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I'm using Python to simulate a process that takes place on directed graphs. I would like to produce an animation of this process.

The problem that I've run into is that most Python graph visualization libraries combine pairs of directed edges into a single edge. For example, NetworkX draws only two edges when displaying the following graph, whereas I would like to display each of the four edges separately:

import networkx as nx
import matplotlib.pyplot as plt 

G = nx.MultiDiGraph()

    (1, 2),
    (2, 3),
    (3, 2),
    (2, 1),


Output from NetworkX; parallel edges are overlapping, so only two lines are displayed

I would like to display something like this, with each parallel edge drawn separately:

Desired output format; parallel edges are drawn separately

The question R reciprocal edges in igraph in R seems to deal with the same issue, but the solution there is for the R igraph library, not the Python one.

Is there an easy way to produce this style of plot using an existing Python graph visualization library? It would be a bonus if it could support multigraphs.

I'm open to solutions that invoke an external program to produce the images. I'd like to generate a whole series of animation frames, so the solution must be automated.

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2 Answers 2

up vote 10 down vote accepted

The Graphviz tools appear to display distinct edges.

For example, giving this:

digraph G {
  A -> B;
  A -> B;
  A -> B;
  B -> C;

  B -> A;
  C -> B;

to dot produces:

example graph

Graphviz's input language is pretty simple so you can generate it on your own, though searching for "python graphviz" does turn up a couple of libraries.

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It turns out that NetworkX can export .dot files using pydot or pygraphviz, so this works perfectly. Thanks! –  Josh Rosen May 2 '12 at 19:20

Using NetworkX, a possible workaround which avoids file I/O and uses dot via pydot for layout is:

import networkx as nx
import matplotlib.pyplot as plt
import matplotlib.image as mpimg
from cStringIO import StringIO

g = nx.dodecahedral_graph()
d = nx.to_pydot(g) # d is a pydot graph object, dot options can be easily set
# attributes get converted from networkx,
# use set methods to control dot attributes after creation

png_str = d.create_png()
sio = StringIO() # file-like string, appropriate for imread below

img = mpimg.imread(sio)
imgplot = plt.imshow(img)

for why seek(0) is needed, see How to create an image from a string in python

If within IPython (qt)console, then the above will print inline and a more direct approach is:

import networkx as nx
from IPython.display import Image

g = nx.dodecahedral_graph()
d = nx.to_pydot(g)

png_str = d.create_png()
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