# How to generate a fully connected subgraph from node list using python's networkx module

I need to generate a fully connected subgraph with networkx, starting from the list of nodes I want to connect. Basically, I want all the nodes in the list I pass to the function to be all connected with each other.

I wonder if there is any built-in function to achieve this (which I haven't found)? Or should I think of some algorithm?

Thank you very much.

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I don't know of any method which does this, but you can easily mimic the complete_graph() method of networkx and slightly change it(almost like a builtin):

``````import networkx
import itertools

def complete_graph_from_list(L, create_using=None):
G = networkx.empty_graph(len(L),create_using)
if len(L)>1:
if G.is_directed():
edges = itertools.permutations(L,2)
else:
edges = itertools.combinations(L,2)
return G

S = complete_graph_from_list(["a", "b", "c", "d"])
print S.edges()
``````
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Thank you, yes, I should have looked for these permutations/combinations functions :) – Wilco May 21 '12 at 10:22
This worked for me when I replaced `n>1` with `len(L)>1` – Rasmus Mar 17 '14 at 21:18
There are direct methods to do this using `nx.complete_graph` and `nx.relabel_nodes`. See my answer. – Joel Nov 26 '15 at 13:20

There is a function for creating fully connected (i.e. complete) graphs, nameley `complete_graph`.

``````import networkx as nx
g = nx.complete_graph(10)
``````

It takes an integer argument (the number of nodes in the graph) and thus you cannot control the node labels. I haven't found a function for doing that automatically, but with `itertools` it's easy enough:

``````from itertools import combinations

nodes = ['A', 'B', 'C', 'D', 'E']
edges = combinations(nodes, 2)
g = nx.Graph()
``````

`combinations(nodes, 2)` will create 2-element tuples with all pair combinations of `nodes` which then will work as the edges in the graph.

This solution is however only valid for undirected graphs. Take a look at zubinmehta's solution for a more general approach.

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You can use the networkx commands to directly generate a clique with integer nodes, and then there is a simple command to relabel the nodes with any other hashable names.

``````import networkx as nx
L=["hello", "world", "how", "are", "you"]
G=nx.complete_graph(len(L))
nx.relabel_nodes(G,dict(enumerate(L)), copy = False) #if copy = True then it returns a copy.
``````
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