2

Given an undirected graph in networkx:

graph=Graph()
graph.add_edge(1,2)
graph.add_edge(2,3)

When querying the edgeset of this graph using the method graph.edges(),the result is returned as a tuple, i.e. a directed view of the edgeset. In the example above, graph.edges() returns:

[(1, 2), (2, 3)]

If I would query all edges incident to vertex 2 (graph.edges(2)) I get a different directed view:

[(2, 1), (2, 3)]

This behavior is problematic if I have for instance an external dict that maps an edge (key) to some other object. For instance:

lookup={edge : some_object(edge) for edge in graph.edges()}
for edge in graph.edges(2):
  print(lookup(edge)) #throws key not found exception

The exception is thrown because key (1,2) exists, but (2,1) does not. What would be the best (efficient/pythonic/...) way to get an undirected object when iterating over an undirected graph in networkx? I could associate some_object(edge) with an edge as one of its attributes, but that doesn't really answer the question.

  • If you're using networkx v2.x, it might be worth looking at "ordered graphs": networkx.github.io/documentation/stable/reference/classes/… These are basically graphs, but seem to avoid the problem you're having. An alternative might be to always use sorted(edge) though that returns a list so you may want tuple(sorted(edge)). – Joel Aug 7 '18 at 4:12
  • Another option would be a try.. except. – Joel Aug 7 '18 at 17:44
0

dfs_labeled_edges(G, source) Traverses through the graph using depth first search. Since dfs_edges stops after reaching every node, it will not always detect every edge. Instead, dfs_labeled_edges can be implemented to obtain all the edge objects in an undirected graph.

Code:

import networkx as nx
from networkx import dfs_labeled_edges

nodes = [1,2,3]
edges = [(1,2), (2,3)]
G = nx.Graph()
G.add_nodes_from(nodes)
G.add_edges_from(edges)

undirectedGraphEdges = []

dfs = list(dfs_labeled_edges(G,1))

for edge in dfs:
    if(edge[:2] not in undirectedGraphEdges):
    undirectedGraphEdges.append(edge[:2])

if undirectedGraphEdges[0] not in edges:
    del undirectedGraphEdges[0]


print(undirectedGraphEdges)

# [(1, 2), (2, 1), (2, 3), (3, 2)]

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