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What is an efficient algorithm for counting the number of triangles in an undirected graph )(where a graph is a set of vertices and edges)? I've been searching Google and reading through my shelf of textbooks for a few hours each day for three days in a row.

This is for a homework assignment where I need such an algorithm, but developing it doesn't count for anything on the assignment. It is expected that we can simply find such an algorithm from outside resources, but I'm at the end of my rope.

For clarification, a triangle in a graph is a a cycle of length three. The trick is that it needs to work on vertex sets with at most 10,000 nodes.

I'm currently working in C#, but care more about the general approach towards solving this problem than code to copy and paste.

At the high level, my attempts thus far included:

  • A breadth first search that tracked all unique cycles of length three. This seemed like a fine idea to me, but I couldn't get it functional
  • A loop over all the nodes in the graph to see if three vertices shared an edge. This has far too slow of a running time for the larger data sets. O(n^3).

The algorithm itself is part of calculating the clustering coefficient.

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5 Answers 5

up vote 8 down vote accepted

This problem is as hard as matrix multiplication. See this for reference.

Do you know anything about the graphs? Are they sparse? If not, I don't think you are going to do much better than O(n^3).

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They are indeed sparse graphs, but for testing purposes I was running the analysis on dense graphs. –  XBigTK13X Sep 13 '11 at 4:06

You will need depth first search. The algorithm will be:

1) For the current node ask all unvisited adjacent nodes

2) for each of those nodes run depth two check to see if a node at depth 2 is your current node from step one

3) mark current node as visited

4) on make each unvisited adjacent node your current node (1 by 1) and run the same algorithm

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I had the exact same algorithm in mind but when you say "for current node ask all unvisited adjacent nodes" what exactly do you mean because a node is made up of both x and y coordinate. Should we decide on basis of both x and y coordinates of current node when considering other nodes as adjacent nodes or not? For example (1,2), (2,3), (3,1), (3,2), (1,3) what nodes are adjacent of what node? –  Harshdeep May 4 at 20:26

There is a related problem in computational biology - motif finding. For example, see:

Grochow and Kellis. Network motif discovery using subgraph enumeration and
symmetry-breaking. RECOMB 2007.
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Depends on how your graphs are represented.

If you have an adjacency matrix A the number of triangles should be tr(A^3)/6, in other words, 1/6 times the sum of the diagonal elements (the division takes care of the orientation and rotation).

IF you have adjacency lists just start at every node and perform a depth-3 search. Count how often you reach that node -> divide by 6 again.

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In an undirected graph you only need a depth-two search, and then check if any depth-two nodes match depth-one nodes. –  han Sep 16 '11 at 16:18

If you do not care about the exact number of triangles, there is a very simple streaming algorithm that provides an unbiased estimator. See for example here for an explanation.

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