Developer Guide

This guide is targeting mainly developers, maintainers and other technical contributors and provides more information on how to work with this repository.

Overview

Repository Structure

Here is a non-exhaustive list of the most important files and directories in the repository.

General:

• AUTHORS.md: acknowledges and lists all contributors
• CHANGELOG.md: summarizes the changes for each version of the software for users
• CODE_OF_CONDUCT.md: defines the social standards that must be followed by contributors
• CONTRIBUTING.md: explains how others can contribute to the project
• README.md: provides an overview and points to other resources

Metadata:

• CITATION.cff: metadata stating how to cite the project
• codemeta.json: metadata for harvesting by other tools and services
• LICENSE: the (main) license of the project
• LICENSES: copies of all licenses that apply to files in the project
• .reuse/dep5: granular license and copyright information for all files and directories

Development:

• pyproject.toml: project metadata, dependencies, development tool configurations
• poetry.lock: needed for reproducible installation of the project
• src: actual code provided by the project
• tests: all tests for the code in the project
• mkdocs.yml: configuration of the project website
• docs: most contents used for the project website

Automation and Quality Control:

• .pre-commit-config.yaml: quality assurance tools used in the project
• .github/workflows: CI scripts for GitHub (QA, documentation and package deployment)
• .github/ISSUE_TEMPLATE: templates for the GitHub issue tracker
• .gitlab-ci.yml: mostly equivalent CI scripts, but for GitLab
• .gitlab/issue_templates: The same issues templates, but for GitLab

Used Tools

Here is a non-exhaustive list of the most important tools used in the project.

Best practices for modern Python development are implemented by using:

• poetry for dependency management and packaging
• pytest for unit testing
• hypothesis for property-based testing
• pre-commit for orchestrating linters, formatters and other utilities
• black for source-code formatting
• autoflake for automatically removing unused imports
• flake8 for general linting (using various linter plugins)
• pydocstyle for checking docstring conventions
• interrogate for computing docstring coverage
• mypy for editor-independent type-checking
• mkdocs for generating the project documentation website
• bandit for checking security issues in the code
• safety for checking security issues in the current dependencies

Metadata best practices for FAIR software are implemented using:

• cffconvert to check the CITATION.cff (citation metadata)
• codemetapy to generate a codemeta.json (general software metadata)
• reuse to check REUSE-compliance (granular copyright and license metadata)
• licensecheck to scan for possible license incompatibilities in the dependencies

Basics

The project

• heavily uses pyproject.toml, which is a recommended standard
• adopts the src layout, to avoid common problems
• keeps the actual code (src) and test code (tests) separated

The pyproject.toml is the main configuration file for the project. It contains both general information about the software as well as configuration for various tools.

In older software, most of this information is often scattered over many little tool-specific configuration files and a setup.py, setup.cfg and/or requirements.txt file.

In this project, pyproject.toml is the first place that should be checked when looking for the configuration of some development tool.

Configuration

The main tool needed to manage and configure the project is Poetry.

Please follow its setup documentation to install it correctly. Poetry should not be installed with pip like other Python tools.

Poetry performs many important tasks:

• it manages the virtual environment(s) used for the project
• it manages all the dependencies needed for the code to work
• it takes care of packaging the code into a pip-installable package

You can find a cheatsheet with the most important commands here and consult its official documentation for detailed information.

Note that poetry is only needed for development of the repository. The end-users who just want to install and use this project do not need to set up or know anything about poetry.

Note that if you use poetry shell and the project is installed with poetry install, in the following you do not have to prepend poetry run to commands you will see below.

Task Runner

It is a good practice to have a common way for launching different project-related tasks. It removes the need of remembering flags for various tools, and avoids duplication of the same commands in the CI pipelines. If something in a workflow needs to change, it can be changed in just one place, thus reducing the risk of making a mistake.

Often projects use a shell script or Makefile for this purpose. This project uses poethepoet, as it integrates nicely with poetry. The tasks are defined in pyproject.toml and can be launched using:

poetry run poe TASK_NAME

CI Workflows

The project contains CI workflows for both GitHub and GitLab.

The main CI pipeline runs on each new pushed commit and will

1. Run all configured code analysis tools,
2. Run code tests with multiple versions of Python,
3. build and deploy the online project documentation website, and
4. if a new version tag was pushed, launch the release workflow

Quality Control

Static Analysis

Except for code testing, most tools for quality control are added to the project as pre-commit hooks. The pre-commit tool takes care of installing, updating and running the tools according to the configuration in the .pre-commit-config.yaml file.

For every new copy of the repository (e.g. after git clone), pre-commit first must be activated. This is usually done using pre-commit install, which also requires that pre-commit is already available. For more convenience, we simplified the procedure.

In this project, you can run:

poetry run poe init-dev

This will make sure that pre-commit is enabled in your repository copy.

Once enabled, every time you try to git commit some changed files various tools will run on those (and only those) files.

This means that (with some exceptions) pre-commit by default will run only on the changed files that were added to the next commit (i.e., files in the git staging area). These files are usually colored in green when running git status.

• Some tools only report the problems they detected
• Some tools actively modify files (e.g., fix formatting)

In any case, the git commit will fail if a file was modified by a tool, or some problems were reported. In order to complete the commit, you need to

• resolve all problems (by fixing them or marking them as false alarm), and
• git add all changed files again (to update the files in the staging area).

After doing that, you can retry to git commit your changes.

To avoid having to deal with many issues at once, it is a good habit to run pre-commit by hand from time to time. In this project, this can be done with:

poetry run poe lint --all-files

Testing

pytest is used as the main framework for testing.

The project uses the pytest-cov plugin to integrate pytest with coverage, which collects and reports test coverage information.

In addition to writing regular unit tests with pytest, consider using hypothesis, which integrates nicely with pytest and implements property-based testing - which involves automatic generation of randomized inputs for test cases. This can help to find bugs often found for various edge cases that are easy to overlook in ad-hoc manual tests. Such randomized tests can be a good addition to hand-crafted tests and inputs.

To run all tests, either invoke pytest directly, or use the provided task:

poetry run poe test

Documentation

The project uses mkdocs with the popular and excellent mkdocs-material theme to generate the project documentation website, which provides both user and developer documentation.

mkdocs is configured in the mkdocs.yml file, which we prepared in a way that there is

• no need to duplicate sections from files in other places (such as README.md)
• fully automatic API documentation pages based on Python docstrings in the code
• a detailed test coverage report is included in the website

The first point is important, because avoiding duplication means avoiding errors whenever text or examples are updated. The second point is convenient, as modules and functions do not need to be added by hand, which is easy to forget. The third point removes the need to use an external service such as CodeCov to store and present code coverage information.

As software changes over time and users cannot always keep up with the latest developments, each new version of the software should provide version-specific documentation. To make this both possible as well as convenient, this project uses mike to generate and manage the mkdocs documentation for different versions of the software.

Online Documentation

To avoid dependence on additional services such as readthedocs, the project website is deployed using GitHub Pages.

The provided CI pipeline automatically generates the documentation for the latest development version (i.e., current state of the main branch) as well as every released version (i.e., marked by a version tag vX.Y.Z).

Offline Documentation

You can manually generate a local and fully offline copy of the documentation, which can be useful for e.g. previewing the results during active work on the documentation:

poetry install --with docs
poetry run poe docs

Once the documentation site is built, run mkdocs serve and open https://localhost:8000 in your browser to see the local copy of the website.

Releases

From time to time the project is ready for a new release for users.

Creating a New Release

Before releasing a new version, push the commit the new release should be based on to the upstream repository, and make sure that:

• the CI pipeline completes successfully
• the version number in pyproject.toml is updated, in particular:
• it must be larger than the previous released version
• it should adequately reflect the severity of changes
• the provided user and developer documentation is up-to-date, including:
• a new section in the CHANGELOG.md file summarizing changes in the new version
• possibly revised information about contributors and/or maintainers

If this is the case, proceed with the release by:

• creating a new tag that matches the version in the pyproject.toml: git tag vX.Y.Z
• pushing the new tag to the upstream repository: git push origin vX.Y.Z

The pushed version tag will trigger a pipeline that will:

• build and deploy the documentation website for the specific version
• publish the package to enabled targets (see below)

Release Targets

Targets for releases can be enabled or disabled in .github/workflows/ci.yml and configured by adapting the corresponding actions in .github/workflows/releases.yml.

Github Release

By default, the release workflow will create a basic Github Release that provides a snapshot of the repository as a download. This requires no additional configuration.

See here for information on how the Github release can be customized.

Note that this release target is mostly for demonstration purposes. For most Python projects, using PyPI is the recommended primary distribution method.

PyPI (and compatible package indices)

For releases to PyPI and Test PyPI the project uses the new Trusted Publishers workflow that is both more secure and convenient to use than other authorization methods.

Before the project can be released to PyPI or Test PyPI the first time, first a pending publisher must be added in the PyPI account of the main project maintainer, using release.yml as the requested workflow name.

Once this is done, set the corresponding option (to_pypi / to_test_pypi) to true in the publish job in ci.yml to enable the corresponding publication target.

If the old and less secure token-based authentication method is needed or the package should be published to a different PyPI-compatible package index, please adapt release.yml accordingly).