JupyterLab Extension for dependency management and optimization
Project description
jupyterlab-requirements
Dependency management and optimization in JupyterLab.
About
This extension provides management of dependencies for JupyterLab notebooks.
The main goals of the project are the following:
- manage notebook requirements without leaving the notebook
- provide a unique and optimized* environment for each notebook
NOTE: The requirements are optimized using the Thoth resolution engine
Requirements
- JupyterLab >= 3.0
Installation
You can install this extension with pip:
pip install jupyterlab-requirements
And start using it immediately on JupyterLab:
jupyter lab
Troubleshoot
If you are seeing the frontend extension, but it is not working, check that the server extension is enabled:
jupyter server extension list
If the server extension is installed and enabled, but you are not seeing the frontend extension, check the frontend extension is installed:
jupyter labextension list
Usage
jupyter-nbrequirements extension for JupyterLab can be easily used from the notebook in JupyterLab.
Extension Button
This jupyterlab extension provides a button directly in the notebook to manage the dependencies (see image below).
Start adding dependencies from empty notebook
Clicking the above button you will receive the following dialog form initially:
Initially, no dependencies are identified if you start a new notebook as metadata related are not existing. The extension checks in the notebook metadata in order to identify them every time you restart a notebook. Moreover it verifies that the kernel you are using is matching your dependencies. If not it warns to use install button again to avoid weird behaviours.
You can start adding your packages using the central add button and once you select package name and version, remember to add your package using add button in action, otherwise it won't be saved (in the future this behaviour will not be necessary due to the autocompletion feature):
NOTE: The extra button in action will be removed in the future.
NOTE: Autocompletion is planned in the future so that user can check which version are available on PyPI.
Save dependencies added and install them in your customized kernel
After saving the install button will appear so you can check before actually installing the dependencies:
NOTE: You can choose the name of the kernel you want for your notebook.
Using the Thoth resolution engine you can request an optimized software that satisfies your requirements using the Thoth recommender system. You can choose the type of recommendation that better fits your needs:
- latest
- performance
- security
- stable
- testing
You can find more information and updates here.
Finally after using the install button:
Now all dependencies will be locked (direct and transitive), saved in the notebook metadata, and installed. Moreover, the kernel will be automatically created and set for your notebook without human intervention required.
Now you are ready to work on your project!
Restart notebook
If you restart notebook and check dependencies with button you will see that they are all installed and ready:
Start notebook without information about dependencies in metadata
If you have notebooks with code and you want to start using this extension, there is a nice feature that can be interesting.
Thoth relies on a library called invectio. This library statically analyzes sources and extract information about called or exported library functions in Python applications.
jupyterlab-requirements extension uses this information to provide users with list of packages to be installed if they have never used the extension before.
Resolution engines
Currently Thoth is used by default and pipenv is backup. In the future user will be able to select specific one.
Virtual environment for you dependencies
Virtualenv created to run your notebook according to your dependencies requirement is created in:
~/.local/share/thoth/kernels/{kernel_name}
Dependencies installation
Once lock file is created using any of available resolution engine. The dependencies are installed in the virtualenv using micropipenv.
Overlays directory
The dependencies stored in the notebook metadata are also stored into overlays
folder (created automatically) using the kernel name by default.
If you want to know more about the use of overlays, have a look here.
Thoth configuration file
Thoth resolution engine is able to provide an optimized software stack based on the runtime environment you are using (more inputs are used, if you want to know more, have a look here here).
In general different runtime environment will provide different effect on you application (e.g. more performance), therefore we include these information in the notebook metadata so that other can find out what runtime environment has been used to run a certain notebook.
Delete kernels
If you have too many kernels, you can handle them directly from the menu.
Contributing
Development install
Note: You will need NodeJS to build the extension package.
The jlpm
command is JupyterLab's pinned version of
yarn that is installed with JupyterLab. You may use
yarn
or npm
in lieu of jlpm
below.
# Clone the repo to your local environment
# Change directory to the jupyterlab-requirements directory
# Install package in development mode
pip install -ve .
# Link your development version of the extension with JupyterLab
jupyter labextension develop . --overwrite
jupyter serverextension enable --py jupyterlab-requirements --sys-prefix
# Rebuild extension Typescript source after making changes
jlpm run build
You can watch the source directory and run JupyterLab at the same time in different terminals to watch for changes in the extension's source and automatically rebuild the extension.
# Watch the source directory in one terminal, automatically rebuilding when needed
jlpm run watch
# Run JupyterLab in another terminal
jupyter lab
With the watch command running, every saved change will immediately be built locally and available in your running JupyterLab. Refresh JupyterLab to load the change in your browser (you may need to wait several seconds for the extension to be rebuilt).
By default, the jlpm run build
command generates the source maps for this extension to make it easier to debug using the browser dev tools. To also generate source maps for the JupyterLab core extensions, you can run the following command:
jupyter lab build --minimize=False
Uninstall
pip uninstall jupyterlab-requirements
Demo development status and new features
Project details
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