Python Template Repository including a tox.ini
, Unittests&Coverage, Pylint & MyPy Linting Actions and a PyPI Publishing Workflow
This is a template repository. It doesn't contain any useful code but only a minimal working setup for a Python project including:
- a basic project structure with
- tox.ini
pyproject.toml
where the project metadata and dependencies are defined- and a requirements.txt derived from it
- an example class
- an example unit test (using pytest)
- ready to use Github Actions for
- pytest
- code coverage measurement (fails below 80% by default)
- pylint (only accepts 10/10 code rating by default)
- mypy (static type checks where possible)
- black code formatter check
- isort import order check
- codespell spell check (including an ignore list)
- autoresolve dev-dependencies with
tox -e compile_requirements
- ready-to-use publishing workflow for pypi (see readme section below)
By default, it uses Python version 3.13.
This repository uses a src
-based layout.
This approach has many advantages and basically means for developers, that all business logic lives in the src
directory.
If you ever set up your toxbase virtual environment already, skip this first step and continue with the project-specific setup.
Creating the toxbase from scratch (windows)
You can either follow the installation instructions) and that a .toxbase
environment has been created.
Here we repeat the most important steps.
On new Windows machines it is possible that the execution policy is set to restricted and you are not allowed execute scripts. You can find detailed information here.
The quickest way to solve this problem: Open an Administrator Powershell (e.g. Windows PowerShell App, right click: 'Run as Adminstrator')
Set-ExecutionPolicy -ExecutionPolicy AllSigned
Then close the admin powershell and continue in the regular shell.
.toxbase
is a project independent virtual environment-template for all the tox environments on your machine. If anything is weird during the tox installation or after the installation, try turning your computer off and on again before getting too frustrated.
Ask your Hochfrequenz colleagues for help.
# Change to your user directory, create tools directory if it does not exist
$ cd C:\Users\YourUserName
# Create a virtual environment called .toxbase
$ python -m venv .toxbase
then
# Windows Powershell
$ .\.toxbase\Scripts\Activate.ps1
# XOR Windows default (e.g. cmder)
λ .toxbase\Scripts\activate.bat
# the virtual environment is active
# if you see the environment name at the beginning of the line
(.toxbase) $ python -m pip install --upgrade pip
(.toxbase) $ pip install tox
(.toxbase) $ tox --version
Finally, we need to make the tox command available in all future terminal sessions. There are ways to achieve this goal using only the powershell commands, but we just use the "regular" way:
-
Type systemvariable in the search field of your windows taskbar.
-
Click on Edit system variables, then on environment variables.
-
In the next window select Path in the upper part (User variables for YourUserName) and click on edit.
-
Add a new path with
C:\Users\YourUserName\.toxbase\Scripts\
⚠️ You have to replace YourUserName with your actual username in the path! the path up to .toxbase has already been printed to the CLI in the tox --version command above
-
Save the settings.
-
Now you have to sign out and in again to make the changes work.
You should now be able to type the following and get a reasonable answer
tox --version
in every shell, no matter if you activated the toxbase again.
Tox has an issue if you have an umlaut in your username. This issue is well known.
To solve it you have to add another environment variable PYTHONIOENCODING
with the value utf-8
(source).
Start a new PowerShell session and try to run tox -e dev in your repository again.
Creating the toxbase from scratch (unix)
Open a terminal and execute the following commands# Change to your user directory
$ cd ~
# Create a virtual environment called .toxbase
$ python -m venv .toxbase
Now we activate the virtual environment, update pip and install tox:
$ source .toxbase/bin/activate
# the virtual environment is active
# if you see the environment name at the beginning of the line
(.toxbase) $ python -m pip install --upgrade pip
(.toxbase) $ pip install tox
(.toxbase) $ tox --version
Create a new folder bin in the home directory and add a symbolic link inside
cd
# create a `bin` directory
mkdir bin
# set link to ~/bin/tox
ln -s ~/.toxbase/bin/tox ~/bin/tox
Set the PATH variable
cd
# open the config file .bashrc
nano .bashrc
# Go to the bottom of the file and insert
# make tox accessible in each session from everywhere
PATH = "${HOME}/bin:${PATH}"
export PATH
# save and close the file with CTRL+O and CTRL+X
cd
# open the config.fish file
nano ~/.config/fish/config.fish
# Go to the bottom of the file and insert
# make tox accessible in each session from everywhere
set PATH {$HOME}/bin $PATH
# save and close the file with CTRL+O and CTRL+X
Check if everything works by opening a new terminal window and run
tox --version
If tox is set up, you're ready to start:
- clone the repository, you want to work in
- create the
dev
environment on your machine. To do this: a) Open a Powershell b) change directory to your repository and finally type
tox -e dev
You have now created the development environment (dev environment). It is the environment which contains both the usual requirements as well as the testing and linting tools.
- You have cloned the repository, you want to work in, and have created the virtual environment, in which the repository should be executed (
your_repo/.tox/dev
). Now, to actually work inside the newly created environment, you need to tell PyCharm (your IDE) that it should use the virtual environment - to be more precise: the interpreter of this dev environment. How to do this: a) navigate to: File ➡ Settings (Strg + Alt + S) ➡ Project: your_project ➡ Python Interpreter ➡ Add interpreter ➡ Existing b) Choose as interpreter:your_repo\.tox\dev\Scripts\python.exe
(under windows) - Set the default test runner of your project to pytest. How to do it: a) navigate to Files ➡ Settings ➡ Tools ➡ Python integrated tools ➡ Testing: Default test runner b) Change to "pytest" If this doesn't work anymore, see the PyCharm docs
- Set the
src
directory as sources root. How to do this: right click on 'src' ➡ "Mark directory as…" ➡ sources root If this doesn't work anymore, see: PyCharm docs. Setting thesrc
directory right, allows PyCharm to effectively suggest import paths. If you ever see something likefrom src.mypackage.mymodule import ...
, then you probably forgot this step. - Set the working directory of the unit tests to the project root (instead of the unittest directory). How to do this:
a) Open any test file whose name starts with
test_
in unit tests/tests b) Right click inside the code ➡ More Run/Debug ➡ Modify Run Configuration ➡ expand Environment collapsible ➡ Working directory c) Change toyour_repo
instead ofyour_repo\unittests
By doing so, the import and other file paths in the tests are relative to the repo root. If this doesn't work anymore, see: working directory of the unit tests
All paths mentioned in this section are relative to the repository root.
- Open the folder with VS Code.
- Select the python interpreter (official docs) which is created by tox. Open the command pallett with
CTRL + P
and typePython: Select Interpreter
. Select the interpreter which is placed in.tox/dev/Scripts/python.exe
under Windows or.tox/dev/bin/python
under Linux and macOS. - Set up pytest and pylint. Therefore we open the file
.vscode/settings.json
which should be automatically generated during the interpreter setup. If it doesn't exist, create it. Insert the following lines into the settings:
{
"python.testing.unittestEnabled": false,
"python.testing.nosetestsEnabled": false,
"python.testing.pytestEnabled": true,
"pythonTestExplorer.testFramework": "pytest",
"python.testing.pytestArgs": ["unittests"],
"python.linting.pylintEnabled": true
}
- Create a
.env
file and insert the following line
For Windows:
PYTHONPATH=src;${PYTHONPATH}
For Linux and Mac:
PYTHONPATH=src:${PYTHONPATH}
This makes sure, that the imports are working for the unittests. At the moment I am not totally sure that it is the best practise, but it's getting the job done.
- Enjoy 🤗
This repository contains all necessary CI steps to publish any project created from it on PyPI. It uses the trusted publishers workflow as described in the official Python documentation. It just requires some manual adjustments/settings depending on your project:
- Fill out the metadata in the
pyproject.toml
; Namely the package name and the dependencies which should be in sync with yourrequirements.in
. - Uncomment the lines in
.github/workflows/python-publish.yml
- Create a new environment in your GitHub repository and call it
release
. - Set up a new trusted publisher in your PYPI account.
- PyPI Project Name: The name which you defined in the
pyproject.toml
is the name of the project which you have to enter here. - Owner: The GitHub organization name or GitHub username that owns the repository
- Repository name: The name of the GitHub repository that contains the publishing workflow
- Workflow name: The filename of the publishing workflow. This file should exist in the .github/workflows/ directory in the repository configured above. Here in our case:
python-publish.yml
- Environment name: The name of the GitHub Actions environment that the above workflow uses for publishing. Here in our case:
release
- PyPI Project Name: The name which you defined in the
- Now create a release by clicking on "Create new release" in the right Github sidebar (or visit
github.com/your-username/your-reponame/releases/new
). This should trigger the workflow (see the "Actions" tab of your repo). - Check if the action failed. If it succeeded your PyPI account should now show the new project. It might take some minutes until the package can be installed via
pip install packagename
because the index has to be updated. - Now create another PyPI token with limited scope and update the Github repository secret accordingly.
You are very welcome to contribute to this template repository by opening a pull request against the main branch.
- Dependabot auto-approve / -merge:
- If the actor is the Dependabot bot (i.e. on every commit by Dependabot) the pull request is automatically approved and auto merge gets activated (using squash merge). Note that if you haven't enabled "auto merge" for your repository, the auto merge activation will fail. If you want to use a merge type other than "squash merge" you have to edit the workflow.