Doc/library/packaging.command.rst - platform/external/python/cpython3 - Gitiles

 :mod:`packaging.command` --- Standard Packaging commands
 ========================================================

 .. module:: packaging.command
    :synopsis: Standard packaging commands.


 This subpackage contains one module for each standard Packaging command, such as
 :command:`build`  or :command:`upload`.  Each command is implemented as a
 separate module, with the command name as the name of the module and of the
 class defined therein.


 :mod:`packaging.command.cmd` --- Abstract base class for Packaging commands
 ===========================================================================

 .. module:: packaging.command.cmd
    :synopsis: Abstract base class for commands.


 This module supplies the abstract base class :class:`Command`.  This class is
 subclassed by the modules in the packaging.command subpackage.


 .. class:: Command(dist)

    Abstract base class for defining command classes, the "worker bees" of the
    Packaging.  A useful analogy for command classes is to think of them as
    subroutines with local variables called *options*.  The options are declared
    in :meth:`initialize_options` and defined (given their final values) in
    :meth:`finalize_options`, both of which must be defined by every command
    class.  The distinction between the two is necessary because option values
    might come from the outside world (command line, config file, ...), and any
    options dependent on other options must be computed after these outside
    influences have been processed --- hence :meth:`finalize_options`.  The body
    of the subroutine, where it does all its work based on the values of its
    options, is the :meth:`run` method, which must also be implemented by every
    command class.

    The class constructor takes a single argument *dist*, a
    :class:`~packaging.dist.Distribution` instance.


 Creating a new Packaging command
 --------------------------------

 This section outlines the steps to create a new Packaging command.

 .. XXX the following paragraph is focused on the stdlib; expand it to document
    how to write and register a command in third-party projects

 A new command lives in a module in the :mod:`packaging.command` package. There
 is a sample template in that directory called :file:`command_template`.  Copy
 this file to a new module with the same name as the new command you're
 implementing.  This module should implement a class with the same name as the
 module (and the command).  So, for instance, to create the command
 ``peel_banana`` (so that users can run ``setup.py peel_banana``), you'd copy
 :file:`command_template` to :file:`packaging/command/peel_banana.py`, then edit
 it so that it's implementing the class :class:`peel_banana`, a subclass of
 :class:`Command`.  It must define the following methods:

 .. method:: Command.initialize_options()

    Set default values for all the options that this command supports.  Note that
    these defaults may be overridden by other commands, by the setup script, by
    config files, or by the command line.  Thus, this is not the place to code
    dependencies between options; generally, :meth:`initialize_options`
    implementations are just a bunch of ``self.foo = None`` assignments.


 .. method:: Command.finalize_options()

    Set final values for all the options that this command supports. This is
    always called as late as possible, i.e. after any option assignments from the
    command line or from other commands have been done.  Thus, this is the place
    to code option dependencies: if *foo* depends on *bar*, then it is safe to
    set *foo* from *bar* as long as *foo* still has the same value it was
    assigned in :meth:`initialize_options`.


 .. method:: Command.run()

    A command's raison d'etre: carry out the action it exists to perform,
    controlled by the options initialized in :meth:`initialize_options`,
    customized by other commands, the setup script, the command line, and config
    files, and finalized in :meth:`finalize_options`.  All terminal output and
    filesystem interaction should be done by :meth:`run`.


 Command classes may define this attribute:


 .. attribute:: Command.sub_commands

    *sub_commands* formalizes the notion of a "family" of commands,
    e.g. ``install_dist`` as the parent with sub-commands ``install_lib``,
    ``install_headers``, etc.  The parent of a family of commands defines
    *sub_commands* as a class attribute; it's a list of 2-tuples ``(command_name,
    predicate)``, with *command_name* a string and *predicate* a function, a
    string or ``None``.  *predicate* is a method of the parent command that
    determines whether the corresponding command is applicable in the current
    situation.  (E.g. ``install_headers`` is only applicable if we have any C
    header files to install.)  If *predicate* is ``None``, that command is always
    applicable.

    *sub_commands* is usually defined at the *end* of a class, because
    predicates can be methods of the class, so they must already have been
    defined.  The canonical example is the :command:`install_dist` command.

 .. XXX document how to add a custom command to another one's subcommands
	:mod:`packaging.command` --- Standard Packaging commands
	========================================================

	.. module:: packaging.command
	:synopsis: Standard packaging commands.


	This subpackage contains one module for each standard Packaging command, such as
	:command:`build` or :command:`upload`. Each command is implemented as a
	separate module, with the command name as the name of the module and of the
	class defined therein.



	:mod:`packaging.command.cmd` --- Abstract base class for Packaging commands
	===========================================================================

	.. module:: packaging.command.cmd
	:synopsis: Abstract base class for commands.


	This module supplies the abstract base class :class:`Command`. This class is
	subclassed by the modules in the packaging.command subpackage.


	.. class:: Command(dist)

	Abstract base class for defining command classes, the "worker bees" of the
	Packaging. A useful analogy for command classes is to think of them as
	subroutines with local variables called options. The options are declared
	in :meth:`initialize_options` and defined (given their final values) in
	:meth:`finalize_options`, both of which must be defined by every command
	class. The distinction between the two is necessary because option values
	might come from the outside world (command line, config file, ...), and any
	options dependent on other options must be computed after these outside
	influences have been processed --- hence :meth:`finalize_options`. The body
	of the subroutine, where it does all its work based on the values of its
	options, is the :meth:`run` method, which must also be implemented by every
	command class.

	The class constructor takes a single argument dist, a
	:class:`~packaging.dist.Distribution` instance.


	Creating a new Packaging command
	--------------------------------

	This section outlines the steps to create a new Packaging command.

	.. XXX the following paragraph is focused on the stdlib; expand it to document
	how to write and register a command in third-party projects

	A new command lives in a module in the :mod:`packaging.command` package. There
	is a sample template in that directory called :file:`command_template`. Copy
	this file to a new module with the same name as the new command you're
	implementing. This module should implement a class with the same name as the
	module (and the command). So, for instance, to create the command
	``peel_banana`` (so that users can run ``setup.py peel_banana``), you'd copy
	:file:`command_template` to :file:`packaging/command/peel_banana.py`, then edit
	it so that it's implementing the class :class:`peel_banana`, a subclass of
	:class:`Command`. It must define the following methods:

	.. method:: Command.initialize_options()

	Set default values for all the options that this command supports. Note that
	these defaults may be overridden by other commands, by the setup script, by
	config files, or by the command line. Thus, this is not the place to code
	dependencies between options; generally, :meth:`initialize_options`
	implementations are just a bunch of ``self.foo = None`` assignments.


	.. method:: Command.finalize_options()

	Set final values for all the options that this command supports. This is
	always called as late as possible, i.e. after any option assignments from the
	command line or from other commands have been done. Thus, this is the place
	to code option dependencies: if foo depends on bar, then it is safe to
	set foo from bar as long as foo still has the same value it was
	assigned in :meth:`initialize_options`.


	.. method:: Command.run()

	A command's raison d'etre: carry out the action it exists to perform,
	controlled by the options initialized in :meth:`initialize_options`,
	customized by other commands, the setup script, the command line, and config
	files, and finalized in :meth:`finalize_options`. All terminal output and
	filesystem interaction should be done by :meth:`run`.


	Command classes may define this attribute:


	.. attribute:: Command.sub_commands

	sub_commands formalizes the notion of a "family" of commands,
	e.g. ``install_dist`` as the parent with sub-commands ``install_lib``,
	``install_headers``, etc. The parent of a family of commands defines
	sub_commands as a class attribute; it's a list of 2-tuples ``(command_name,
	predicate)``, with command_name a string and predicate a function, a
	string or ``None``. predicate is a method of the parent command that
	determines whether the corresponding command is applicable in the current
	situation. (E.g. ``install_headers`` is only applicable if we have any C
	header files to install.) If predicate is ``None``, that command is always
	applicable.

	sub_commands is usually defined at the end of a class, because
	predicates can be methods of the class, so they must already have been
	defined. The canonical example is the :command:`install_dist` command.

	.. XXX document how to add a custom command to another one's subcommands