src/third_party/mozjs-45/python/mach/docs/commands.rst - cobalt - Git at Google

 .. _mach_commands:

 =====================
 Implementing Commands
 =====================

 Mach commands are defined via Python decorators.

 All the relevant decorators are defined in the *mach.decorators* module.
 The important decorators are as follows:

 :py:func:`CommandProvider <mach.decorators.CommandProvider>`
   A class decorator that denotes that a class contains mach
   commands. The decorator takes no arguments.

 :py:func:`Command <mach.decorators.Command>`
   A method decorator that denotes that the method should be called when
   the specified command is requested. The decorator takes a command name
   as its first argument and a number of additional arguments to
   configure the behavior of the command.

 :py:func:`CommandArgument <mach.decorators.CommandArgument>`
   A method decorator that defines an argument to the command. Its
   arguments are essentially proxied to ArgumentParser.add_argument()

 :py:func:`SubCommand <mach.decorators.SubCommand>`
   A method decorator that denotes that the method should be a
   sub-command to an existing ``@Command``. The decorator takes the
   parent command name as its first argument and the sub-command name
   as its second argument.

   ``@CommandArgument`` can be used on ``@SubCommand`` instances just
   like they can on ``@Command`` instances.

 Classes with the ``@CommandProvider`` decorator **must** have an
 ``__init__`` method that accepts 1 or 2 arguments. If it accepts 2
 arguments, the 2nd argument will be a
 :py:class:`mach.base.CommandContext` instance.

 Here is a complete example:

 .. code-block:: python

    from mach.decorators import (
        CommandArgument,
        CommandProvider,
        Command,
    )

    @CommandProvider
    class MyClass(object):
        @Command('doit', help='Do ALL OF THE THINGS.')
        @CommandArgument('--force', '-f', action='store_true',
            help='Force doing it.')
        def doit(self, force=False):
            # Do stuff here.

 When the module is loaded, the decorators tell mach about all handlers.
 When mach runs, it takes the assembled metadata from these handlers and
 hooks it up to the command line driver. Under the hood, arguments passed
 to the decorators are being used to help mach parse command arguments,
 formulate arguments to the methods, etc. See the documentation in the
 :py:mod:`mach.base` module for more.

 The Python modules defining mach commands do not need to live inside the
 main mach source tree.

 Conditionally Filtering Commands
 ================================

 Sometimes it might only make sense to run a command given a certain
 context. For example, running tests only makes sense if the product
 they are testing has been built, and said build is available. To make
 sure a command is only runnable from within a correct context, you can
 define a series of conditions on the
 :py:func:`Command <mach.decorators.Command>` decorator.

 A condition is simply a function that takes an instance of the
 :py:func:`mach.decorators.CommandProvider` class as an argument, and
 returns ``True`` or ``False``. If any of the conditions defined on a
 command return ``False``, the command will not be runnable. The
 docstring of a condition function is used in error messages, to explain
 why the command cannot currently be run.

 Here is an example:

 .. code-block:: python

    from mach.decorators import (
        CommandProvider,
        Command,
    )

    def build_available(cls):
        """The build needs to be available."""
        return cls.build_path is not None

     @CommandProvider
    class MyClass(MachCommandBase):
        def __init__(self, build_path=None):
            self.build_path = build_path

        @Command('run_tests', conditions=[build_available])
        def run_tests(self):
            # Do stuff here.

 It is important to make sure that any state needed by the condition is
 available to instances of the command provider.

 By default all commands without any conditions applied will be runnable,
 but it is possible to change this behaviour by setting
 ``require_conditions`` to ``True``:

 .. code-block:: python

    m = mach.main.Mach()
    m.require_conditions = True

 Minimizing Code in Commands
 ===========================

 Mach command modules, classes, and methods work best when they are
 minimal dispatchers. The reason is import bloat. Currently, the mach
 core needs to import every Python file potentially containing mach
 commands for every command invocation. If you have dozens of commands or
 commands in modules that import a lot of Python code, these imports
 could slow mach down and waste memory.

 It is thus recommended that mach modules, classes, and methods do as
 little work as possible. Ideally the module should only import from
 the :py:mod:`mach` package. If you need external modules, you should
 import them from within the command method.

 To keep code size small, the body of a command method should be limited
 to:

 1. Obtaining user input (parsing arguments, prompting, etc)
 2. Calling into some other Python package
 3. Formatting output

 Of course, these recommendations can be ignored if you want to risk
 slower performance.

 In the future, the mach driver may cache the dispatching information or
 have it intelligently loaded to facilitate lazy loading.
	.. _mach_commands:

	=====================
	Implementing Commands
	=====================

	Mach commands are defined via Python decorators.

	All the relevant decorators are defined in the mach.decorators module.
	The important decorators are as follows:

	:py:func:`CommandProvider <mach.decorators.CommandProvider>`
	A class decorator that denotes that a class contains mach
	commands. The decorator takes no arguments.

	:py:func:`Command <mach.decorators.Command>`
	A method decorator that denotes that the method should be called when
	the specified command is requested. The decorator takes a command name
	as its first argument and a number of additional arguments to
	configure the behavior of the command.

	:py:func:`CommandArgument <mach.decorators.CommandArgument>`
	A method decorator that defines an argument to the command. Its
	arguments are essentially proxied to ArgumentParser.add_argument()

	:py:func:`SubCommand <mach.decorators.SubCommand>`
	A method decorator that denotes that the method should be a
	sub-command to an existing ``@Command``. The decorator takes the
	parent command name as its first argument and the sub-command name
	as its second argument.

	``@CommandArgument`` can be used on ``@SubCommand`` instances just
	like they can on ``@Command`` instances.

	Classes with the ``@CommandProvider`` decorator must have an
	``__init__`` method that accepts 1 or 2 arguments. If it accepts 2
	arguments, the 2nd argument will be a
	:py:class:`mach.base.CommandContext` instance.

	Here is a complete example:

	.. code-block:: python

	from mach.decorators import (
	CommandArgument,
	CommandProvider,
	Command,
	)

	@CommandProvider
	class MyClass(object):
	@Command('doit', help='Do ALL OF THE THINGS.')
	@CommandArgument('--force', '-f', action='store_true',
	help='Force doing it.')
	def doit(self, force=False):
	# Do stuff here.

	When the module is loaded, the decorators tell mach about all handlers.
	When mach runs, it takes the assembled metadata from these handlers and
	hooks it up to the command line driver. Under the hood, arguments passed
	to the decorators are being used to help mach parse command arguments,
	formulate arguments to the methods, etc. See the documentation in the
	:py:mod:`mach.base` module for more.

	The Python modules defining mach commands do not need to live inside the
	main mach source tree.

	Conditionally Filtering Commands
	================================

	Sometimes it might only make sense to run a command given a certain
	context. For example, running tests only makes sense if the product
	they are testing has been built, and said build is available. To make
	sure a command is only runnable from within a correct context, you can
	define a series of conditions on the
	:py:func:`Command <mach.decorators.Command>` decorator.

	A condition is simply a function that takes an instance of the
	:py:func:`mach.decorators.CommandProvider` class as an argument, and
	returns ``True`` or ``False``. If any of the conditions defined on a
	command return ``False``, the command will not be runnable. The
	docstring of a condition function is used in error messages, to explain
	why the command cannot currently be run.

	Here is an example:

	.. code-block:: python

	from mach.decorators import (
	CommandProvider,
	Command,
	)

	def build_available(cls):
	"""The build needs to be available."""
	return cls.build_path is not None

	@CommandProvider
	class MyClass(MachCommandBase):
	def __init__(self, build_path=None):
	self.build_path = build_path

	@Command('run_tests', conditions=[build_available])
	def run_tests(self):
	# Do stuff here.

	It is important to make sure that any state needed by the condition is
	available to instances of the command provider.

	By default all commands without any conditions applied will be runnable,
	but it is possible to change this behaviour by setting
	``require_conditions`` to ``True``:

	.. code-block:: python

	m = mach.main.Mach()
	m.require_conditions = True

	Minimizing Code in Commands
	===========================

	Mach command modules, classes, and methods work best when they are
	minimal dispatchers. The reason is import bloat. Currently, the mach
	core needs to import every Python file potentially containing mach
	commands for every command invocation. If you have dozens of commands or
	commands in modules that import a lot of Python code, these imports
	could slow mach down and waste memory.

	It is thus recommended that mach modules, classes, and methods do as
	little work as possible. Ideally the module should only import from
	the :py:mod:`mach` package. If you need external modules, you should
	import them from within the command method.

	To keep code size small, the body of a command method should be limited
	to:

	1. Obtaining user input (parsing arguments, prompting, etc)
	2. Calling into some other Python package
	3. Formatting output

	Of course, these recommendations can be ignored if you want to risk
	slower performance.

	In the future, the mach driver may cache the dispatching information or
	have it intelligently loaded to facilitate lazy loading.