The lowest currently supported version is Python 3.8. At a minimum you will need Python 3.8 for code changes and 3.12 if you plan on doing documentation building / changes.
You can use various tools to manage multiple Python versions on your system including:
- pyenv and pyenv-win for Windows
- rtx / mise
- asdf
- Building each version manually from source
- Utilizing GitHub Codespaces
We use the lowest supported version in our type-checking CI, this ensures that the changes you made are backward compatible.
Tip
We maintain a Makefile with several commands to help with common tasks.
You can run make help
to see a list of available commands.
If you are utilizing GitHub Codespaces, the environment will bootstrap itself automatically. The steps below are for local development.
Install uv:
Run
make install
to create a virtual environment and install the required development dependencies or run the uv sync command manually:uv install
Tip
Many modern IDEs like PyCharm or VS Code will enable the uv-managed virtualenv that is created in step 2 for you automatically. If your IDE / editor does not offer this functionality, then you will need to manually activate the virtualenv yourself. Otherwise you may encounter errors or unexpected behaviour when trying to run the commands referenced within this document.
To activate the virtualenv manually, please consult uv's documentation on working with virtual environments.
The rest of this document will assume this environment is active wherever commands are referenced.
- Fork the Litestar repository
- Clone your fork locally with git
- Set up the environment
- Make your changes
- (Optional) Run
pre-commit run --all-files
to run linters and formatters. This step is optional and will be executed automatically by git before you make a commit, but you may want to run it manually in order to apply fixes - Commit your changes to git. We follow conventional commits
which are enforced using a
pre-commit
hook. - Push the changes to your fork
- Open a pull request. Give the pull request a descriptive title indicating what it changes. The style of the PR title should also follow conventional commits, and this is enforced using a GitHub action.
- Add yourself as a contributor using the all-contributors bot
Code should be Pythonic and zen
All code should be fully typed. This is enforced via mypy and Pyright
When requiring complex types, use a type alias. Check :doc:`reference/types` if a type alias for your use case already exists
If something cannot be typed correctly due to a limitation of the type checkers, you may use :func:`typing.cast` to rectify the situation. However, you should only use this as a last resort if you've exhausted all other options of type narrowing, such as :func:`isinstance` checks and type guards.
You may use a properly scoped
type: ignore
if you ensured that a line is correct, but mypy / pyright has issues with it.Properly scoped meaning do not use blank
type: ignore
, instead supply the specific error code, e.g.,type: ignore[attr-defined]
If you are adding or modifying existing code, ensure that it's fully tested. 100% test coverage is mandatory, and will be checked on the PR using SonarCloud and Codecov
All functions, methods, classes, and attributes should be documented with a docstring. We use the Google docstring style. If you come across a function or method that doesn't conform to this standard, please update it as you go
When adding a new public interface, it has to be included in the reference documentation located in
docs/reference
. If applicable, add or modify examples in the docs related to the new functionality implemented, following the guidelines established in Adding examples.
Tests are contained within the tests
directory, and follow the same directory structure as the litestar
module.
If you are adding a test case, it should be located within the correct submodule of tests
. E.g., tests for
litestar/utils/sync.py
reside in tests/utils/test_sync.py
.
The Makefile
includes several commands for running tests:
make test
to run tests located intests
make test-examples
to run tests located indocs/examples/tests
make test-all
to run all testsmake coverage
to run tests with coverage and generate an html report
The tests make use of pytest-xdist to speed up
test runs. These are enabled by default when running make test
, make test-all
or make coverage
. Due to the nature of pytest-xdist, attaching a debugger isn't as
straightforward. For debugging, it's recommended to run the tests individually with
pytest <test name>
or via an IDE, which will skip pytest-xdist
.
We use mypy and pyright to enforce type safety. You can run them with:
make mypy
make pyright
make type-check
to run bothmake lint
to run pre-commit hooks and type checkers.
Our type checkers are run on Python 3.8 in CI, so you should make sure to run them on the same version locally as well.
The documentation is located in the /docs
directory and is written in
reStructuredText with the Sphinx.
library. If you're unfamiliar with any of those,
reStructuredText primer and
Sphinx quickstart are recommended reads.
We welcome contributions that enhance / improve the appearance and usability of the docs. We use the excellent PyData Sphinx Theme theme, which comes with a lot of options out of the box. If you wish to contribute to the docs style / setup, or static site generation, you should consult the theme docs as a first step.
You can serve the documentation locally with
make docs-serve
or build it with
make docs
We welcome contributions that enhance / improve the content of the docs. Feel free to add examples, clarify text, restructure the docs, etc., but make sure to follow these guidelines:
- Write text in idiomatic English, using simple language
- Do not use contractions for ease of reading for non-native English speakers
- Opt for Oxford commas when listing a series of terms
- Keep examples simple and self contained (see Adding examples). This is to ensure they are tested alongside the rest of the test suite and properly type checked and linted.
- Provide links where applicable.
- Use intersphinx wherever possible when referencing external libraries
- Provide diagrams using Mermaid where applicable and possible
The examples from the docs are located in their own modules inside the /docs/examples
folder. This makes it easier
to test them alongside the rest of the test suite, ensuring they do not become stale as Litestar evolves.
Please follow the next guidelines when adding a new example:
- Add the example in the corresponding module directory in
/docs/examples
or create a new one if necessary - Create a suite for the module in
/tests/examples
that tests the aspects of the example that it demonstrates - Reference the example in the rst file with an external reference code block, e.g.
.. literalinclude:: /examples/test_thing.py
:language: python
:caption: All includes should have a descriptive caption
Our docs include a Sphinx extension that can automatically run requests against example apps and include their result in the documentation page when its being built. This only requires 2 steps:
- Create an example file with an
app
object in it, which is an instance ofLitestar
- Add a comment in the form of
# run: /hello
to the example file
When building the docs (or serving them locally), a process serving the app
instance
will be launched, and the requests specified in the comments will be run against it. The
comments will be stripped from the result, and the output of the curl
invocation inserted
after the example code-block.
The # run:
syntax is nothing special; everything after the colon will be passed to
the curl
command that's being invoked. The URL is built automatically, so the
specified path can just be a path relative to the app.
In practice, this looks like the following:
from typing import Dict
from litestar import Litestar, get
@get("/")
def hello_world() -> Dict[str, str]:
"""Handler function that returns a greeting dictionary."""
return {"hello": "world"}
app = Litestar(route_handlers=[hello_world])
# run: /
This is equivalent to:
from typing import Dict
from litestar import Litestar, get
@get("/")
def hello_world() -> Dict[str, str]:
"""Handler function that returns a greeting dictionary."""
return {"hello": "world"}
app = Litestar(route_handlers=[hello_world])
Run it
> curl http://127.0.0.1:8000/
{"hello": "world"}
Checkout the
main
branch:git checkout main
Run the release preparation script:
python tools/prepare_release.py <new version number> --update-version --create-draft-release
Replace
<new version number>
with the desired version number following the versioning scheme.This script will:
- Update the version in
pyproject.toml
- Generate a changelog entry in :doc:`/release-notes/changelog`
- Create a draft release on GitHub
- Update the version in
Review the generated changelog entry in :doc:`/release-notes/changelog` to ensure it looks correct.
Commit the changes to
main
:git commit -am "chore(release): prepare release vX.Y.Z"
Replace
vX.Y.Z
with the actual version number.Create a new branch for the release:
git checkout -b vX.Y.Z
Push the changes to a
vX.Y.Z
branch:git push origin vX.Y.Z
Open a pull request from the
vX.Y.Z
branch tomain
.Once the pull request is approved, go to the draft release on GitHub (the release preparation script will provide a link).
Review the release notes in the draft release to ensure they look correct.
If everything looks good, click "Publish release" to make the release official.
Go to the Release Action and approve the release workflow if necessary.
Check that the release workflow runs successfully.
Note
The version number should follow semantic versioning and PEP 440.