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networkx only has a function


to create a subgraph induced from nodes. but how to construct a subgraph from edge list ?

thanks !

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Do you care whether the graph actually points to the original object (so that the edges carry references to the edges of the original graph)? The way that they describe below is effectively equivalent (for an original graph of type nx.Graph G) G.subgraph(nbunch).copy() (see…). If you want to do this in a way keeps the reference, I think you'll need a different approach. I may need to do this, I'll post an answer if I solve it. – mpacer 11 hours ago

3 Answers 3

If you have a list of edges, then you already have the subgraph. Just call nx.Graph on the list, and optionally add the (unconnected) nodes from the original graph. From the docs

Graph.__init__(data=None, **attr)

Initialize a graph with edges, name, graph attributes.
Data to initialize graph. If data=None (default) an empty graph is created. The data can be an edge list, or any NetworkX graph object.

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Hope you don't mind, I improved your answer by adding a link to the docs and some more helpful information from the page. – Hooked Apr 22 '13 at 16:01
I already have a graph g,and I want to creat a subgraph based partial edges. igraph package has the related function, but it seems networkx could only build a subgraph induced from nodes – user2281114 Apr 22 '13 at 16:56
@Hooked: thanks! – larsmans Apr 23 '13 at 12:09
@user2281114: that's because you don't need a function for that. You can just construct a new graph from that list of edges and it'll be exactly the subgraph you want. – larsmans Apr 23 '13 at 12:10

The answer by @larsmans is correct. Here is a simple example:

In [1]: import networkx as nx

In [2]: G = nx.path_graph(6)

In [3]: G.edges()
Out[3]: [(0, 1), (1, 2), (2, 3), (3, 4), (4, 5)]

In [4]: subgraph_edges = [(1,2), (3,4)]

In [5]: S = nx.Graph(subgraph_edges)

In [6]: S.edges()
Out[6]: [(1, 2), (3, 4)]
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this works well on networkx,thanks! igraph must receive continuos number,so I confuse two issues. – user2281114 Apr 23 '13 at 1:29

If you want to have a function that has the properties that Graph.subgraph() has for subgraphs created from nodes but instead this function works on iterators of edges, you need to keep references to the original graph, edges and nodes to be able to propagate changes in the graph, edge or node data attributes. Notably from the docstring of Graph.subgraph():

The graph, edge or node attributes just point to the original graph. So changes to the node or edge structure will not be reflected in the original graph while changes to the attributes will.

To create a subgraph with its own copy of the edge/node attributes use: nx.Graph(G.subgraph(nbunch))

If edge attributes are containers, a deep copy can be obtained using: G.subgraph(nbunch).copy()

The currently proposed methods will not reflect changes in their attributes back in the original graph, as they will create a new graph from scratch.

There is no built in function/method for accomplishing this with a list of edges. But this function uses the infrastructure of the node .subgraph and thus should work for Graph and DiGraph. It will not work for not MultiGraph and MultiDiGraph. This is because MultiGraph and MultiDiGraph may need you to refer to the key of the edge and the current approach ignores arguments after the second so as to be insensitive to whether the passed in list of edges has attributes attached as a dictionary or not. Also, even when it is created without reference (by passing ref_back=False), it does not create a new graph using the nx.Graph or nx.DiGraph class initializers, but a deepcopy of the original graph. It would be possible to extend it to cover other cases… but I don't need that for now, and until someone explicitly asks for it I'm going to assume that no one else does.

def subgraph_from_edges(G,edge_list,ref_back=True):
    Creates a networkx graph that is a subgraph of G
    defined by the list of edges in edge_list.        

    Requires G to be a networkx Graph or DiGraph
    edge_list is a list of edges in either (u,v) or (u,v,d) form
    where u and v are nodes comprising an edge, 
    and d would be a dictionary of edge attributes

    ref_back determines whether the created subgraph refers to back
    to the original graph and therefore changes to the subgraph's 
    attributes also affect the original graph, or if it is to create a
    new copy of the original graph. 

    sub_nodes = list({y for x in sub_edges for y in x[0:2]})
    edge_list_no_data = [edge[0:2] for edge in edge_list]

    if ref_back:
        G_sub = G.subgraph(sub_nodes)
        for edge in G_sub.edges():
            if edge not in edge_list_no_data:
        G_sub = G.subgraph(sub_nodes).copy()
        for edge in G_sub.edges():
            if edge not in edge_list_no_data:

    return G_sub

The trick is that any nodes not present in the edges can be safely excised from the graph (giving us our node subset), and then you can remove any edges that remain but aren't in your edge list.

Note: I realize that this is now a fairly ancient question, but the answers provided don't actually answer the question if interpreted as a case where the asker wanted a graph that directly referenced the original graph, edges and nodes (notably including their data attributes). I needed that solution, so I figured I'd post it regardless.

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