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I am having some problems in visualizing the graphs created with python-networkx, I want to able to reduce clutter and regulate the distance between the nodes (I have also tried spring_layout, it just lays out the nodes in an elliptical fashion). Please advise. enter image description here

Parts of code:

nx.draw_networkx_edges(G, pos, edgelist=predges, edge_color='red', arrows=True)
nx.draw_networkx_edges(G, pos, edgelist=black_edges, arrows=False, style='dashed')
# label fonts
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up vote 22 down vote accepted

In networkx, it's worth checking out the graph drawing algorithms provided by graphviz via nx.graphviz_layout.

I've had good success with neato but the other possible inputs are

  • dot - "hierarchical" or layered drawings of directed graphs. This is the default tool to use if edges have directionality.

  • neato - "spring model'' layouts. This is the default tool to use if the graph is not too large (about 100 nodes) and you don't know anything else about it. Neato attempts to minimize a global energy function, which is equivalent to statistical multi-dimensional scaling.

  • fdp - "spring model'' layouts similar to those of neato, but does this by reducing forces rather than working with energy.

  • sfdp - multiscale version of fdp for the layout of large graphs.

  • twopi - radial layouts, after Graham Wills 97. Nodes are placed on concentric circles depending their distance from a given root node.

  • circo - circular layout, after Six and Tollis 99, Kauffman and Wiese 02. This is suitable for certain diagrams of multiple cyclic structures, such as certain telecommunications networks.

In general, graph drawing is a hard problem. If these algorithms are not sufficient, you'll have to write your own or have networkx draw parts individually.

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for problems with graphviz_layout refer to stackoverflow.com/questions/35279733/… – Mrlenny Mar 22 at 14:34
usage: nx.draw(G, pos=graphviz_layout(G)) – Mrlenny Mar 22 at 14:35

You have a lot of data in your graph, so it is going to be hard to remove clutter.

I suggest you to use any standard layout. You said that you used spring_layout. I suggest you to try it again but this time using the weight attribute when adding the edges.

For example:

import networkx as nx

G = nx.Graph();

pos = nx.spring_layout(G,scale=2)


Additionally you can use the parameter scale to increase the global distance between the nodes.

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And how does the weights affect the algorithm? Higher weight == nodes get closer or the other way around? – Fábio Dias Feb 29 at 15:46

To answer your question how to regulate the distance between nodes, I expand on Hooked's answer:

If you draw the graph via the Graphviz backend and when you then use the fdp algorithm, you can adjust the distance between nodes by the edge attribute len.

Here a code example, how to draw a graph G and save in the Graphviz file gvfile with wider distance between nodes (default distance for fdp is 0.3):

A = nx.to_agraph(G)

Two comments:

  1. It is normally advisable to adjust len with the number of nodes in the graph.
  2. The len attribute is only recognised by the fdp and neato algorithm, but not e.g. by the sfdp algorithm.
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