Framework that can run checks on repos
Project description
repo-review
This is a framework for building checks designed to check to see if a repository follows guidelines. By itself, it does nothing - it requires at least one plugin to be installed.
With one or more plugins, it will produce a list of results - green checkmarks
mean this rule is followed, red x’s mean the rule is not. A yellow warning sign
means that the check was skipped because a previous required check failed. Four
output formats are supported; rich
, svg
, html
, and json
.
sp-repo-review
provides checks based on the
Scientific-Python Development Guide at scientific-python/cookie. A live
WebAssembly demo using sp-repo-review
is
here.
Running repo-review
Repo-review supports running multiple ways:
- From the command line on a local folder
- From the command line on a remote repository on GitHub (
gh:org/repo@branch
) - From WebAssembly in Pyodide (example in
docs/index.html
)
If the root of a package is not the repository root, pass --package-dir a/b/c
.
Configuration
Repo-review supports configuration via pyproject.toml
:
[tool.repo-review]
select = ["A", "B", "C100"]
ignore = ["A100"]
If --select
or --ignore
are given on the command line, they will override
the pyproject.toml
config.
Comparison to other frameworks
Repo-review was inspired by frameworks like flake8 and Ruff. It is primarily different in two ways: It was designed to look at configuration files rather than Python files; which means it also only needs a subset of the repository (since most files are not configuration files). And it was designed to be runnable on external repositories, rather than pre-configured and run from inside the repository (which it can be). These differences also power the WebAssembly/remote version, which only needs to make a few API calls to look at the files that interest the plugin in question.
Development of repo-review and plugins
This repository is intended to be fun and easy to develop - it requires and uses Python 3.10, and uses a lot of the new features in 3.9 and 3.10. It's maybe not entirely conventional, but it enables very simple plugin development. It works locally, remotely, and in WebAssembly (using Pyodide).
There are a few key designs that are very useful and make this possible. First,
all paths are handled as Traversables. This allows a simple Traversable
implementation based on open_url
to provide a web interface for use in the
webapp. It also would allow zipfile.Path
to work just as well, too - no need
to extract.
Checks can request fixtures (like pytest) as arguments. Check files can add new
fixtures as needed. Fixtures are are specified with entry points, and take any
other fixture as arguments as well - the package
fixture represents the root
of the package you are checking, and is the basis for all other fixtures.
Checks are specified via an entrypoint that returns a dict of checks; this also
can accept fixtures, allowing dynamic check listings.
Check files do not depend on the main library, and can be extended (similar to Flake8). You register new check files via entry-points - so extending this is with custom checks or custom fixtures is easy and trivial. There's no need to subclass or do anything with the base library - no dependency required.
Checks are as simple as possible so they are easy to write. A check is a class
with the name (1-2 letters + number) and a docstring (the check message). It
should define a set of requires
with any checks it depends on (by name), and
have a check classmethod. The docstring of this method is the failure message,
and supports substitution. Arguments to this method are fixtures, and package
is the built-in one providing the package directory as a Traversable. Any other
fixtures are available by name. A new fixture is given the package Traversable,
and can produce anything; fixtures are topologically sorted, pre-computed and
cached.
The runner will topologically sort the checks, and checks that do not run will
get a None
result and the check method will not run. The front-end (Rich
powered CLI or Pyodide webapp) will render the markdown-formatted check
docstring only if the result is False
.
Links
This project inspired Try-PyHF, an interface for a High Energy Physics package in Scikit-HEP.
This project inspired abSENSE, an web interface to abSENSE.
This was developed for Scikit-HEP before moving to Scientific-Python.
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