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It depends on how random is defined. If random is the module from the standard library, then: import random random.choice(G.nodes()) will work. If random is numpy.random, then from numpy import random random.choice(G.nodes()) will raise /usr/lib/python2.7/dist-packages/numpy/random/mtrand.so in mtrand.RandomState.choice ...


There is no built-in function for this but it is pretty simple: import networkx as nx G = nx.Graph() G.add_node(1,color='red') G.add_node(2,color='red') G.add_node(3,color='blue') G.add_node(4,color='blue') G.add_edges_from([(1,2),(1,3),(3,4)]) for (u,v) in G.edges_iter(): if G.node[u]['color'] != G.node[v]['color']: print u,v


I would recommend using Gephi easy to handle and learn. If you found it though Neo4j will do your requirement with a little bit of coding.


So this is a way to do it in networkx. It's roughly based on the solution I gave here. I'm assuming that a->b and a<-b are two distinct paths you want. I'm going to return this as a list of lists. Each sublist is the (ordered) edges of a path. import networkx as nx import itertools def getPaths(G,source,target, maxLength, excludeSet=None): ...

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