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I am 2 days old with python and coding in general, I have been working on making a random geometric graph that is 2mode. To do this I have been looking at the code in networkx here

I started using the following logic

import networkx as nx
def my_bipartite_geom_graph(a, b, radius, dim):

G=nx.Graph()
A=nx.Graph()
A.name="a node set"
A.add_nodes_from(range(a)) 
for n in A:
    A.node[n]['pos']=[random.random() for i in range(0,dim)]

B=nx.Graph()
B.name="b node set"
B.add_nodes_from(range(b)) 
for n in B:
    B.node[n]['pos']=[random.random() for i in range(0,dim)]

G=nx.disjoint_union(A,B)

nodesa = A.nodes(data=True)
nodesb = B.nodes(data=True)
while nodesa:
    u,du = nodesa.pop()
    pu = du['pos']
    for v,dv in nodesb:
        pv = dv['pos']
        d = sum(((a-b)**2 for a,b in zip(pu,pv)))
        if d <= radius**2:
            G.add_edge(u,v)
return G

This returns a graph but clearly not what i was hoping for. Any pointers on how better to approach this problem would be greatly appreciated.

Best Wishes

share|improve this question
    
Looks fine to me. What's wrong with it? –  Avaris Apr 6 '12 at 19:20
    
I had hoped that only A nodes would connect to B nodes (i.e. no connection between a nodes or b nodes to b nodes.. I did a check to see if it was bipartite using triangles(). The search returned many triangles so I assumed network I generated was not bipartite as itshould only have 4-cycles. –  user1317221_G Apr 6 '12 at 19:25
    
Ah, I see the problem. –  Avaris Apr 6 '12 at 19:31

1 Answer 1

up vote 3 down vote accepted

The problem is nx.disjoint_union renumbers your nodes so that they are distinct. That means B[n] != G[n]. So the node labels in B contains nodes from A in the G graph.

Here is one way to solve it:

import networkx as nx
def my_bipartite_geom_graph(a, b, radius, dim):

    G=nx.Graph()
    G.add_nodes_from(range(a+b))
    for n in range(a):
        G.node[n]['pos']=[random.random() for i in range(0,dim)]
        G.node[n]['type'] = 'A'

    for n in range(a, a+b):
        G.node[n]['pos']=[random.random() for i in range(0,dim)]
        G.node[n]['type'] = 'B'

    nodesa = [(node, data) for node, data in G.nodes(data=True) if data['type'] == 'A']
    nodesb = [(node, data) for node, data in G.nodes(data=True) if data['type'] == 'B']

    while nodesa:
        u,du = nodesa.pop()
        pu = du['pos']
        for v,dv in nodesb:
            pv = dv['pos']
            d = sum(((a-b)**2 for a,b in zip(pu,pv)))
            if d <= radius**2:
                G.add_edge(u,v)
    return G
share|improve this answer
    
Dear Avaris, Thank you very much. This looks great much better than using two graphs, i was reaading about setting types and this clears things up. now to play about with this much more. Thanks again –  user1317221_G Apr 7 '12 at 12:46

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