Contents
First off, thank you for considering contributing to beets! It’s people like you that make beets continue to succeed.
These guidelines describe how you can help most effectively. By following these guidelines, you can make life easier for the development team as it indicates you respect the maintainers’ time; in return, the maintainers will reciprocate by helping to address your issue, review changes, and finalize pull requests.
We love to get contributions from our community—you! There are many ways to contribute, whether you’re a programmer or not.
- Promote beets! Help get the word out by telling your friends, writing a blog post, or discussing it on a forum you frequent.
- Improve the documentation. It’s incredibly easy to contribute here: just find a page you want to modify and hit the “Edit on GitHub” button in the upper-right. You can automatically send us a pull request for your changes.
- GUI design. For the time being, beets is a command-line-only affair. But that’s mostly because we don’t have any great ideas for what a good GUI should look like. If you have those great ideas, please get in touch.
- Benchmarks. We’d like to have a consistent way of measuring speed improvements in beets’ tagger and other functionality as well as a way of comparing beets’ performance to other tools. You can help by compiling a library of freely-licensed music files (preferably with incorrect metadata) for testing and measurement.
- Think you have a nice config or cool use-case for beets? We’d love to hear about it! Submit a post to our our forums under the “Show and Tell” category for a chance to get featured in the docs.
- Consider helping out in our forums by responding to support requests or driving some new discussions.
- As a programmer (even if you’re just a beginner!), you have a ton of opportunities to get your feet wet with beets.
- For developing plugins, or hacking away at beets, there’s some good information in the “For Developers” section of the docs.
The easiest way to get started with the latest beets source is to use pip to install an “editable” package. This can be done with one command:
$ pip install -e git+https://github.com/beetbox/beets.git#egg=beets
Or, equivalently:
$ git clone https://github.com/beetbox/beets.git
$ cd beets
$ pip install -e .
If you already have a released version of beets installed, you may need
to remove it first by typing pip uninstall beets
. The pip command
above will put the beets source in a src/beets
directory and install
the beet
CLI script to a standard location on your system. You may
want to use the --src
option to specify the parent directory where
the source will be checked out and the --user
option such that the
package will be installed to your home directory (compare with the
output of pip install --help
).
- We maintain a set of issues marked as “bite-sized”. These are issues that would serve as a good introduction to the codebase. Claim one and start exploring!
- Like testing? Our test coverage is somewhat low. You can help out by finding low-coverage modules or checking out other testing-related issues.
- There are several ways to improve the tests in general (see :ref:`testing` and some places to think about performance optimization (see Optimization).
- Not all of our code is up to our coding conventions. In particular, the library API documentation are currently quite sparse. You can help by adding to the docstrings in the code and to the documentation pages themselves. beets follows PEP-257 for docstrings and in some places, we also sometimes use ReST autodoc syntax for Sphinx to, for example, refer to a class name.
If this is your first time contributing to an open source project, welcome! If you are confused at all about how to contribute or what to contribute, take a look at this great tutorial, or stop by our forums if you have any questions.
We maintain a list of issues we reserved for those new to open source labeled “first timers only”. Since the goal of these issues is to get users comfortable with contributing to an open source project, please do not hesitate to ask any questions.
Do you have a great bug fix, new feature, or documentation expansion you’d like to contribute? Follow these steps to create a GitHub pull request and your code will ship in no time.
- Fork the beets repository and clone it (see above) to create a workspace.
- Make your changes.
- Add tests. If you’ve fixed a bug, write a test to ensure that you’ve actually fixed it. If there’s a new feature or plugin, please contribute tests that show that your code does what it says.
- Add documentation. If you’ve added a new command flag, for example,
find the appropriate page under
docs/
where it needs to be listed. - Add a changelog entry to
docs/changelog.rst
near the top of the document. - Run the tests and style checker. The easiest way to run the tests is to use tox. For more information on running tests, see :ref:`testing`.
- Push to your fork and open a pull request! We’ll be in touch shortly.
- If you add commits to a pull request, please add a comment or re-request a review after you push them since GitHub doesn’t automatically notify us when commits are added.
Remember, code contributions have four parts: the code, the tests, the documentation, and the changelog entry. Thank you for contributing!
The documentation has a section on the library API that serves as an introduction to beets’ design.
There are a few coding conventions we use in beets:
Whenever you access the library database, do so through the provided Library methods or via a Transaction object. Never call
lib.conn.*
directly. For example, do this:with g.lib.transaction() as tx: rows = tx.query('SELECT DISTINCT "{0}" FROM "{1}" ORDER BY "{2}"' .format(field, model._table, sort_field))
To fetch Item objects from the database, use lib.items(…) and supply a query as an argument. Resist the urge to write raw SQL for your query. If you must use lower-level queries into the database, do this:
with lib.transaction() as tx: rows = tx.query('SELECT …')
Transaction objects help control concurrent access to the database and assist in debugging conflicting accesses.
Always use the future imports
print_function
,division
, andabsolute_import
, but notunicode_literals
. These help keep your code modern and will help in the eventual move to Python 3.str.format()
should be used instead of the%
operatorNever
print
informational messages; use the logging module instead. In particular, we have our own logging shim, so you’ll seefrom beets import logging
in most files.- Always log Unicode strings (e.g.,
log.debug(u"hello world")
). - The loggers use
str.format-style
logging instead of
%
-style, so you can typelog.debug(u"{0}", obj)
to do your formatting.
- Always log Unicode strings (e.g.,
Exception handlers must use
except A as B:
instead ofexcept A, B:
.
We follow PEP 8 and google's docstring format.
You can use tox -e lint
to check your code for any style errors.
A great deal of convention deals with the handling of paths. Paths
are stored internally—in the database, for instance—as byte strings
(i.e., bytes
instead of str
in Python 3). This is because POSIX
operating systems’ path names are only reliably usable as byte
strings—operating systems typically recommend but do not require that
filenames use a given encoding, so violations of any reported encoding
are inevitable. On Windows, the strings are always encoded with UTF-8;
on Unix, the encoding is controlled by the filesystem. Here are some
guidelines to follow:
- If you have a Unicode path or you’re not sure whether something is
Unicode or not, pass it through
bytestring_path
function in thebeets.util
module to convert it to bytes. - Pass every path name trough the
syspath
function (also inbeets.util
) before sending it to any operating system file operation (open
, for example). This is necessary to use long filenames (which, maddeningly, must be Unicode) on Windows. This allows us to consistently store bytes in the database but use the native encoding rule on both POSIX and Windows. - Similarly, the
displayable_path
utility function converts bytestring paths to a Unicode string for displaying to the user. Every time you want to print out a string to the terminal or log it with thelogging
module, feed it through this function.
Personally, I work on beets with vim. Here are
some .vimrc
lines that might help with PEP 8-compliant Python
coding:
filetype indent on autocmd FileType python setlocal shiftwidth=4 tabstop=4 softtabstop=4 expandtab shiftround autoindent
Consider installing this alternative Python indentation plugin. I also like neomake with its flake8 checker.
To run the tests for multiple Python versions, compile the docs, and
check style, use tox. Just type tox
or use something like
tox -e py27
to test a specific configuration. detox makes this go
faster.
You can disable a hand-selected set of "slow" tests by setting the environment variable SKIP_SLOW_TESTS before running them.
Other ways to run the tests:
python testall.py
(ditto)python -m unittest discover -p 'test_*'
(ditto)- pytest
You can also see the latest test results on Linux and on Windows.
Note, if you are on Windows and are seeing errors running tox, it may be related to this issue,
in which case you may have to install tox v3.8.3 e.g. python -m pip install tox=3.8.3
tox -e cov
will add coverage info for tests: Coverage is pretty low
still -- see the current status on Codecov.
The pytest-random plugin makes it easy to randomize the order of
tests. py.test test --random
will occasionally turn up failing tests
that reveal ordering dependencies—which are bad news!
The tests have a few more dependencies than beets itself. (The
additional dependencies consist of testing utilities and dependencies of
non-default plugins exercised by the test suite.) The dependencies are
listed under 'test' in extras_require
in setup.py.
To install the test dependencies, run python -m pip install .[test]
.
Or, just run a test suite with tox
which will install them
automatically.
Writing tests is done by adding or modifying files in folder test. Take a look at https://github.com/beetbox/beets/blob/master/test/test_template.py#L224 to get a basic view on how tests are written. We currently allow writing tests with either unittest or pytest.
Any tests that involve sending out network traffic e.g. an external API
call, should be skipped normally and run under our weekly integration
test suite. These tests can be useful in detecting external changes
that would affect beets
. In order to do this, simply add the
following snippet before the applicable test case:
@unittest.skipUnless(
os.environ.get('INTEGRATION_TEST', '0') == '1',
'integration testing not enabled')
If you do this, it is also advised to create a similar test that 'mocks' the network call and can be run under normal circumstances by our CI and others. See unittest.mock for more info.
- AVOID using the
start()
andstop()
methods ofmock.patch
, as they require manual cleanup. Use the annotation or context manager forms instead.