starting with Python 2.6, distutils is capable of cross-compiling between
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Windows platforms. In practice, this means that with the correct tools
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installed, you can use a 32bit version of Windows to create 64bit extensions
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and vice-versa.
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To build for an alternate platform, specify the :option:`!--plat-name` option
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to the build command. Valid values are currently 'win32', and 'win-amd64'.
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For example, on a 32bit version of Windows, you could execute::
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python setup.py build --plat-name=win-amd64
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to build a 64bit version of your extension. The Windows Installers also
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support this option, so the command::
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python setup.py build --plat-name=win-amd64 bdist_wininst
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would create a 64bit installation executable on your 32bit version of Windows.
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To cross-compile, you must download the Python source code and cross-compile
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Python itself for the platform you are targeting - it is not possible from a
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binary installation of Python (as the .lib etc file for other platforms are
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not included.) In practice, this means the user of a 32 bit operating
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system will need to use Visual Studio 2008 to open the
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:file:`PCbuild/PCbuild.sln` solution in the Python source tree and build the
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"x64" configuration of the 'pythoncore' project before cross-compiling
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extensions is possible.
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Note that by default, Visual Studio 2008 does not install 64bit compilers or
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tools. You may need to reexecute the Visual Studio setup process and select
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these tools (using Control Panel->[Add/Remove] Programs is a convenient way to
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check or modify your existing install.)
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.. _postinstallation-script:
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The Postinstallation script
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---------------------------
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Starting with Python 2.3, a postinstallation script can be specified with the
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:option:`!--install-script` option. The basename of the script must be
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specified, and the script filename must also be listed in the scripts argument
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to the setup function.
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This script will be run at installation time on the target system after all the
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files have been copied, with ``argv[1]`` set to :option:`!-install`, and again at
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uninstallation time before the files are removed with ``argv[1]`` set to
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:option:`!-remove`.
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The installation script runs embedded in the windows installer, every output
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(``sys.stdout``, ``sys.stderr``) is redirected into a buffer and will be
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displayed in the GUI after the script has finished.
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Some functions especially useful in this context are available as additional
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built-in functions in the installation script.
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.. function:: directory_created(path)
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file_created(path)
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These functions should be called when a directory or file is created by the
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postinstall script at installation time. It will register *path* with the
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uninstaller, so that it will be removed when the distribution is uninstalled.
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To be safe, directories are only removed if they are empty.
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.. function:: get_special_folder_path(csidl_string)
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This function can be used to retrieve special folder locations on Windows like
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the Start Menu or the Desktop. It returns the full path to the folder.
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*csidl_string* must be one of the following strings::
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"CSIDL_APPDATA"
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"CSIDL_COMMON_STARTMENU"
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"CSIDL_STARTMENU"
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"CSIDL_COMMON_DESKTOPDIRECTORY"
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"CSIDL_DESKTOPDIRECTORY"
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"CSIDL_COMMON_STARTUP"
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"CSIDL_STARTUP"
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"CSIDL_COMMON_PROGRAMS"
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"CSIDL_PROGRAMS"
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"CSIDL_FONTS"
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If the folder cannot be retrieved, :exc:`OSError` is raised.
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Which folders are available depends on the exact Windows version, and probably
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also the configuration. For details refer to Microsoft's documentation of the
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:c:func:`SHGetSpecialFolderPath` function.
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.. function:: create_shortcut(target, description, filename[, arguments[, workdir[, iconpath[, iconindex]]]])
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This function creates a shortcut. *target* is the path to the program to be
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started by the shortcut. *description* is the description of the shortcut.
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*filename* is the title of the shortcut that the user will see. *arguments*
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specifies the command line arguments, if any. *workdir* is the working directory
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for the program. *iconpath* is the file containing the icon for the shortcut,
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and *iconindex* is the index of the icon in the file *iconpath*. Again, for
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details consult the Microsoft documentation for the :class:`IShellLink`
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interface.
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Vista User Access Control (UAC)
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===============================
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Starting with Python 2.6, bdist_wininst supports a :option:`!--user-access-control`
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option. The default is 'none' (meaning no UAC handling is done), and other
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valid values are 'auto' (meaning prompt for UAC elevation if Python was
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installed for all users) and 'force' (meaning always prompt for elevation).
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