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With this patch, we now have the ability to declare mach sub-commands. Subsequent patches will implement dispatching for sub-commands. --HG-- extra : rebase_source : 32a672ff3ba7a1a1c8c27dff3fe657dec08e3569 extra : histedit_source : 2bb2c27ae0e2dab052a6ef93b0a70f488f8cd56e
146 lines
5.1 KiB
ReStructuredText
146 lines
5.1 KiB
ReStructuredText
.. _mach_commands:
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=====================
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Implementing Commands
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=====================
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Mach commands are defined via Python decorators.
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All the relevant decorators are defined in the *mach.decorators* module.
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The important decorators are as follows:
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:py:func:`CommandProvider <mach.decorators.CommandProvider>`
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A class decorator that denotes that a class contains mach
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commands. The decorator takes no arguments.
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:py:func:`Command <mach.decorators.Command>`
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A method decorator that denotes that the method should be called when
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the specified command is requested. The decorator takes a command name
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as its first argument and a number of additional arguments to
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configure the behavior of the command.
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:py:func:`CommandArgument <mach.decorators.CommandArgument>`
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A method decorator that defines an argument to the command. Its
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arguments are essentially proxied to ArgumentParser.add_argument()
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:py:func:`SubCommand <mach.decorators.SubCommand`
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A method decorator that denotes that the method should be a
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sub-command to an existing ``@Command``. The decorator takes the
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parent command name as its first argument and the sub-command name
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as its second argument.
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``@CommandArgument`` can be used on ``@SubCommand`` instances just
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like they can on ``@Command`` instances.
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Classes with the ``@CommandProvider`` decorator **must** have an
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``__init__`` method that accepts 1 or 2 arguments. If it accepts 2
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arguments, the 2nd argument will be a
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:py:class:`mach.base.CommandContext` instance.
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Here is a complete example:
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.. code-block:: python
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from mach.decorators import (
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CommandArgument,
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CommandProvider,
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Command,
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)
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@CommandProvider
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class MyClass(object):
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@Command('doit', help='Do ALL OF THE THINGS.')
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@CommandArgument('--force', '-f', action='store_true',
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help='Force doing it.')
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def doit(self, force=False):
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# Do stuff here.
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When the module is loaded, the decorators tell mach about all handlers.
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When mach runs, it takes the assembled metadata from these handlers and
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hooks it up to the command line driver. Under the hood, arguments passed
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to the decorators are being used to help mach parse command arguments,
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formulate arguments to the methods, etc. See the documentation in the
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:py:mod:`mach.base` module for more.
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The Python modules defining mach commands do not need to live inside the
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main mach source tree.
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Conditionally Filtering Commands
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================================
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Sometimes it might only make sense to run a command given a certain
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context. For example, running tests only makes sense if the product
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they are testing has been built, and said build is available. To make
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sure a command is only runnable from within a correct context, you can
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define a series of conditions on the
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:py:func:`Command <mach.decorators.Command>` decorator.
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A condition is simply a function that takes an instance of the
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:py:func:`mach.decorators.CommandProvider` class as an argument, and
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returns ``True`` or ``False``. If any of the conditions defined on a
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command return ``False``, the command will not be runnable. The
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docstring of a condition function is used in error messages, to explain
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why the command cannot currently be run.
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Here is an example:
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.. code-block:: python
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from mach.decorators import (
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CommandProvider,
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Command,
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)
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def build_available(cls):
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"""The build needs to be available."""
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return cls.build_path is not None
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@CommandProvider
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class MyClass(MachCommandBase):
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def __init__(self, build_path=None):
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self.build_path = build_path
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@Command('run_tests', conditions=[build_available])
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def run_tests(self):
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# Do stuff here.
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It is important to make sure that any state needed by the condition is
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available to instances of the command provider.
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By default all commands without any conditions applied will be runnable,
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but it is possible to change this behaviour by setting
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``require_conditions`` to ``True``:
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.. code-block:: python
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m = mach.main.Mach()
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m.require_conditions = True
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Minimizing Code in Commands
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===========================
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Mach command modules, classes, and methods work best when they are
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minimal dispatchers. The reason is import bloat. Currently, the mach
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core needs to import every Python file potentially containing mach
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commands for every command invocation. If you have dozens of commands or
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commands in modules that import a lot of Python code, these imports
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could slow mach down and waste memory.
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It is thus recommended that mach modules, classes, and methods do as
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little work as possible. Ideally the module should only import from
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the :py:mod:`mach` package. If you need external modules, you should
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import them from within the command method.
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To keep code size small, the body of a command method should be limited
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to:
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1. Obtaining user input (parsing arguments, prompting, etc)
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2. Calling into some other Python package
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3. Formatting output
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Of course, these recommendations can be ignored if you want to risk
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slower performance.
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In the future, the mach driver may cache the dispatching information or
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have it intelligently loaded to facilitate lazy loading.
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