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I am using the NetworkX graph library for Python. At some point in my program I would like to "consolidate" my nodeIDs into a sequence of numbers. Here's my naive approach:

start = 1 # could be anything
for i, n in enumerate(g.nodes()):
    if i+start == n:
    g.add_node(i+start, attr_dict=g.node[n])
    g.add_edges_from([(i+start, v, g[n][v]) for v in g.neighbors(n)])

Is there a faster way than this exhaustive copy of all the neighbors? For example, I tried g[i+start] = g[n], but that is forbidden.


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1 Answer 1

up vote 2 down vote accepted

Would this work?


import networkx as nx
G = nx.Graph()
print G.nodes()


['a', 1, 's', 'm', 'p']


start = 1
G = nx.convert_node_labels_to_integers(G,first_label=start)
print G.nodes()


[1, 2, 3, 4, 5]
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Thanks Josh! That function does exactly what I asked. But unfortunately it's not in-place, so looking at the source (lines 214-357) it's still O(V+E) instead of the theoretically-possible O(V). Still, it looks like it's 25% faster than my attempt. –  Juan Mar 17 '11 at 1:03
It just occurred to me that given the way graphs are implemented in networkx, the O(V) bound won't be attainable. Every edge will have to be visited to remap the nodeID. –  Juan Mar 17 '11 at 1:53

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