The py_d3
package has been retired. This package was only ever intended to work in the classical Jupyter Notebook environment, this has been replaced pretty much all applications by the more advanced and more feature-complete Jupyter Lab. Jupyter Lab has a completely different SDK for notebook extensions, which this package neither uses nor supports.
As such this package is now unmaintained.
For users looking for an interactive environment for building D3.JS visualizations in, I recommend Observable Notebooks.
For users looking to embed D3.JS visualizations in their Jupyter Lab notebooks, check out this Gist.
Happy plotting!
py_d3
is an IPython extension which adds D3 support to the Jupyter Notebook environment.
D3 is a powerful JavaScript data visualization library, while Jupyter is an intuitive browser-hosted Python development environment. Wouldn't it be great if you could use them together? Now you can.
You can install py_d3
by running pip install py_d3
. Then load it into a Jupyter notebook by
running%load_ext py_d3
.
Use the %%d3
cell magic
to define notebook cells with D3 content.
py_d3
allows you to express even very complex visual ideas within a Jupyter Notebook without much difficulty.
A Radial Reingold-Tilford Tree, for example:
An interactive treemap (original):
Or even the entire D3 Show Reel animation:
For more examples refer to the examples notebooks.
The cell magic will default to loading the latest stable version of D3.JS available online (via
CDNJS; d3@4.13.0
at time of writing). To load a specific version, append the version
name to the command, e.g. %%d3 "3.5.17"
. To load D3.JS from a local file pass the filepath, e.g.
%%d3 "d3.v5.min.js"
.
Only one version of D3.JS may be loaded at a time. Both 3.x
and 4.x
versions of D3 are supported, but you may
only run one version of D3 per notebook. You can check which versions are available by running %d3 versions
, and check which version
is loaded in the current notebook using %d3 version
.
Pages from the D3 API Reference may be rendered in-notebook using
%d3 doc
. For example, you can render the d3-array
reference by running %d3 doc "d3-array"
.
You can view code to-be-rendered using verbose mode: %d3 -v
. This is helpful for debugging your application.
Jupyter notebooks allow executing arbitrary JavaScript code using IPython.display.JavaScript
, however it makes no
effort to restrict the level of DOM objects accessible to executable code. py_d3
works by restricting d3
scope to
whatever cell you are running the code in, by monkey-patching the d3.select
and d3.selectAll
methods (see
here for why this works).
Most HTML-hosted D3 visualizations, even very complex ones, can be made to run inside of a Jupyter Notebook %%d3
cell with just two modifications:
- Remove any D3 imports in the cell (e.g.
<script src="https://d3js.org/d3.v3.js"></script>
). - Make sure to create and append to a legal HTML document sub-element.
d3.select("body").append("g")
won't work.
See CONTRIBUTING.md
for instructions on how to contribute.