.. _contributing:
============
Contributing
============
This project is a community effort, and everyone is welcome to
contribute.
The project is hosted on https://github.com/matplotlib/matplotlib
Submitting a bug report
=======================
If you find a bug in the code or documentation, do not hesitate to submit a
ticket to the
`Bug Tracker <https://github.com/matplotlib/matplotlib/issues>`_. You are
also welcome to post feature requests or pull requests.
Retrieving and installing the latest version of the code
========================================================
When working on the Matplotlib source, setting up a `virtual
environment
<http://docs.python-guide.org/en/latest/dev/virtualenvs/>`_ or a
`conda environment <http://conda.pydata.org/docs/using/envs.html>`_ is
recommended.
.. warning::
If you already have a version of Matplotlib installed, use an
virtual environment or uninstall using the same method you used
to install it. Installing multiple versions of Matplotlib via different
methods into the same environment may not always work as expected.
We use `Git <https://git-scm.com/>`_ for version control and
`GitHub <https://github.com/>`_ for hosting our main repository.
You can check out the latest sources with the command (see
:ref:`set-up-fork` for more details)::
git clone git@github.com:matplotlib/matplotlib.git
and navigate to the :file:`matplotlib` directory.
To make sure the tests run locally you must build against the correct version
of freetype. To configure the build system to fetch and build it either export
the env ``MPLLOCALFREETYPE`` as::
export MPLLOCALFREETYPE=1
or copy :file:`setup.cfg.template` to :file:`setup.cfg` and edit it to contain ::
[test]
local_freetype = True
To install Matplotlib (and compile the c-extensions) run the following
command from the top-level directory ::
pip install -v -e ./
This installs Matplotlib in 'editable/develop mode', i.e., builds
everything and places the correct link entries in the install
directory so that python will be able to import Matplotlib from the
source directory. Thus, any changes to the ``*.py`` files will be
reflected the next time you import the library. If you change the
c-extension source (which might happen if you change branches) you
will need to run::
python setup.py build
or re-run ``pip install -v -e ./``.
Alternatively, if you do ::
pip install -v ./
all of the files will be copied to the installation directory however,
you will have to rerun this command every time the source is changed.
Additionally you will need to copy :file:`setup.cfg.template` to
:file:`setup.cfg` and edit it to contain ::
[test]
local_freetype = True
tests = True
In either case you can then run the tests to check your work
environment is set up properly::
python tests.py
.. _nose: https://nose.readthedocs.io/en/latest/
.. _pep8: https://pep8.readthedocs.io/en/latest/
.. note::
**Additional dependencies for testing**: nose_ (version 1.0 or later), `mock
<https://docs.python.org/dev/library/unittest.mock.html>`_ (if python < 3.3), `Ghostscript
<https://www.ghostscript.com/>`_, `Inkscape <https://inkscape.org>`_
.. seealso::
* :ref:`testing`
Contributing code
=================
How to contribute
-----------------
The preferred way to contribute to Matplotlib is to fork the `main
repository <https://github.com/matplotlib/matplotlib/>`__ on GitHub,
then submit a "pull request" (PR):
1. `Create an account <https://github.com/join>`_ on
GitHub if you do not already have one.
2. Fork the `project repository
<https://github.com/matplotlib/matplotlib>`__: click on the 'Fork' button
near the top of the page. This creates a copy of the code under your
account on the GitHub server.
3. Clone this copy to your local disk::
$ git clone git@github.com:YourLogin/matplotlib.git
4. Create a branch to hold your changes::
$ git checkout -b my-feature origin/master
and start making changes. Never work in the ``master`` branch!
5. Work on this copy, on your computer, using Git to do the version
control. When you're done editing e.g., ``lib/matplotlib/collections.py``,
do::
$ git add lib/matplotlib/collections.py
$ git commit
to record your changes in Git, then push them to GitHub with::
$ git push -u origin my-feature
Finally, go to the web page of your fork of the Matplotlib repo,
and click 'Pull request' to send your changes to the maintainers for review.
You may want to consider sending an email to the mailing list for more
visibility.
.. seealso::
* `Git documentation <https://git-scm.com/documentation>`_
* :ref:`development-workflow`.
* :ref:`using-git`
Contributing pull requests
--------------------------
It is recommended to check that your contribution complies with the following
rules before submitting a pull request:
* If your pull request addresses an issue, please use the title to describe
the issue and mention the issue number in the pull request description
to ensure a link is created to the original issue.
* All public methods should have informative docstrings with sample
usage when appropriate. Use the
`numpy docstring standard <https://github.com/numpy/numpy/blob/master/doc/HOWTO_DOCUMENT.rst.txt>`_
* Formatting should follow `PEP8 recommendation
<https://www.python.org/dev/peps/pep-0008/>`_. You should consider
installing/enabling automatic PEP8 checking in your editor. Part of the
test suite is checking PEP8 compliance, things go smoother if the code is
mostly PEP8 compliant to begin with.
* Each high-level plotting function should have a simple example in
the ``Example`` section of the docstring. This should be as simple as
possible to demonstrate the method. More complex examples should go
in the ``examples`` tree.
* Changes (both new features and bugfixes) should be tested. See
:ref:`testing` for more details.
* Import the following modules using the standard scipy conventions::
import numpy as np
import numpy.ma as ma
import matplotlib as mpl
import matplotlib.pyplot as plt
import matplotlib.cbook as cbook
import matplotlib.patches as mpatches
* If your change is a major new feature, add an entry to the ``What's new``
section by adding a new file in ``doc/users/whats_new`` (see
:file:`doc/users/whats_new/README` for more information).
* If you change the API in a backward-incompatible way, please
document it in `doc/api/api_changes`, by adding a new file describing your
changes (see :file:`doc/api/api_changes/README` for more information)
* See below for additional points about
:ref:`keyword-argument-processing`, if code in your pull request
does that.
In addition, you can check for common programming errors with the following
tools:
* Code with a good unittest coverage (at least 70%, better 100%), check
with::
pip install coverage
python tests.py --with-coverage
* No pyflakes warnings, check with::
pip install pyflakes
pyflakes path/to/module.py
.. note::
The current state of the Matplotlib code base is not compliant with all
of those guidelines, but we expect that enforcing those constraints on all
new contributions will move the overall code base quality in the right
direction.
.. seealso::
* :ref:`coding_guidelines`
* :ref:`testing`
* :ref:`documenting-matplotlib`
.. _new_contributors:
Issues for New Contributors
---------------------------
New contributors should look for the following tags when looking for issues.
We strongly recommend that new contributors tackle
`new-contributor-friendly <https://github.com/matplotlib/matplotlib/labels/new-contributor-friendly>`_
issues (easy, well documented issues, that do not require an understanding of
the different submodules of Matplotlib) and
`Easy-fix <https://github.com/matplotlib/matplotlib/labels/Difficulty%3A%20Easy>`_
issues. This helps the contributor become familiar with the contribution
workflow, and for the core devs to become acquainted with the contributor;
besides which, we frequently underestimate how easy an issue is to solve!
.. _other_ways_to_contribute:
Other ways to contribute
=========================
Code is not the only way to contribute to Matplotlib. For instance,
documentation is also a very important part of the project and often doesn't
get as much attention as it deserves. If you find a typo in the documentation,
or have made improvements, do not hesitate to send an email to the mailing
list or submit a GitHub pull request. Full documentation can be found under
the doc/ directory.
It also helps us if you spread the word: reference the project from your blog
and articles or link to it from your website!
.. _coding_guidelines:
Coding guidelines
=================
New modules and files: installation
-----------------------------------
* If you have added new files or directories, or reorganized existing
ones, make sure the new files are included in the match patterns in
:file:`MANIFEST.in`, and/or in `package_data` in `setup.py`.
C/C++ extensions
----------------
* Extensions may be written in C or C++.
* Code style should conform to PEP7 (understanding that PEP7 doesn't
address C++, but most of its admonitions still apply).
* Python/C interface code should be kept separate from the core C/C++
code. The interface code should be named `FOO_wrap.cpp` or
`FOO_wrapper.cpp`.
* Header file documentation (aka docstrings) should be in Numpydoc
format. We don't plan on using automated tools for these
docstrings, and the Numpydoc format is well understood in the
scientific Python community.
.. _keyword-argument-processing:
Keyword argument processing
---------------------------
Matplotlib makes extensive use of ``**kwargs`` for pass-through
customizations from one function to another. A typical example is in
:func:`matplotlib.pyplot.text`. The definition of the pylab text
function is a simple pass-through to
:meth:`matplotlib.axes.Axes.text`::
# in pylab.py
def text(*args, **kwargs):
ret = gca().text(*args, **kwargs)
draw_if_interactive()
return ret
:meth:`~matplotlib.axes.Axes.text` in simplified form looks like this,
i.e., it just passes all ``args`` and ``kwargs`` on to
:meth:`matplotlib.text.Text.__init__`::
# in axes/_axes.py
def text(self, x, y, s, fontdict=None, withdash=False, **kwargs):
t = Text(x=x, y=y, text=s, **kwargs)
and :meth:`~matplotlib.text.Text.__init__` (again with liberties for
illustration) just passes them on to the
:meth:`matplotlib.artist.Artist.update` method::
# in text.py
def __init__(self, x=0, y=0, text='', **kwargs):
Artist.__init__(self)
self.update(kwargs)
``update`` does the work looking for methods named like
``set_property`` if ``property`` is a keyword argument. i.e., no one
looks at the keywords, they just get passed through the API to the
artist constructor which looks for suitably named methods and calls
them with the value.
As a general rule, the use of ``**kwargs`` should be reserved for
pass-through keyword arguments, as in the example above. If all the
keyword args are to be used in the function, and not passed
on, use the key/value keyword args in the function definition rather
than the ``**kwargs`` idiom.
In some cases, you may want to consume some keys in the local
function, and let others pass through. You can ``pop`` the ones to be
used locally and pass on the rest. For example, in
:meth:`~matplotlib.axes.Axes.plot`, ``scalex`` and ``scaley`` are
local arguments and the rest are passed on as
:meth:`~matplotlib.lines.Line2D` keyword arguments::
# in axes/_axes.py
def plot(self, *args, **kwargs):
scalex = kwargs.pop('scalex', True)
scaley = kwargs.pop('scaley', True)
if not self._hold: self.cla()
lines = []
for line in self._get_lines(*args, **kwargs):
self.add_line(line)
lines.append(line)
Note: there is a use case when ``kwargs`` are meant to be used locally
in the function (not passed on), but you still need the ``**kwargs``
idiom. That is when you want to use ``*args`` to allow variable
numbers of non-keyword args. In this case, python will not allow you
to use named keyword args after the ``*args`` usage, so you will be
forced to use ``**kwargs``. An example is
:meth:`matplotlib.contour.ContourLabeler.clabel`::
# in contour.py
def clabel(self, *args, **kwargs):
fontsize = kwargs.get('fontsize', None)
inline = kwargs.get('inline', 1)
self.fmt = kwargs.get('fmt', '%1.3f')
colors = kwargs.get('colors', None)
if len(args) == 0:
levels = self.levels
indices = range(len(self.levels))
elif len(args) == 1:
...etc...
.. _custom_backend:
Developing a new backend
------------------------
If you are working on a custom backend, the *backend* setting in
:file:`matplotlibrc` (:ref:`customizing-matplotlib`) supports an
external backend via the ``module`` directive. if
:file:`my_backend.py` is a Matplotlib backend in your
:envvar:`PYTHONPATH`, you can set it on one of several ways
* in :file:`matplotlibrc`::
backend : module://my_backend
* with the :envvar:`MPLBACKEND` environment variable::
> export MPLBACKEND="module://my_backend"
> python simple_plot.py
* from the command shell with the `-d` flag::
> python simple_plot.py -dmodule://my_backend
* with the use directive in your script::
import matplotlib
matplotlib.use('module://my_backend')
.. _sample-data:
Writing examples
----------------
We have hundreds of examples in subdirectories of
:file:`matplotlib/examples`, and these are automatically generated
when the website is built to show up both in the `examples
<../examples/index.html>`_ and `gallery
<../gallery.html>`_ sections of the website.
Any sample data that the example uses should be kept small and
distributed with Matplotlib in the
`lib/matplotlib/mpl-data/sample_data/` directory. Then in your
example code you can load it into a file handle with::
import matplotlib.cbook as cbook
fh = cbook.get_sample_data('mydata.dat')