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A simple starter showing how to modularize Jupyter notebooks, import external py modules and use you code editor to refactor anything.

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Modular Jupyter Notebooks Starter

A simple starter showing how to:

  • import your own external py modules (not located into the same dir) into your notebooks
  • generate python scripts from notebooks automatically (and vice-versa)
  • use your code editor to edit/refactor your notebooks
  • import your notebooks into other notebooks as python modules

Install Conda

As first step let's install Anaconda for our platform.

Conda will modify your .bash_profile or similar bash startup file, by adding something similar to this block:

# >>> conda initialize >>>
# !! Contents within this block are managed by 'conda init' !!
CONDA_ROOT=/usr/local/anaconda3
__conda_setup="$('$CONDA_ROOT/bin/conda' 'shell.bash' 'hook' 2> /dev/null)"
if [ $? -eq 0 ]; then
    eval "$__conda_setup"
else
    if [ -f "$CONDA_ROOT/etc/profile.d/conda.sh" ]; then
        . "$CONDA_ROOT/etc/profile.d/conda.sh"
    else
        export PATH="$CONDA_ROOT/bin:$PATH"
    fi
fi
unset __conda_setup
# <<< conda initialize <<<

By default conda will always activate its base virtualenv anytime you lauch a shell.
If you don't want that just add this line to your .bash_profile before the block added by conda:

export CONDA_AUTO_ACTIVATE_BASE=false

Create a virtualenv

It's not wise to install all your packages into the base environment. Also, as a general rule, any new project should have its own virtualenv or at least, reuse one for general purpose. So let's create a new one by cloning from the base env (usually the best solution):

# conda create --clone ENV_FROM --name NEW_ENV
conda create --clone base --name my_new_env

To activate/deactivate a virtual env:

conda activate my_new_env
conda deactivate

To list all your envs:

conda env list

Launch the Jupyter Server

cd notebooks
conda activate my_new_env
# launch the server
jupyter notebook

Jupytext

I've always worked with standard python, so I was a bit confused by the development environment inside the browser. Jupyter Notebooks offer cool visualization and interactive features but they don't offer the best DX.
The feature I miss most is the refactoring option (like renaming a variable) or the highlighting of all occurrences of a certain variable.
Fotunately, after some research, jupytext came to the rescue.

Jupytext is a plugin for Jupyter that can save Jupyter notebooks as plain python script and vice-versa.
That means that you can create and work on your notebook normally from the browser and if you want to refactor something, you can open the generated script, modify it on your code editor and when saved it generates an updated version of your original notebook.
More info on the Jupytext documentation.

After activating your env, install jupytext with:

conda install jupytext -c conda-forge

By default you should create your notebooks in the notebooks dir and the scripts will be generated in the src dir.

You can modify where the notebooks and script are located by modifying the jupytex.toml file.

Modularization

Given that now you could execute both the notebooks and the scripts independently I wanted to modularize my code and put all the reusable modules somewhere in a common location that would be accessible from both the notebooks and the scripts.

Unfortunately, there is no easy way to modularize your notebooks as you would in plain ol' python. So, here's my tricky (but working) solution: in the notebooks directory there are two python modules that are symlinked from the src directory: loader and reloader. These are symlinked because I need them to be inside both the src and the notebooks dirs and I don't want to maintain two copies of them.

loader

As you would expect, the loader module lets you load external python modules (living outside the notebooks dir but inside your project root dir). This work by modifying your syspath to include the top level directory of the project. The only thing to remember is to import this module into any notebooks that need to access external modules.

reloader

This optional modules is quite useful anytime you modify any imported external module. Normally to make this work you would need to restart your jupyter server, but with this simple trick you don't need to:

  1. Into your notebook import the reloader import reloader
  2. Modify your external module, example lib/figure.py
  3. From your notebook execute a cell containing reloader.clear()
  4. Keep on working on you notebook

Configuration

I've made some assumption on where the dataset and generated code should live, but this is entirely configurable. All the options can be changed by editing the config.toml file.

Common functions (lib)

Inside the lib directory there are some reusable common functions that I need to reuse from project to project. This modules are a WIP and they will probably expand over time. This is just my personal configuration, fell free to ignore this directory if you don't need it. The modules inside lib are scoped my pseudonime of the python lib the functions refer to, for for example the reusable pandas function are into lib/pd or the matplotlib functions are into lib/plt.

Import generated scrips into your notebooks

Another cool feature of Jupytex is that once it generates a script from a notebook, you can then import that script into another notebook 🤯

And thanks to the loader introduced above you just need to do this:

import loader
from src import load_data

Suppress output when importing scripts

If your notebook generates output then that output will be visible when you import the corresponding generated script. Most of the times you don't need this, so here's a couple of strategy about that.

suppress_stdout is a helper context manager I've defined, it suppress the output from print and pandas output

with suppress_stdout():
    from src.load_data import get_export as exp_load

Unfortunately it seems ineffective for generated matplotlib pictures. So when suppress_stdout won't work you can use this instead:

with io.capture_output() as captured:
    # Script that generated pyplot figures
    from src.correlation import get_export as exp_corr

TODO: a better strategy to suppress anything!

Don't commit the notebooks to your repo

A side effect of Jupytext generated scripts is that now you could simply commit these instead of the notebooks. They still preserve any output and once you launch your jupyter server it will re-create your notebooks. Read more on how and why to use Jupytext.

For this git repo the notebooks are tracked by git in order to show you usage example but just uncomment # notebooks/**.ipynb from .gitignore to never track notebooks and track the src/ scripts instead.

Example Dataset

Dataset obtained from https://www.kaggle.com/michau96/restaurant-business-rankings-2020 under CC0: Public Domain license.

Alternative

Another way you to import common functions into both your notebooks and scripts is by pip-installing a local directory as a development package.

  • Put all your common functions in a dir, for example lib
  • create a setup script
  • install it with pip in dev mode
conda activate my_env
cd lib
pip install -e

The limitation with this is that you can't freely import your generated script that aren't located in the same directory of the notebooks. If you like your notebooks and generated script in two different dirs (as I would for clean separation) then you can use my system defined above.

Explore the Notebooks

Take a look at the notebooks in notebooks and see by yourself what they can do.

About

Use this responsibly. Comments and PRs are welcome!

Enjoy

About

A simple starter showing how to modularize Jupyter notebooks, import external py modules and use you code editor to refactor anything.

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