An extension module for click to register external CLI commands via setuptools entry-points.
Lets say you develop a commandline interface and someone requests a new feature that is absolutely related to your project but would have negative consequences like additional dependencies, major refactoring, or maybe its just too domain specific to be supported directly. Rather than developing a separate standalone utility you could offer up a setuptools entry point that allows others to use your commandline utility as a home for their related sub-commands. You get to choose where these sub-commands or sub-groups CAN be registered but the plugin developer gets to choose they ARE registered. You could have all plugins register alongside the core commands, in a special sub-group, across multiple sub-groups, or some combination.
For a more detailed example see the examples section.
The only requirement is decorating click.group()
with click_plugins.with_plugins()
which handles attaching external commands and groups. In this case the core CLI developer
registers CLI plugins from core_package.cli_plugins
.
from pkg_resources import iter_entry_points
import click
from click_plugins import with_plugins
@with_plugins(iter_entry_points('core_package.cli_plugins'))
@click.group()
def cli():
"""Commandline interface for yourpackage."""
@cli.command()
def subcommand():
"""Subcommand that does something."""
Plugin developers need to register their sub-commands or sub-groups to an
entry-point in their setup.py
that is loaded by the core package.
from setuptools import setup
setup(
name='yourscript',
version='0.1',
py_modules=['yourscript'],
install_requires=[
'click',
],
entry_points='''
[core_package.cli_plugins]
cool_subcommand=yourscript.cli:cool_subcommand
another_subcommand=yourscript.cli:another_subcommand
''',
)
Any sub-command or sub-group that cannot be loaded is caught and converted to
a click_plugins.core.BrokenCommand()
rather than just crashing the entire
CLI. The short-help is converted to a warning message like:
Warning: could not load plugin. See ``<CLI> <command/group> --help``.
and if the sub-command or group is executed the entire traceback is printed.
Opening a CLI to plugins encourages other developers to independently extend
functionality independently but there is no guarantee these new features will
be "on brand". Plugin developers are almost certainly already using features
in the core package the CLI belongs to so defining commonly used arguments and
options in one place lets plugin developers reuse these flags to produce a more
cohesive CLI. If the CLI is simple maybe just define them at the top of
yourpackage/cli.py
or for more complex packages something like
yourpackage/cli/options.py
. These common options need to be easy to find
and be well documented so that plugin developers know what variable to give to
their sub-command's function and what object they can expect to receive. Don't
forget to document non-obvious callbacks.
Keep in mind that plugin developers also have access to the parent group's
ctx.obj
, which is very useful for passing things like verbosity levels or
config values around to sub-commands.
Here's some code that sub-commands could re-use:
from multiprocessing import cpu_count
import click
jobs_opt = click.option(
'-j', '--jobs', metavar='CORES', type=click.IntRange(min=1, max=cpu_count()), default=1,
show_default=True, help="Process data across N cores."
)
Plugin developers can access this with:
import click
import parent_cli_package.cli.options
@click.command()
@parent_cli_package.cli.options.jobs_opt
def subcommand(jobs):
"""I do something domain specific."""
With pip
:
$ pip install click-plugins
From source:
$ git clone https://github.com/click-contrib/click-plugins.git
$ cd click-plugins
$ python setup.py install
$ git clone https://github.com/click-contrib/click-plugins.git
$ cd click-plugins
$ pip install -e .\[dev\]
$ pytest tests --cov click_plugins --cov-report term-missing
See CHANGES.txt
See AUTHORS.txt
See LICENSE.txt