matplotlib-venn
Functions for plotting area-proportional two- and three-way Venn diagrams in matplotlib.
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Venn diagram plotting routines for Python/Matplotlib
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Routines for plotting area-weighted two- and three-circle venn diagrams.
Important changes in version 0.3
--------------------------------
As the use of package name `matplotlib.venn` was causing occasional conflicts with `matplotlib`, in version 0.3, the package name was changed to `matplotlib_venn`. I.e., if in version 0.2 you had to do things like::
from matplotlib.venn import venn3
now the correct way is::
from matplotlib_venn import venn3
Installation
------------
The simplest way to install the package is via ``easy_install`` or ``pip``::
$ easy_install matplotlib-venn
Dependencies
------------
- ``numpy``, ``scipy``, ``matplotlib``.
Usage
-----
The package provides four main functions: ``venn2``, ``venn2_circles``, ``venn3`` and ``venn3_circles``.
The functions ``venn2`` and ``venn2_circles`` accept as their only required argument a 3-element list ``(Ab, aB, AB)`` of subset sizes, e.g.::
venn2(subsets = (3, 2, 1))
and draw a two-circle venn diagram with respective region areas. In the particular example, the region, corresponding to subset ``A and not B`` will
be three times larger in area than the region, corresponding to subset ``A and B``.
Similarly, the functions ``venn3`` and ``venn3_circles`` take a 7-element list of subset sizes ``(Abc, aBc, ABc, abC, AbC, aBC, ABC)``, and draw a
three-circle area-weighted venn diagram.
The functions ``venn2_circles`` and ``venn3_circles`` draw just the circles, whereas the functions ``venn2`` and ``venn3`` draw the diagrams as a collection
of colored patches, annotated with text labels.
Note that for a three-circle venn diagram it is not in general possible to achieve exact correspondence between the required set sizes and region areas,
however in most cases the picture will still provide a decent indication.
The functions ``venn2_circles`` and ``venn3_circles`` return the list of ``matplotlib.patch.Circle`` objects that may be tuned further
to your liking. The functions ``venn2`` and ``venn3`` return an object of class ``Venn2`` or ``Venn3`` respectively,
which gives access to constituent patches and text elements.
Basic Example::
from matplotlib_venn import venn2
venn2(subsets = (3, 2, 1))
For the three-circle case::
from matplotlib_venn import venn3
venn3(subsets = (1, 1, 1, 2, 1, 2, 2), set_labels = ('Set1', 'Set2', 'Set3'))
A more elaborate example::
from matplotlib import pyplot as plt
import numpy as np
from matplotlib_venn import venn3, venn3_circles
plt.figure(figsize=(4,4))
v = venn3(subsets=(1, 1, 1, 1, 1, 1, 1), set_labels = ('A', 'B', 'C'))
v.get_patch_by_id('100').set_alpha(1.0)
v.get_patch_by_id('100').set_color('white')
v.get_label_by_id('100').set_text('Unknown')
v.get_label_by_id('A').set_text('Set "A"')
c = venn3_circles(subsets=(1, 1, 1, 1, 1, 1, 1), linestyle='dashed')
c[0].set_lw(1.0)
c[0].set_ls('dotted')
plt.title("Sample Venn diagram")
plt.annotate('Unknown set', xy=v.get_label_by_id('100').get_position() - np.array([0, 0.05]), xytext=(-70,-70),
ha='center', textcoords='offset points', bbox=dict(boxstyle='round,pad=0.5', fc='gray', alpha=0.1),
arrowprops=dict(arrowstyle='->', connectionstyle='arc3,rad=0.5',color='gray'))
plt.show()
See also
--------
* Blog post: http://fouryears.eu/2012/10/13/venn-diagrams-in-python/
* Report issues and submit fixes at Github: https://github.com/konstantint/matplotlib-venn
Konstantin Tretyakov
37c0a29bec372a687764ca29db0929b838de4c2a
0.5