# Combine (join) networkx Graphs

Say I have two networkx graphs, `G` and `H`:

``````G=nx.Graph()
fromnodes=[0,1,1,1,1,1,2]
tonodes=[1,2,3,4,5,6,7]
for x,y in zip(fromnodes,tonodes):
G.add_edge(x,y)

H=nx.Graph()
fromnodes=range(2,8)
tonodes=range(8,14)
for x,y in zip(fromnodes,tonodes):
H.add_edge(x,y)
``````

What is the best way to join the two networkx graphs?

I'd like to preserve the node names (note the common nodes, 2 to 7). When I used `nx.disjoint_union(G,H)`, this did not happen:

``````>>> G.nodes()
[0, 1, 2, 3, 4, 5, 6, 7]
>>> H.nodes()
[2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13]
>>> Un= nx.disjoint_union(G,H)
>>> Un.nodes()
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19]
#
``````

The `H` node labels were changed (not what I want). I want to join the graphs at the nodes with the same number.

Note. This is not a duplicate of Combine two weighted graphs in NetworkX.

• What do you want to do if an edge exists in both? Should it become a double edge? or just a single edge? – Joel Sep 18 '15 at 13:47
• @Joel hmm I'm interested in both cases. Let's say single edge though. – atomh33ls Sep 18 '15 at 13:51
• The single edge case is dealt with okay by the code you've written. The multiedge case you just do `U=nx.MultiGraph()` – Joel Sep 18 '15 at 13:59
• And a simplification for your example: `for x,y in zip(fromnodes,tonodes): G.add_edge(x,y)` can be written `G.add_edges_from(zip(fromnodes,tonodes))` – Joel Sep 18 '15 at 14:03

## 2 Answers

The function you're looking for is compose, which produces a graph with all the edges and all the nodes that are in both graphs. If both graphs have a node with the same name, then a single copy ends up in the new graph. Similarly if the same edge exists in both. Here's an example, including edge/node attributes:

``````import networkx as nx

G=nx.Graph()
G.add_node(1, weight = 2)
G.add_node(2, weight = 3)
G.add_edge(1,2, flux = 5)
G.add_edge(2,4)

H=nx.Graph()
H.add_node(1, weight = 4)
H.add_edge(1,2, flux = 10)
H.add_edge(1,3)

F = nx.compose(G,H)
#F has all nodes & edges of both graphs, including attributes
#Where the attributes conflict, it uses the attributes of H.

G.nodes(data=True)
> NodeDataView({1: {'weight': 2}, 2: {'weight': 3}, 4: {}})
H.nodes(data=True)
> NodeDataView({1: {'weight': 4}, 2: {}, 3: {}})
F.nodes(data=True)
> NodeDataView({1: {'weight': 4}, 2: {'weight': 3}, 4: {}, 3: {}})

G.edges(data=True)
> EdgeDataView([(1, 2, {'flux': 5}), (2, 4, {})])
H.edges(data=True)
> EdgeDataView([(1, 2, {'flux': 10}), (1, 3, {})])
F.edges(data=True)
EdgeDataView([(1, 2, {'flux': 10}), (1, 3, {}), (2, 4, {})])
``````

These preserve attributes, but obviously if there is a conflict this is not possible. The attributes of `H` take precedence.

There are also other options to do the symmetric difference, intersection, ...

If you have multiple graphs to join together, you can use `compose_all`, which just wraps a for loop around `compose`.

• How to force all graphs share the same position for nodes with same label when we plot all with `nx.draw_networkx(G) nx.draw_networkx(H) nx.draw_networkx(F) plt.show()`? I mean, coordinates of node `1` should be the same for all 3 graphs. – Sigur Aug 19 '17 at 0:07
• @Sigur The plotting commands take an (optional) input `pos` like `nx.draw_networkx(G, pos=pos)`. `pos` is a dictionary whose keys are the nodes and whose values are their (x,y) coordinates. You can define it yourself, or through some of the `layout` commands. e.g., `pos = nx.spring_layout(F)`. – Joel Aug 19 '17 at 4:35
• I'd like to use the layout first to obtain a good display and then use the same coords when I add new edges and plot again in other window. More or less I'd like to produce a sequence of figures to show a kind of time line for graph. – Sigur Aug 19 '17 at 12:38

This did it.

``````   U=nx.Graph()
U.add_edges_from(G.edges()+H.edges())
U.add_nodes_from(G.nodes()+H.nodes()) #deals with isolated nodes
``````

or, preserving the edge attributes:

``````   U.add_edges_from(G.edges(data=True)+H.edges(data=True))
``````

and, to also preserve the node attributes:

``````   U.add_nodes_from(G.nodes(data=True)+H.nodes(data=True))
``````
• In NetworkX 2.2 G.edges() has to be converted to list before adding. Specially when a MultiGraph is required. – Traxidus Wolf Jan 31 at 16:33