GitHub - maartenbreddels/bqplot: Plotting library for IPython/Jupyter Notebooks

bqplot is a Grammar of Graphics-based interactive plotting framework for the Jupyter notebook.

In bqplot, every single attribute of the plot is an interactive widget. This allows the user to integrate any plot with IPython widgets to create a complex and feature rich GUI from just a few simple lines of Python code.

For example, just a few lines of code allow us to generate an interactive map that visualizes the 2016 US Presidential County Level Results:

Goals

provide a unified framework for 2-D visualizations with a pythonic API.
provide a sensible API for adding user interactions (panning, zooming, selection, etc)

Two APIs are provided

Users can build custom visualizations using the internal object model, which is inspired by the constructs of the Grammar of Graphics (figure, marks, axes, scales), and enrich their visualization with our Interaction Layer.
Or they can use the context-based API similar to Matplotlib's pyplot, which provides sensible default choices for most parameters.

Getting Started

Try it online with Binder

Dependencies

This package depends on the following packages:

ipywidgets (version >= 5.2.2)
traitlets (version >= 4.3.0)
traittypes
numpy
pandas

Installation

Using pip:

$ pip install bqplot
$ jupyter nbextension enable --py --sys-prefix bqplot

Using conda

$ conda install -c conda-forge bqplot

For a development installation (requires npm (version >= 3.8) and node (version >= 4.0)):

$ git clone https://github.com/bloomberg/bqplot.git
$ cd bqplot
$ pip install -e .
$ jupyter nbextension install --py --symlink --sys-prefix bqplot
$ jupyter nbextension enable --py --sys-prefix bqplot

Note for developers: the --symlink argument on Linux or OS X allows one to modify the JavaScript code in-place. This feature is not available with Windows.

Loading `bqplot`

# In a Jupyter notebook
import bqplot

That's it! You're ready to go!

Examples

Using the `pyplot` API

from bqplot import pyplot as plt
import numpy as np

plt.figure(1, title='Line Chart')
np.random.seed(0)
n = 200
x = np.linspace(0.0, 10.0, n)
y = np.cumsum(np.random.randn(n))
plt.plot(x, y)
plt.show()

Using the `bqplot` internal object model

import numpy as np
from IPython.display import display
from bqplot import (
    OrdinalScale, LinearScale, Bars, Lines, Axis, Figure
)

size = 20
np.random.seed(0)

x_data = np.arange(size)

x_ord = OrdinalScale()
y_sc = LinearScale()

bar = Bars(x=x_data, y=np.random.randn(2, size), scales={'x': x_ord, 'y':
y_sc}, type='stacked')
line = Lines(x=x_data, y=np.random.randn(size), scales={'x': x_ord, 'y': y_sc},
             stroke_width=3, colors=['red'], display_legend=True, labels=['Line chart'])

ax_x = Axis(scale=x_ord, grid_lines='solid', label='X')
ax_y = Axis(scale=y_sc, orientation='vertical', tick_format='0.2f',
            grid_lines='solid', label='Y')

Figure(marks=[bar, line], axes=[ax_x, ax_y], title='API Example',
       legend_location='bottom-right')