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CONTRIBUTING.md

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Contribute to Streamlit Pydantic

Thanks for your interest in contributing to our project. This page will give you a quick overview of how things are organized and, most importantly, how to get involved.

Everyone is welcome to contribute, and we value everybody's contribution. Code is thus not the only way to help the community. Answering questions, helping others, reaching out and improving the documentations are immensely valuable to the projects as well.

Table of contents

  1. Issues and bug reports
  2. Contributing to the code base
  3. Code conventions
  4. Code of conduct

Issues and bug reports

  • We use GitHub issues to track bugs and enhancement requests. Submit issues for any feature request and enhancement, bugs, or documentation problems.
  • First, do a quick search on the Github issue tracker or the known issues section in the readme to see if the issue has already been reported. If so, it's often better to just leave a comment on an existing issue rather than creating a new one. Old - and sometimes closed - issues also often include helpful tips and solutions to common problems.
  • When creating an issue, try using one of our issue templates which already contain some guidelines on which content is expected to process the issue most efficiently. If no template applies, you can of course also create an issue from scratch.
  • Please provide as much context as possible when you open an issue. The information you provide must be comprehensive enough to reproduce that issue for the assignee. Therefore, contributors should use but aren't restricted to the issue template provided by the project maintainers.
  • Please apply one or more applicable labels to your issue so that all community members are able to cluster the issues better.
  • If you have questions about one of the existing issues, please comment on them, and one of the maintainers will clarify.

Contributing to the code base

You are welcome to contribute code in order to fix a bug, to implement a new feature, to propose new documentation, or just to fix a typo. Check out good first issue and help wanted issues if you want to find open issues to implement.

  • Before writing code, we strongly advise you to search through the existing PRs or issues to make sure that nobody is already working on the same thing. If you find your issue already exists, make relevant comments and add your reaction (👍 - upvote, 👎 - downvote). If you are unsure, it is always a good idea to open an issue to get some feedback.
  • Should you wish to work on an existing issue that has not yet been claimed, please claim it first by commenting on the GitHub issue that you want to work on and begin work (the maintainers will assign it to your GitHub user as soon as they can). This is to prevent duplicated efforts from other contributors on the same issue.
  • To contribute changes, always branch from the main branch and after implementing the changes create a pull request as described below.
  • Commits should be as small as possible while ensuring that each commit is correct independently (i.e., each commit should compile and pass tests). Also, make sure to follow the commit message guidelines.
  • Test your changes as thoroughly as possible before you commit them. Preferably, automate your test by unit/integration tests.

Development Instructions

To simplify the process of building this project from scratch, we provide build-scripts - based on universal-build - that run all necessary steps (build, test, and release) within a containerized environment by using Github Actions and Act to run all actions locally.

Please refer to the documentation of universal-build for instructions on how to execute the build-scripts directly on your machine instead of using the containerized approach documented below. This local execution would not require Docker.

Requirements

Build components

Execute this command in the project root folder to compile, assemble, and package all project components:

act -b -s BUILD_ARGS="--make" -j build

You can also run the build only for a specific (sub-)component by providing the path to the component folder, as shown below:

act -b -s BUILD_ARGS="--make" -s WORKING_DIRECTORY="./docs" -j build

Run linting & style checks

To run all relevant linting and code style checks for all components, execute:

act -b -s BUILD_ARGS="--check" -j build

Run integration & unit tests

Once all the project artifacts are build, you can execute this command in the project root folder to run the integration & unit tests for all components:

act -b -s BUILD_ARGS="--test" -j build

It is also possible to combine multiple steps into one command:

act -b -s BUILD_ARGS="--check --make --test" -j build

The --check --make --test steps are configured as default. If you call the job without BUILD_ARGS the build and test steps will be executed:

act -b -j build

Release a new version

To release a new version and publish all relevant artifacts to the respective registries (e.g. Docker image to DockerHub) you can either trigger our release pipeline locally via Act or from the Github UI. For a release, you have to provide a valid version based on Semantic Versioning standard.

Via Act (locally)

To build all components and publish all artifacts from your local machine, execute:

act -b -s VERSION="<MAJOR.MINOR.PATCH>" -j release

In case you also want to automatically create a valid Github release, you also need to provide a valid GITHUB_TOKEN as a secret (-s GITHUB_TOKEN=<token>). Please refer to the next section for information on how to finish and publish the release.

Via Github Actions

To trigger our release pipeline from Github UI, you can either close a milestone that has a valid version name (vMAJOR.MINOR.PATCH) or execute the release pipeline manually via the workflow_dispatch UI in the Action Tab (Actions -> release-pipeline -> Run Workflow). The release pipeline will automatically create a pull request for the new version as well as a draft release on Github.

After successful execution of the release pipeline, the following steps are required to finish the release:

  1. Merge the release PR into main. Preferably via merge commit to keep the version tag in the main branch. We suggest to use the following message for the merge commit: Finalize release for version <VERSION> (#<PR>).
  2. Adapt the changelog of the draft release on Github (in the release section). Mention all other changes that are not covered by pull requests.
  3. Publish the release.
Resolve an unsuccessful release

In case the release pipeline fails at any step, we suggest to fix the problem based on the release pipeline logs and create a new release with an incremented patch version. To clean up the unsuccessful release, make sure to delete the following artifacts (if they exist): the release branch, the release PR, the version tag, the draft release, and any release artifact that was already published (e.g. on DockerHub, NPM or PyPi).

Commit messages guidelines

Commit messages should be as standardized as possible within the repository. A few best practices:

  1. Always use simple present (imperative mood) to describe what the commit does. Explain what & why, not how!
  2. Start with a capital letter.
  3. Don’t end the subject line with a period.
  4. Descriptive but short subject line (< 50 chars).
  5. Link to issues by mentioning them in commit messages.
  6. Examples: Add image to documentation section 3Fix memory leak. Closes #3Split method X into two methods. Refer to this blog for more information about good commit messages.

Opening a pull request

  1. Set title. The title should follow our commit message guidelines (example: Fix memory leak in picture loader). If the pull request closes a specific issue, the title can be used to mention the issue (example: Fix memory leak in picture loader. Closes #3). Prefix the title with [WIP] (Work In Progress) to indicate that you are not done but need clarification or an explicit review before you can continue your work item.
  2. Add appropriate labels (e.g. bug, enhancement, documentation).
  3. Set description: Describe what the pull request is about and add some bullet points describing what’s changed and why (make use of the provided template). Link the pull request to all relevant issues in the pull request description (e.g. Closes #10). Find more information on linking pull requests to issues here. Add BREAKING CHANGE into the description in case the PR introduces breaking changes.
  4. Open the pull request and make sure existing tests and checks pass. The PR will only be merged into main if it is consistent with style and linting guidelines.

Review & merging of a pull request

  1. Every pull request will be reviewed by at least 1 reviewer and will also trigger CI pipelines to automatically build and test the changes. If your PR is not getting reviewed for a longer time, you can @-reply a reviewer in the pull request or comment.
  2. Every comment on PR should be accepted as a change request and should be discussed. When something is optional, it should be noted in the comment. If a review requires you to make additional changes, please test the changes again. Create a comment on the PR to notify the reviewers that your amendments are ready for another round of review.
  3. Once the pull request is approved by at least 1 reviewer, the pull request can be merged. Squash & merge is the preferred merging strategy.
  4. In case a new (feature) branch was created in the main repository, please delete this branch after a successful merge.

Git workflow & versioning

  • We use GitLab Flow as our branching workflow.
  • Feature branching: Use (short-lived) feature branches. Naming schema: feature/<DESCRIPTION>, if related to one specific issue use suffix: feature/<DESCRIPTION>/<ISSUE-NUMBER>. In addition to the feature/ prefix, we recommend using more descriptive feature branch prefixes such as bugfix/ for bug-fixes, maintenance/ for maintenance or refactoring changes, and documentation/ for changes related to the documentation.
  • For versioning, we have adapted the Semantic Versioning standard. All version tags on Git must be prefixed with v (e.g.v<MAJOR>.<MINOR>.<PATCH>). The version can be suffixed with a tag that indicates a pre-release or unfinished version. All our local development builds will use the following dev suffix: -dev.<BRANCH>.

Code conventions

Python conventions

Code style & naming

  • Code style should loosely follow pep8.
  • Documentation style should follow the Google style.
  • Naming should follow the recommendations here.

Code formatting

We use black for code formatting and isort for import sorting. The following commands run black and isort on all Python files of the component (when executed in the component root):

isort --profile black src
black src

If you want to only check if the formatting and sorting is applied correctly to all files, execute:

# formatting check:
black --check src
# import sorting check:
isort --profile black --check-only src

You can also configure black and isort inside your code editor. For example, if you're using Visual Studio Code with the Python extension, you can add the following to your settings.json for formatting and auto-format your files on save:

{
    "python.formatting.provider": "black",
    "python.sortImports.args": [
        "--multi-line=3",
        "--trailing-comma",
        "--force-grid-wrap=0",
        "--use-parentheses",
        "--line-width=88"
    ],
    "[python]": {
        "editor.defaultFormatter": "ms-python.python",
        "editor.formatOnPaste": false,
        "editor.formatOnSave": true,
        "editor.codeActionsOnSave": {
            "source.organizeImports": true
        }
    }
}

Code linting

We use flake8 for linting, mypy for type checking, and pydocstyle for docstring style checks. You can find our flake8 configuration inside the setup.cfg or here. The following commands run flake8, mypy and pydocstyle on all python files of the compontent (when executed in the compontent root):

# type checks
mypy src
# linting
flake8 src
# docstring checks
pydocstyle src

You can also configure flake8, mypy, and pydocstyle inside your code editor. For example, if you're using Visual Studio Code with the Python extension, you can add the following to your settings.json for linting and type checking:

{
    "python.linting.enabled": true,
    "python.linting.lintOnSave": true,
    "python.linting.pylintEnabled": false,
    "python.linting.mypyEnabled": true,
    "python.linting.pydocstyleEnabled": true,
    "python.linting.pydocstyleArgs": ["--convention=google"],
    "python.linting.flake8Enabled": true,
    "python.linting.flake8Args": [
        "--ignore=E203,E501,W503"
    ]
}

Adding & running tests

We use the pytest framework for testing. For more info on this, see the pytest documentation. Tests for modules and classes live in their own directories of the same name inside the tests folder. To be discovered, all test files and test functions need to be prefixed with test_. To run the test suite, execute:

# Run full test suite:
pytest
# Exclude all slow tests
pytest -m "not slow"

When adding tests, make sure to use descriptive names, keep the code short and concise and only test for one behavior at a time. Try to avoid unnecessary imports and use parametrize test cases wherever possible. Parametrizing tests allows to test multiple inputs to a function and verify that they return the expected output. Use fixtures to share test setups with - optional - setup and tear-down routines. Fixtures can also be parameterized. Extensive tests that take a long time should be marked with @pytest.mark.slow.

Code of Conduct

All members of the project community must abide by the Contributor Covenant, version 2.0. Only by respecting each other we can develop a productive, collaborative community. Instances of abusive, harassing, or otherwise unacceptable behavior may be reported by contacting a project maintainer.