Doc/packaging/setupcfg.rst - platform/external/python/cpython3 - Gitiles

 .. highlightlang:: cfg

 .. _setupcfg-spec:

 *******************************************
 Specification of the :file:`setup.cfg` file
 *******************************************

 :version: 0.9

 This document describes the :file:`setup.cfg`, an ini-style configuration file
 used by Packaging to replace the :file:`setup.py` file used by Distutils.
 This specification is language-agnostic, and will therefore repeat some
 information that's already documented for Python in the
 :class:`configparser.RawConfigParser` documentation.

 .. contents::
    :depth: 3
    :local:


 Syntax
 ======

 The ini-style format used in the configuration file is a simple collection of
 sections that group sets of key-value fields separated by ``=`` or ``:`` and
 optional whitespace.  Lines starting with ``#`` or ``;`` are comments and will
 be ignored.  Empty lines are also ignored.  Example::

    [section1]
    # comment
    name = value
    name2 = "other value"

    [section2]
    foo = bar


 Parsing values
 ---------------

 Here are a set of rules to parse values:

 - If a value is quoted with ``"`` chars, it's a string.  If a quote character is
   present in the quoted value, it can be escaped as ``\"`` or left as-is.

 - If the value is ``true``, ``t``, ``yes``, ``y`` (case-insensitive) or ``1``,
   it's converted to the language equivalent of a ``True`` value; if it's
   ``false``, ``f``, ``no``, ``n`` (case-insensitive) or ``0``, it's converted to
   the equivalent of ``False``.

 - A value can contain multiple lines.  When read, lines are converted into a
   sequence of values.  Each line after the first must start with a least one
   space or tab character; this leading indentation will be stripped.

 - All other values are considered strings.

 Examples::

    [section]
    foo = one
          two
          three

    bar = false
    baz = 1.3
    boo = "ok"
    beee = "wqdqw pojpj w\"ddq"


 Extending files
 ---------------

 A configuration file can be extended (i.e. included) by other files.  For this,
 a ``DEFAULT`` section must contain an ``extends`` key which value points to one
 or more files which will be merged into the current files by adding new sections
 and fields.  If a file loaded by ``extends`` contains sections or keys that
 already exist in the original file, they will not override the previous values.

 Contents of :file:`one.cfg`::

     [section1]
     name = value

     [section2]
     foo = foo from one.cfg

 Contents of :file:`two.cfg`::

     [DEFAULT]
     extends = one.cfg

     [section2]
     foo = foo from two.cfg
     baz = baz from two.cfg

 The result of parsing :file:`two.cfg` is equivalent to this file::

     [section1]
     name = value

     [section2]
     foo = foo from one.cfg
     baz = baz from two.cfg

 Example use of multi-line notation to include more than one file::

     [DEFAULT]
     extends = one.cfg
               two.cfg

 When several files are provided, they are processed sequentially, following the
 precedence rules explained above.  This means that the list of files should go
 from most specialized to most common.

 **Tools will need to provide a way to produce a merged version of the
 file**.  This will be useful to let users publish a single file.


 Description of sections and fields
 ==================================

 Each section contains a description of its options.

 - Options that are marked *multi* can have multiple values, one value per
   line.
 - Options that are marked *optional* can be omitted.
 - Options that are marked *environ* can use environment markers, as described
   in :PEP:`345`.


 The sections are:

 global
    Global options not related to one command.

 metadata
    Name, version and other information defined by :PEP:`345`.

 files
    Modules, scripts, data, documentation and other files to include in the
    distribution.

 command sections
    Options given for specific commands, identical to those that can be given
    on the command line.


 Global options
 ==============

 Contains global options for Packaging. This section is shared with Distutils.


 commands
    Defined Packaging command. A command is defined by its fully
    qualified name. *optional*, *multi*

    Examples::

       [global]
       commands =
           package.setup.CustomSdistCommand
           package.setup.BdistDeb

 compilers
    Defined Packaging compiler. A compiler is defined by its fully
    qualified name. *optional*, *multi*

    Example::

       [global]
       compilers =
           hotcompiler.SmartCCompiler

 setup_hook
    defines a callable that will be called right after the
    :file:`setup.cfg` file is read. The callable receives the configuration
    in form of a mapping and can make some changes to it. *optional*

    Example::

       [global]
       setup_hook = package.setup.customize_dist


 Metadata
 ========

 The metadata section contains the metadata for the project as described in
 :PEP:`345`.  Field names are case-insensitive.

 Fields:

 name
    Name of the project.

 version
    Version of the project. Must comply with :PEP:`386`.

 platform
    Platform specification describing an operating system
    supported by the distribution which is not listed in the "Operating System"
    Trove classifiers (:PEP:`301`).  *optional*, *multi*

 supported-platform
    Binary distributions containing a PKG-INFO file will
    use the Supported-Platform field in their metadata to specify the OS and
    CPU for which the binary distribution was compiled.  The semantics of
    the Supported-Platform field are free form. *optional*, *multi*

 summary
    A one-line summary of what the distribution does.
    (Used to be called *description* in Distutils1.)

 description
    A longer description. (Used to be called *long_description*
    in Distutils1.) A file can be provided in the *description-file* field.
    *optional*

 keywords
    A list of additional keywords to be used to assist searching
    for the distribution in a larger catalog. Comma or space-separated.
    *optional*

 home-page
    The URL for the distribution's home page.

 download-url
    The URL from which this version of the distribution
    can be downloaded. *optional*

 author
    Author's name. *optional*

 author-email
    Author's e-mail. *optional*

 maintainer
    Maintainer's name. *optional*

 maintainer-email
    Maintainer's e-mail. *optional*

 license
    A text indicating the term of uses, when a trove classifier does
    not match. *optional*.

 classifiers
    Classification for the distribution, as described in PEP 301.
    *optional*, *multi*, *environ*

 requires-dist
    name of another packaging project required as a dependency.
    The format is *name (version)* where version is an optional
    version declaration, as described in PEP 345. *optional*, *multi*, *environ*

 provides-dist
    name of another packaging project contained within this
    distribution. Same format than *requires-dist*. *optional*, *multi*,
    *environ*

 obsoletes-dist
    name of another packaging project this version obsoletes.
    Same format than *requires-dist*. *optional*, *multi*, *environ*

 requires-python
    Specifies the Python version the distribution requires.  The value is a
    comma-separated list of version predicates, as described in PEP 345.
    *optional*, *environ*

 requires-externals
    a dependency in the system. This field is free-form,
    and just a hint for downstream maintainers. *optional*, *multi*,
    *environ*

 project-url
    A label, followed by a browsable URL for the project.
    "label, url". The label is limited to 32 signs. *optional*, *multi*

 One extra field not present in PEP 345 is supported:

 description-file
    Path to a text file that will be used to fill the ``description`` field.
    ``description-file`` and ``description`` are mutually exclusive.  *optional*


 Example::

    [metadata]
    name = pypi2rpm
    version = 0.1
    author = Tarek Ziadé
    author-email = tarek@ziade.org
    summary = Script that transforms an sdist archive into a RPM package
    description-file = README
    home-page = http://bitbucket.org/tarek/pypi2rpm/wiki/Home
    project-url:
        Repository, http://bitbucket.org/tarek/pypi2rpm/
        RSS feed, https://bitbucket.org/tarek/pypi2rpm/rss
    classifier =
        Development Status :: 3 - Alpha
        License :: OSI Approved :: Mozilla Public License 1.1 (MPL 1.1)

 You should not give any explicit value for metadata-version: it will be guessed
 from the fields present in the file.


 Files
 =====

 This section describes the files included in the project.

 packages_root
    the root directory containing all packages and modules
    (default: current directory).  *optional*

 packages
    a list of packages the project includes *optional*, *multi*

 modules
    a list of packages the project includes *optional*, *multi*

 scripts
    a list of scripts the project includes *optional*, *multi*

 extra_files
    a list of patterns to include extra files *optional*,
    *multi*

 Example::

    [files]
    packages_root = src
    packages =
        pypi2rpm
        pypi2rpm.command

    scripts =
        pypi2rpm/pypi2rpm.py

    extra_files =
        setup.py
        README


 .. Note::
    The :file:`setup.cfg` configuration file is included by default.  Contrary to
    Distutils, :file:`README` (or :file:`README.txt`) and :file:`setup.py` are
    not included by default.


 Resources
 ---------

 This section describes the files used by the project which must not be installed
 in the same place that python modules or libraries, they are called
 **resources**. They are for example documentation files, script files,
 databases, etc...

 For declaring resources, you must use this notation::

    source = destination

 Data-files are declared in the **resources** field in the **file** section, for
 example::

    [files]
    resources =
        source1 = destination1
        source2 = destination2

 The **source** part of the declaration are relative paths of resources files
 (using unix path separator **/**). For example, if you've this source tree::

    foo/
       doc/
          doc.man
       scripts/
          foo.sh

 Your setup.cfg will look like::

    [files]
    resources =
        doc/doc.man = destination_doc
        scripts/foo.sh = destination_scripts

 The final paths where files will be placed are composed by : **source** +
 **destination**. In the previous example, **doc/doc.man** will be placed in
 **destination_doc/doc/doc.man** and **scripts/foo.sh** will be placed in
 **destination_scripts/scripts/foo.sh**. (If you want more control on the final
 path, take a look at :ref:`setupcfg-resources-base-prefix`).

 The **destination** part of resources declaration are paths with categories.
 Indeed, it's generally a bad idea to give absolute path as it will be cross
 incompatible. So, you must use resources categories in your **destination**
 declaration. Categories will be replaced by their real path at the installation
 time. Using categories is all benefit, your declaration will be simpler, cross
 platform and it will allow packager to place resources files where they want
 without breaking your code.

 Categories can be specified by using this syntax::

    {category}

 Default categories are:

 * config
 * appdata
 * appdata.arch
 * appdata.persistent
 * appdata.disposable
 * help
 * icon
 * scripts
 * doc
 * info
 * man

 A special category also exists **{distribution.name}** that will be replaced by
 the name of the distribution, but as most of the defaults categories use them,
 so it's not necessary to add **{distribution.name}** into your destination.

 If you use categories in your declarations, and you are encouraged to do, final
 path will be::

    source + destination_expanded

 .. _example_final_path:

 For example, if you have this setup.cfg::

    [metadata]
    name = foo

    [files]
    resources =
        doc/doc.man = {doc}

 And if **{doc}** is replaced by **{datadir}/doc/{distribution.name}**, final
 path will be::

    {datadir}/doc/foo/doc/doc.man

 Where {datafir} category will be platform-dependent.


 More control on source part
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^

 Glob syntax
 """""""""""

 When you declare source file, you can use a glob-like syntax to match multiples file, for example::

    scripts/* = {script}

 Will match all the files in the scripts directory and placed them in the script category.

 Glob tokens are:

  * ``*``: match all files.
  * ``?``: match any character.
  * ``**``: match any level of tree recursion (even 0).
  * ``{}``: will match any part separated by comma (example: ``{sh,bat}``).

 .. TODO Add examples

 Order of declaration
 """"""""""""""""""""

 The order of declaration is important if one file match multiple rules. The last
 rules matched by file is used, this is useful if you have this source tree::

    foo/
       doc/
          index.rst
          setup.rst
          documentation.txt
          doc.tex
          README

 And you want all the files in the doc directory to be placed in {doc} category,
 but README must be placed in {help} category, instead of listing all the files
 one by one, you can declare them in this way::

    [files]
    resources =
        doc/* = {doc}
        doc/README = {help}

 Exclude
 """""""

 You can exclude some files of resources declaration by giving no destination, it
 can be useful if you have a non-resources file in the same directory of
 resources files::

    foo/
       doc/
          RELEASES
          doc.tex
          documentation.txt
          docu.rst

 Your **files** section will be::

    [files]
    resources =
        doc/* = {doc}
        doc/RELEASES =

 More control on destination part
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 .. _setupcfg-resources-base-prefix:

 Defining a base prefix
 """"""""""""""""""""""

 When you define your resources, you can have more control of how the final path
 is computed.

 By default, the final path is::

    destination + source

 This can generate long paths, for example (example_final_path_)::

    {datadir}/doc/foo/doc/doc.man

 When you declare your source, you can use whitespace to split the source in
 **prefix** **suffix**.  So, for example, if you have this source::

    docs/ doc.man

 The **prefix** is "docs/" and the **suffix** is "doc.html".

 .. note::

    Separator can be placed after a path separator or replace it. So these two
    sources are equivalent::

       docs/ doc.man
       docs doc.man

 .. note::

    Glob syntax is working the same way with standard source and split source.
    So these rules::

       docs/*
       docs/ *
       docs *

    Will match all the files in the docs directory.

 When you use split source, the final path is computed this way::

    destination + prefix

 So for example, if you have this setup.cfg::

    [metadata]
    name = foo

    [files]
    resources =
        doc/ doc.man = {doc}

 And if **{doc}** is replaced by **{datadir}/doc/{distribution.name}**, final
 path will be::

    {datadir}/doc/foo/doc.man


 Overwriting paths for categories
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 This part is intended for system administrators or downstream OS packagers.

 The real paths of categories are registered in the *sysconfig.cfg* file
 installed in your python installation. This file uses an ini format too.
 The content of the file is organized into several sections:

 * globals: Standard categories's paths.
 * posix_prefix: Standard paths for categories and installation paths for posix
   system.
 * other ones XXX

 Standard categories paths are platform independent, they generally refers to
 other categories, which are platform dependent. :mod:`sysconfig` will choose
 these category from sections matching os.name. For example::

    doc = {datadir}/doc/{distribution.name}

 It refers to datadir category, which can be different between platforms. In
 posix system, it may be::

    datadir = /usr/share

 So the final path will be::

    doc = /usr/share/doc/{distribution.name}

 The platform-dependent categories are:

 * confdir
 * datadir
 * libdir
 * base


 Defining extra categories
 ^^^^^^^^^^^^^^^^^^^^^^^^^

 .. TODO


 Examples
 ^^^^^^^^

 These examples are incremental but work unitarily.

 Resources in root dir
 """""""""""""""""""""

 Source tree::

    babar-1.0/
       README
       babar.sh
       launch.sh
       babar.py

 :file:`setup.cfg`::

    [files]
    resources =
        README = {doc}
        *.sh = {scripts}

 So babar.sh and launch.sh will be placed in {scripts} directory.

 Now let's move all the scripts into a scripts directory.

 Resources in sub-directory
 """"""""""""""""""""""""""

 Source tree::

    babar-1.1/
       README
       scripts/
          babar.sh
          launch.sh
          LAUNCH
       babar.py

 :file:`setup.cfg`::

    [files]
    resources =
        README = {doc}
        scripts/ LAUNCH = {doc}
        scripts/ *.sh = {scripts}

 It's important to use the separator after scripts/ to install all the shell
 scripts into {scripts} instead of {scripts}/scripts.

 Now let's add some docs.

 Resources in multiple sub-directories
 """""""""""""""""""""""""""""""""""""

 Source tree::

    babar-1.2/
       README
       scripts/
          babar.sh
          launch.sh
          LAUNCH
       docs/
          api
          man
       babar.py

 :file:`setup.cfg`::

    [files]
    resources =
         README = {doc}
         scripts/ LAUNCH = {doc}
         scripts/ *.sh = {scripts}
         doc/ * = {doc}
         doc/ man = {man}

 You want to place all the file in the docs script into {doc} category, instead
 of man, which must be placed into {man} category, we will use the order of
 declaration of globs to choose the destination, the last glob that match the
 file is used.

 Now let's add some scripts for windows users.

 Complete example
 """"""""""""""""

 Source tree::

    babar-1.3/
       README
       doc/
          api
          man
       scripts/
          babar.sh
          launch.sh
          babar.bat
          launch.bat
          LAUNCH

 :file:`setup.cfg`::

     [files]
     resources =
         README = {doc}
         scripts/ LAUNCH = {doc}
         scripts/ *.{sh,bat} = {scripts}
         doc/ * = {doc}
         doc/ man = {man}

 We use brace expansion syntax to place all the shell and batch scripts into
 {scripts} category.


 Command sections
 ================

 To pass options to commands without having to type them on the command line
 for each invocation, you can write them in the :file:`setup.cfg` file, in a
 section named after the command.  Example::

    [sdist]
    # special function to add custom files
    manifest-builders = package.setup.list_extra_files

    [build]
    use-2to3 = True

    [build_ext]
    inplace = on

    [check]
    strict = on
    all = on

 Option values given in the configuration file can be overriden on the command
 line.  See :ref:`packaging-setup-config` for more information.


 Extensibility
 =============

 Every section can have fields that are not part of this specification.  They are
 called **extensions**.

 An extension field starts with ``X-``.  Example::

    [metadata]
    name = Distribute
    X-Debian-Name = python-distribute


 Changes in the specification
 ============================

 The versioning scheme for this specification is **MAJOR.MINOR**.  Changes in the
 specification will cause the version number to be updated.

 Changes to the minor number reflect backwards-compatible changes:

 - New fields and sections (optional or mandatory) can be added.
 - Optional fields can be removed.

 The major number will be incremented for backwards-incompatible changes:

 - Mandatory fields or sections are removed.
 - Fields change their meaning.

 As a consequence, a tool written to consume 1.5 has these properties:

 - Can read 1.1, 1.2 and all versions < 1.5, since the tool knows what
   optional fields weren't there.

   .. XXX clarify

 - Can also read 1.6 and other 1.x versions: The tool will just ignore fields it
   doesn't know about, even if they are mandatory in the new version.  If
   optional fields were removed, the tool will just consider them absent.

 - Cannot read 2.x and should refuse to interpret such files.

 A tool written to produce 1.x should have these properties:

 - Writes all mandatory fields.
 - May write optional fields.


 Acknowledgments
 ===============

 This specification includes work and feedback from these people:

 - Tarek Ziadé
 - Julien Jehannet
 - Boris Feld
 - Éric Araujo

 (If your name is missing, please :ref:`let us know <reporting-bugs>`.)
	.. highlightlang:: cfg

	.. _setupcfg-spec:

	*******************************************
	Specification of the :file:`setup.cfg` file
	*******************************************

	:version: 0.9

	This document describes the :file:`setup.cfg`, an ini-style configuration file
	used by Packaging to replace the :file:`setup.py` file used by Distutils.
	This specification is language-agnostic, and will therefore repeat some
	information that's already documented for Python in the
	:class:`configparser.RawConfigParser` documentation.

	.. contents::
	:depth: 3
	:local:


	Syntax
	======

	The ini-style format used in the configuration file is a simple collection of
	sections that group sets of key-value fields separated by ``=`` or ``:`` and
	optional whitespace. Lines starting with ``#`` or ``;`` are comments and will
	be ignored. Empty lines are also ignored. Example::

	[section1]
	# comment
	name = value
	name2 = "other value"

	[section2]
	foo = bar


	Parsing values
	---------------

	Here are a set of rules to parse values:

	- If a value is quoted with ``"`` chars, it's a string. If a quote character is
	present in the quoted value, it can be escaped as ``\"`` or left as-is.

	- If the value is ``true``, ``t``, ``yes``, ``y`` (case-insensitive) or ``1``,
	it's converted to the language equivalent of a ``True`` value; if it's
	``false``, ``f``, ``no``, ``n`` (case-insensitive) or ``0``, it's converted to
	the equivalent of ``False``.

	- A value can contain multiple lines. When read, lines are converted into a
	sequence of values. Each line after the first must start with a least one
	space or tab character; this leading indentation will be stripped.

	- All other values are considered strings.

	Examples::

	[section]
	foo = one
	two
	three

	bar = false
	baz = 1.3
	boo = "ok"
	beee = "wqdqw pojpj w\"ddq"


	Extending files
	---------------

	A configuration file can be extended (i.e. included) by other files. For this,
	a ``DEFAULT`` section must contain an ``extends`` key which value points to one
	or more files which will be merged into the current files by adding new sections
	and fields. If a file loaded by ``extends`` contains sections or keys that
	already exist in the original file, they will not override the previous values.

	Contents of :file:`one.cfg`::

	[section1]
	name = value

	[section2]
	foo = foo from one.cfg

	Contents of :file:`two.cfg`::

	[DEFAULT]
	extends = one.cfg

	[section2]
	foo = foo from two.cfg
	baz = baz from two.cfg

	The result of parsing :file:`two.cfg` is equivalent to this file::

	[section1]
	name = value

	[section2]
	foo = foo from one.cfg
	baz = baz from two.cfg

	Example use of multi-line notation to include more than one file::

	[DEFAULT]
	extends = one.cfg
	two.cfg

	When several files are provided, they are processed sequentially, following the
	precedence rules explained above. This means that the list of files should go
	from most specialized to most common.

	**Tools will need to provide a way to produce a merged version of the
	file**. This will be useful to let users publish a single file.


	Description of sections and fields
	==================================

	Each section contains a description of its options.

	- Options that are marked multi can have multiple values, one value per
	line.
	- Options that are marked optional can be omitted.
	- Options that are marked environ can use environment markers, as described
	in :PEP:`345`.


	The sections are:

	global
	Global options not related to one command.

	metadata
	Name, version and other information defined by :PEP:`345`.

	files
	Modules, scripts, data, documentation and other files to include in the
	distribution.

	command sections
	Options given for specific commands, identical to those that can be given
	on the command line.


	Global options
	==============

	Contains global options for Packaging. This section is shared with Distutils.


	commands
	Defined Packaging command. A command is defined by its fully
	qualified name. optional, multi

	Examples::

	[global]
	commands =
	package.setup.CustomSdistCommand
	package.setup.BdistDeb

	compilers
	Defined Packaging compiler. A compiler is defined by its fully
	qualified name. optional, multi

	Example::

	[global]
	compilers =
	hotcompiler.SmartCCompiler

	setup_hook
	defines a callable that will be called right after the
	:file:`setup.cfg` file is read. The callable receives the configuration
	in form of a mapping and can make some changes to it. optional

	Example::

	[global]
	setup_hook = package.setup.customize_dist


	Metadata
	========

	The metadata section contains the metadata for the project as described in
	:PEP:`345`. Field names are case-insensitive.

	Fields:

	name
	Name of the project.

	version
	Version of the project. Must comply with :PEP:`386`.

	platform
	Platform specification describing an operating system
	supported by the distribution which is not listed in the "Operating System"
	Trove classifiers (:PEP:`301`). optional, multi

	supported-platform
	Binary distributions containing a PKG-INFO file will
	use the Supported-Platform field in their metadata to specify the OS and
	CPU for which the binary distribution was compiled. The semantics of
	the Supported-Platform field are free form. optional, multi

	summary
	A one-line summary of what the distribution does.
	(Used to be called description in Distutils1.)

	description
	A longer description. (Used to be called long_description
	in Distutils1.) A file can be provided in the description-file field.
	optional

	keywords
	A list of additional keywords to be used to assist searching
	for the distribution in a larger catalog. Comma or space-separated.
	optional

	home-page
	The URL for the distribution's home page.

	download-url
	The URL from which this version of the distribution
	can be downloaded. optional

	author
	Author's name. optional

	author-email
	Author's e-mail. optional

	maintainer
	Maintainer's name. optional

	maintainer-email
	Maintainer's e-mail. optional

	license
	A text indicating the term of uses, when a trove classifier does
	not match. optional.

	classifiers
	Classification for the distribution, as described in PEP 301.
	optional, multi, environ

	requires-dist
	name of another packaging project required as a dependency.
	The format is name (version) where version is an optional
	version declaration, as described in PEP 345. optional, multi, environ

	provides-dist
	name of another packaging project contained within this
	distribution. Same format than requires-dist. optional, multi,
	environ

	obsoletes-dist
	name of another packaging project this version obsoletes.
	Same format than requires-dist. optional, multi, environ

	requires-python
	Specifies the Python version the distribution requires. The value is a
	comma-separated list of version predicates, as described in PEP 345.
	optional, environ

	requires-externals
	a dependency in the system. This field is free-form,
	and just a hint for downstream maintainers. optional, multi,
	environ

	project-url
	A label, followed by a browsable URL for the project.
	"label, url". The label is limited to 32 signs. optional, multi

	One extra field not present in PEP 345 is supported:

	description-file
	Path to a text file that will be used to fill the ``description`` field.
	``description-file`` and ``description`` are mutually exclusive. optional



	Example::

	[metadata]
	name = pypi2rpm
	version = 0.1
	author = Tarek Ziadé
	author-email = tarek@ziade.org
	summary = Script that transforms an sdist archive into a RPM package
	description-file = README
	home-page = http://bitbucket.org/tarek/pypi2rpm/wiki/Home
	project-url:
	Repository, http://bitbucket.org/tarek/pypi2rpm/
	RSS feed, https://bitbucket.org/tarek/pypi2rpm/rss
	classifier =
	Development Status :: 3 - Alpha
	License :: OSI Approved :: Mozilla Public License 1.1 (MPL 1.1)

	You should not give any explicit value for metadata-version: it will be guessed
	from the fields present in the file.


	Files
	=====

	This section describes the files included in the project.

	packages_root
	the root directory containing all packages and modules
	(default: current directory). optional

	packages
	a list of packages the project includes optional, multi

	modules
	a list of packages the project includes optional, multi

	scripts
	a list of scripts the project includes optional, multi

	extra_files
	a list of patterns to include extra files optional,
	multi

	Example::

	[files]
	packages_root = src
	packages =
	pypi2rpm
	pypi2rpm.command

	scripts =
	pypi2rpm/pypi2rpm.py

	extra_files =
	setup.py
	README


	.. Note::
	The :file:`setup.cfg` configuration file is included by default. Contrary to
	Distutils, :file:`README` (or :file:`README.txt`) and :file:`setup.py` are
	not included by default.


	Resources
	---------

	This section describes the files used by the project which must not be installed
	in the same place that python modules or libraries, they are called
	resources. They are for example documentation files, script files,
	databases, etc...

	For declaring resources, you must use this notation::

	source = destination

	Data-files are declared in the resources field in the file section, for
	example::

	[files]
	resources =
	source1 = destination1
	source2 = destination2

	The source part of the declaration are relative paths of resources files
	(using unix path separator /). For example, if you've this source tree::

	foo/
	doc/
	doc.man
	scripts/
	foo.sh

	Your setup.cfg will look like::

	[files]
	resources =
	doc/doc.man = destination_doc
	scripts/foo.sh = destination_scripts

	The final paths where files will be placed are composed by : source +
	destination. In the previous example, doc/doc.man will be placed in
	destination_doc/doc/doc.man and scripts/foo.sh will be placed in
	destination_scripts/scripts/foo.sh. (If you want more control on the final
	path, take a look at :ref:`setupcfg-resources-base-prefix`).

	The destination part of resources declaration are paths with categories.
	Indeed, it's generally a bad idea to give absolute path as it will be cross
	incompatible. So, you must use resources categories in your destination
	declaration. Categories will be replaced by their real path at the installation
	time. Using categories is all benefit, your declaration will be simpler, cross
	platform and it will allow packager to place resources files where they want
	without breaking your code.

	Categories can be specified by using this syntax::

	{category}

	Default categories are:

	* config
	* appdata
	* appdata.arch
	* appdata.persistent
	* appdata.disposable
	* help
	* icon
	* scripts
	* doc
	* info
	* man

	A special category also exists {distribution.name} that will be replaced by
	the name of the distribution, but as most of the defaults categories use them,
	so it's not necessary to add {distribution.name} into your destination.

	If you use categories in your declarations, and you are encouraged to do, final
	path will be::

	source + destination_expanded

	.. _example_final_path:

	For example, if you have this setup.cfg::

	[metadata]
	name = foo

	[files]
	resources =
	doc/doc.man = {doc}

	And if {doc} is replaced by {datadir}/doc/{distribution.name}, final
	path will be::

	{datadir}/doc/foo/doc/doc.man

	Where {datafir} category will be platform-dependent.


	More control on source part
	^^^^^^^^^^^^^^^^^^^^^^^^^^^

	Glob syntax
	"""""""""""

	When you declare source file, you can use a glob-like syntax to match multiples file, for example::

	scripts/* = {script}

	Will match all the files in the scripts directory and placed them in the script category.

	Glob tokens are:

	* ``*``: match all files.
	* ``?``: match any character.
	* ``**``: match any level of tree recursion (even 0).
	* ``{}``: will match any part separated by comma (example: ``{sh,bat}``).

	.. TODO Add examples

	Order of declaration
	""""""""""""""""""""

	The order of declaration is important if one file match multiple rules. The last
	rules matched by file is used, this is useful if you have this source tree::

	foo/
	doc/
	index.rst
	setup.rst
	documentation.txt
	doc.tex
	README

	And you want all the files in the doc directory to be placed in {doc} category,
	but README must be placed in {help} category, instead of listing all the files
	one by one, you can declare them in this way::

	[files]
	resources =
	doc/* = {doc}
	doc/README = {help}

	Exclude
	"""""""

	You can exclude some files of resources declaration by giving no destination, it
	can be useful if you have a non-resources file in the same directory of
	resources files::

	foo/
	doc/
	RELEASES
	doc.tex
	documentation.txt
	docu.rst

	Your files section will be::

	[files]
	resources =
	doc/* = {doc}
	doc/RELEASES =

	More control on destination part
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	.. _setupcfg-resources-base-prefix:

	Defining a base prefix
	""""""""""""""""""""""

	When you define your resources, you can have more control of how the final path
	is computed.

	By default, the final path is::

	destination + source

	This can generate long paths, for example (example_final_path_)::

	{datadir}/doc/foo/doc/doc.man

	When you declare your source, you can use whitespace to split the source in
	prefix suffix. So, for example, if you have this source::

	docs/ doc.man

	The prefix is "docs/" and the suffix is "doc.html".

	.. note::

	Separator can be placed after a path separator or replace it. So these two
	sources are equivalent::

	docs/ doc.man
	docs doc.man

	.. note::

	Glob syntax is working the same way with standard source and split source.
	So these rules::

	docs/*
	docs/ *
	docs *

	Will match all the files in the docs directory.

	When you use split source, the final path is computed this way::

	destination + prefix

	So for example, if you have this setup.cfg::

	[metadata]
	name = foo

	[files]
	resources =
	doc/ doc.man = {doc}

	And if {doc} is replaced by {datadir}/doc/{distribution.name}, final
	path will be::

	{datadir}/doc/foo/doc.man


	Overwriting paths for categories
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	This part is intended for system administrators or downstream OS packagers.

	The real paths of categories are registered in the sysconfig.cfg file
	installed in your python installation. This file uses an ini format too.
	The content of the file is organized into several sections:

	* globals: Standard categories's paths.
	* posix_prefix: Standard paths for categories and installation paths for posix
	system.
	* other ones XXX

	Standard categories paths are platform independent, they generally refers to
	other categories, which are platform dependent. :mod:`sysconfig` will choose
	these category from sections matching os.name. For example::

	doc = {datadir}/doc/{distribution.name}

	It refers to datadir category, which can be different between platforms. In
	posix system, it may be::

	datadir = /usr/share

	So the final path will be::

	doc = /usr/share/doc/{distribution.name}

	The platform-dependent categories are:

	* confdir
	* datadir
	* libdir
	* base


	Defining extra categories
	^^^^^^^^^^^^^^^^^^^^^^^^^

	.. TODO


	Examples
	^^^^^^^^

	These examples are incremental but work unitarily.

	Resources in root dir
	"""""""""""""""""""""

	Source tree::

	babar-1.0/
	README
	babar.sh
	launch.sh
	babar.py

	:file:`setup.cfg`::

	[files]
	resources =
	README = {doc}
	*.sh = {scripts}

	So babar.sh and launch.sh will be placed in {scripts} directory.

	Now let's move all the scripts into a scripts directory.

	Resources in sub-directory
	""""""""""""""""""""""""""

	Source tree::

	babar-1.1/
	README
	scripts/
	babar.sh
	launch.sh
	LAUNCH
	babar.py

	:file:`setup.cfg`::

	[files]
	resources =
	README = {doc}
	scripts/ LAUNCH = {doc}
	scripts/ *.sh = {scripts}

	It's important to use the separator after scripts/ to install all the shell
	scripts into {scripts} instead of {scripts}/scripts.

	Now let's add some docs.

	Resources in multiple sub-directories
	"""""""""""""""""""""""""""""""""""""

	Source tree::

	babar-1.2/
	README
	scripts/
	babar.sh
	launch.sh
	LAUNCH
	docs/
	api
	man
	babar.py

	:file:`setup.cfg`::

	[files]
	resources =
	README = {doc}
	scripts/ LAUNCH = {doc}
	scripts/ *.sh = {scripts}
	doc/ * = {doc}
	doc/ man = {man}

	You want to place all the file in the docs script into {doc} category, instead
	of man, which must be placed into {man} category, we will use the order of
	declaration of globs to choose the destination, the last glob that match the
	file is used.

	Now let's add some scripts for windows users.

	Complete example
	""""""""""""""""

	Source tree::

	babar-1.3/
	README
	doc/
	api
	man
	scripts/
	babar.sh
	launch.sh
	babar.bat
	launch.bat
	LAUNCH

	:file:`setup.cfg`::

	[files]
	resources =
	README = {doc}
	scripts/ LAUNCH = {doc}
	scripts/ *.{sh,bat} = {scripts}
	doc/ * = {doc}
	doc/ man = {man}

	We use brace expansion syntax to place all the shell and batch scripts into
	{scripts} category.


	Command sections
	================

	To pass options to commands without having to type them on the command line
	for each invocation, you can write them in the :file:`setup.cfg` file, in a
	section named after the command. Example::

	[sdist]
	# special function to add custom files
	manifest-builders = package.setup.list_extra_files

	[build]
	use-2to3 = True

	[build_ext]
	inplace = on

	[check]
	strict = on
	all = on

	Option values given in the configuration file can be overriden on the command
	line. See :ref:`packaging-setup-config` for more information.


	Extensibility
	=============

	Every section can have fields that are not part of this specification. They are
	called extensions.

	An extension field starts with ``X-``. Example::

	[metadata]
	name = Distribute
	X-Debian-Name = python-distribute


	Changes in the specification
	============================

	The versioning scheme for this specification is MAJOR.MINOR. Changes in the
	specification will cause the version number to be updated.

	Changes to the minor number reflect backwards-compatible changes:

	- New fields and sections (optional or mandatory) can be added.
	- Optional fields can be removed.

	The major number will be incremented for backwards-incompatible changes:

	- Mandatory fields or sections are removed.
	- Fields change their meaning.

	As a consequence, a tool written to consume 1.5 has these properties:

	- Can read 1.1, 1.2 and all versions < 1.5, since the tool knows what
	optional fields weren't there.

	.. XXX clarify

	- Can also read 1.6 and other 1.x versions: The tool will just ignore fields it
	doesn't know about, even if they are mandatory in the new version. If
	optional fields were removed, the tool will just consider them absent.

	- Cannot read 2.x and should refuse to interpret such files.

	A tool written to produce 1.x should have these properties:

	- Writes all mandatory fields.
	- May write optional fields.


	Acknowledgments
	===============

	This specification includes work and feedback from these people:

	- Tarek Ziadé
	- Julien Jehannet
	- Boris Feld
	- Éric Araujo

	(If your name is missing, please :ref:`let us know <reporting-bugs>`.)