jupyter_server_proxy/CONTRIBUTING.md

Contributing

Welcome! As a Jupyter project, we follow the Jupyter contributor guide.

To setup a local development environment and run tests, see the small section in the README.md file.

Local development setup

conda

Optional, but especially recommended on non-Linux platforms...

Using the conda (or mamba or micromamba) package manager with packages from conda-forge can help isolate development environments on nearly any operating system and architecture.

For example, after installing mambaforge, create a new environment with all heavy development and test dependencies:

mamba create --name=jupyter-server-proxy --channel=conda-forge "python=3.12" "nodejs=20" pip git geckodriver firefox
mamba activate jupyter-server-proxy

Python package

# Clone the repo to your local environment
git clone https://github.com/jupyterhub/jupyter-server-proxy.git
# Change directory to the jupyter-server-proxy directory
cd jupyter-server-proxy
# Install package in development mode, with the latest Jupyter clients
pip install -e ".[test,lab]"
# Link your development version of the extension with JupyterLab and Notebook
jupyter labextension develop --overwrite .
# Server extension must be manually installed in develop mode
jupyter server extension enable jupyter_server_proxy

Testing

Run the tests:

pytest

These generate test and coverage reports in build/pytest and build/coverage.

Acceptance tests

In tests/acceptance, a number of .robot files emulate a user starting a Jupyter server, opening a real browser, clicking on screen elements, and seeing several working proxy servers in supported Jupyter clients.

These tests are slower and more resource intensive than the unit and integration tests, and generate additional screenshots, browser logs, server logs, and report HTML in build/robot.

Extra browser dependencies

Compatible versions of geckodriver and firefox need to be on $PATH.

These can be provisioned by a conda-compatible installer, a system package manager, or as a last resort, direct binary downloads.

Acceptance test dependencies

To install the additional dependencies beyond the Python package test dependencies, and run the tests against the latest Jupyter clients:

pip install -e ".[test,acceptance,lab]"
pytest

To run only the acceptance tests, use the -k switch:

pytest -k acceptance

Older Jupyter Clients

To run the acceptance tests against the previous major versions of Notebook and JupyterLab, it is advisable to use a separate, isolated environment, testing the as-built assets from pyproject-build.

After creating and activating such an environment with virtualenv or conda:

pip install --find-links ./dist/ --no-index-url jupyter-server-proxy[test,acceptance,classic]

Frontend Development

To support a wide range of clients, both JupyterLab and Notebook Classic extensions are built and distributed, each with their own quirks.

JupyterLab/Notebook extension

The ./labextension/ directory contains the extension for the lumino-based JupyterLab and Notebook clients.

nodejs

Building this extension requires a compatible version of nodejs, with a supported, long term support (LTS) release recommended.

jlpm

The jlpm command is a vendored, pinned version of the yarn package manager. Installed with JupyterLab, it performs commands such as installing npm dependencies listed in labextension/package.json, building and watching the extension from source, and formatting web-related source code files.

The built Lab extension

During a pyproject-build of the python package, a temporary JupyterLab and jlpm will be installed as part of the build-system, executing roughly the commands:

cd labextension            # Change to the root of the labextension
jlpm                       # Install dependencies
jlpm build:prod            # Build:
                           # - `labextension/lib` with type checking
                           # - `jupyter_server_proxy/labextension` with minimization

During pip install, the built assets are copied to the user's {sys.prefix}/share/jupyter/labextensions/@jupyterhub/jupyter-server-proxy to be found by the application at startup.

Developing the Lab extension

For fine-grained access to the jlpm command and various build steps:

pip install -e .[lab]      # Ensure a compatible jlpm
cd labextension            # Change to the root of the labextension
jlpm
jlpm install:extension     # Symlink into `{sys.prefix}/share/jupyter/labextensions`

Watch the source directory and automatically rebuild the labextension/lib and jupyter_server_proxy/labextension folders:

cd labextension
# Watch the source directory in one terminal, automatically rebuilding when needed
jlpm watch
# Run JupyterLab in another terminal
jupyter lab

While running jlpm watch, every saved change to a .ts file will immediately be built locally and available in your running Jupyter client. "Hard" refresh JupyterLab or Notebook with CTRL-F5 or ⌘-F5 to load the change in your browser (you may need to wait several seconds for the extension to be fully rebuilt).

Source Maps

By default, the jlpm build and jlpm watch commands generate source maps for this extension to improve debugging using the browser development tools, often revealed by pressing F12.

To also generate source maps for the JupyterLab core application, run the following command:

jupyter lab build --minimize=False

Notebook Classic extension

The files in jupyter_server_proxy/static extend the Notebook Classic application's Tree page.

RequireJS

The Notebook Classic extension uses the require.js dependency injection system, and presently uses no dependencies beyond what is provided by Notebook Classic.

The built Classic extension

During a user's pip install, the static assets are copied to {sys.prefix}/share/jupyter/nbextensions/jupyter_server_proxy, to be found by the application at startup.

Developing the Classic extension

While this extension is served as-is once installed, for live development the extension assets must be linked:

pip install -e ".[classic]"
jupyter nbextension install --symlink --sys-prefix --py jupyter_server_proxy

After making changes, "hard" refresh the browser application, usually with CTRL-F5 or ⌘-F5.

Documentation

The documentation uses a fairly standard Sphinx build chain, and requires make on Linux/MacOS, which cannot be installed with pip

make is available from conda-forge as make for Linux/OSX, and m2-make on Windows

In addition to any system packages, building the documentation requires additional packages. To install the needed packages:

pip install -r docs/requirements.txt

Once installed, enter the docs folder with:

cd docs

... then build the HTML site:

make

... or check that all hyperlinks can be resolved:

make linkcheck

... or start an auto-reloading server and open a web browser:

make devenv

Linting

During continuous integration (CI) the pre-commit package is used to run a number of checks, with each tool in a private virtual environment. If it is able to, the CI bot will push to a PR with fixes.

By installing pre-commit with pip or conda, you can have this same experience, or inspect the configuration to try to recreate it yourself locally.