This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
The human brain excels at finding patterns in visual representations, which is why data visualizations are essential to any analysis. Done right, they bridge the gap between those analyzing the data and those consuming the analysis. However, learning to create impactful, aesthetically-pleasing visualizations can often be challenging. This session will equip you with the skills to make customized visualizations for your data using Python.
While there are many plotting libraries to choose from, the prolific Matplotlib library is always a great place to start. Since various Python data science libraries utilize Matplotlib under the hood, familiarity with Matplotlib itself gives you the flexibility to fine tune the resulting visualizations (e.g., add annotations, animate, etc.). This session will also introduce interactive visualizations using HoloViz, which provides a higher-level plotting API capable of using Matplotlib and Bokeh (a Python library for generating interactive, JavaScript-powered visualizations) under the hood.
This is a workshop on data visualization in Python first delivered at ODSC West 2021 and subsequently at ODSC East 2022, PyCon Italia 2022, ODSC Europe 2022, EuroPython 2022, ODSC West 2022, the Toronto Machine Learning Summit (TMLS) 2022, PyCon US 2023, ODSC East 2023, PyCon Italia 2023, PyCon Portugal 2023, and PyCon Colombia 2024. It's divided into the following sections:
We will begin by familiarizing ourselves with Matplotlib. Moving beyond the default options, we will explore how to customize various aspects of our visualizations. By the end of this section, you will be able to generate plots using the Matplotlib API directly, as well as customize the plots that libraries like pandas and Seaborn create for you.
Static visualizations are limited in how much information they can show. To move beyond these limitations, we can create animated and/or interactive visualizations. Animations make it possible for our visualizations to tell a story through movement of the plot components (e.g., bars, points, lines). Interactivity makes it possible to explore the data visually by hiding and displaying information based on user interest. In this section, we will focus on creating animated visualizations using Matplotlib before moving on to create interactive visualizations in the next section.
When exploring our data, interactive visualizations can provide the most value. Without having to create multiple iterations of the same plot, we can use mouse actions (e.g., click, hover, zoom, etc.) to explore different aspects and subsets of the data. In this section, we will learn how to use a few of the libraries in the HoloViz ecosystem to create interactive visualizations for exploring our data utilizing the Bokeh backend.
You should have basic knowledge of Python and be comfortable working in Jupyter Notebooks. Check out this notebook for a crash course in Python or work through the official Python tutorial for a more formal introduction. The environment we will use for this workshop comes with JupyterLab, which is pretty intuitive, but be sure to familiarize yourself using notebooks in JupyterLab and additional functionality in JupyterLab. In addition, a basic understanding of pandas will be beneficial, but is not required; reviewing the first section of my pandas workshop will be sufficient.
Pick the installation option that makes sense for you:
Warning: It is highly recommended that you use your personal laptop for the installation.
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Install the following, if not already installed:
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Fork this repository:
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Navigate to your fork, and click the Code button:
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Clone your forked repository using the desired method from the Local tab:
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Create and activate a conda virtual environment (on Windows, these commands should be run in Anaconda Prompt):
$ cd python-data-viz-workshop ~/python-data-viz-workshop$ conda env create --file environment.yml ~/python-data-viz-workshop$ conda activate data_viz_workshop (data_viz_workshop) ~/python-data-viz-workshop$
Note: If you installed Mambaforge or have already installed
mamba
in your base environment, you can changeconda env create
tomamba env create
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Launch JupyterLab:
(data_viz_workshop) ~/python-data-viz-workshop$ jupyter lab
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Navigate to the
0-check_your_env.ipynb
notebook in thenotebooks/
folder: -
Run the notebook to confirm everything is set up properly:
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Install the following, if not already installed:
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Fork this repository:
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Navigate to your fork, and click the Code button:
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Clone your forked repository using the desired method from the Local tab:
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Build the Docker image needed to run the Jupyter environment:
$ cd python-data-viz-workshop ~/python-data-viz-workshop$ docker compose build
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Launch JupyterLab from within a Docker container:
~/python-data-viz-workshop$ docker compose up
You should be able to access the environment at http://localhost:8888
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Navigate to the
0-check_your_env.ipynb
notebook in thenotebooks/
folder: -
Run the notebook to confirm everything is set up properly:
Note: Once you're done, use ctrl+c
to stop the Docker container.
The GitHub Codespaces setup provides a pre-configured machine accessible via your browser. You will need a GitHub account and available quota (all users get more than enough free monthly quota to be able to run this workshop). Note that this will take a while to build. It's recommended that you click the badge above to build the codespace in advance of the workshop and then stop the codespace until the workshop, at which point you can simply resume and pick up where you left off.
Note that if you want to save your changes, you will need to fork the repository before creating the codespace. You will then be able to commit your changes directly from the codespace. Be sure to create your codespace in advance of the session and resume when we start.
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Fork this repository:
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Navigate to your fork, and click the Code button:
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Launch the codespace from your fork by clicking on the + or Create codespace on main button in the Codespaces tab:
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Stop the codespace until the session starts by selecting Stop codespace from the ... menu.
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To resume the codespace, click Open in ... and then select your preferred method. If you aren't sure, select JupyterLab.
Depending on server availability, you can use this Binder environment, which does not require the creation of a GitHub account. There is no guarantee that you will be able to access this during the workshop.
Stefanie Molin (@stefmolin) is a software engineer and data scientist at Bloomberg in New York City, where she tackles tough problems in information security, particularly those revolving around data wrangling/visualization, building tools for gathering data, and knowledge sharing. She is also the author of Hands-On Data Analysis with Pandas, which is currently in its second edition and has been translated into Korean. She holds a bachelor’s of science degree in operations research from Columbia University's Fu Foundation School of Engineering and Applied Science, as well as a master’s degree in computer science, with a specialization in machine learning, from Georgia Tech. In her free time, she enjoys traveling the world, inventing new recipes, and learning new languages spoken among both people and computers.
All examples herein were developed exclusively for this workshop. Hands-On Data Analysis with Pandas contains additional examples and exercises, as does this article and this workshop on pandas.
Beyond the Basics: Data Visualization in Python by Stefanie Molin is licensed under CC BY-NC-SA 4.0