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A similar question is posted here.

I have an undirected graph with Vertex V and Edge E. I am looking for an algorithm to identify all the cycle bases in that graph. An example of such a graph is shown below:

alt text

Now, all the vertex coordinates are known ( unlike previous question, and contrary to the explanation in the above diagram), therefore it is possible to find the smallest cycles that encompass the whole graph.

In this graph, it is possible that there are edges that don't form any cycles.

What is the best algorithm to do this?

Here's another example that you can take a look at:

Assuming that e1 is the edge that gets picked first, and the arrow shows the direction of the edge.

share|improve this question
Is this a c# question? You could probably find any general algorithm that solves your problem. – Tomas Jansson Oct 27 '10 at 17:46
@mastoj, I've edited the tag. – Graviton Oct 28 '10 at 0:57
change my alias... did you find a solution? Did my suggest algorithm work for you? – Tomas Jansson Nov 29 '10 at 11:41
up vote 2 down vote accepted

I haven't tried this and it is rather greedy but should work:

  1. Pick one node
  2. Go to one it's neighbors's
  3. Keep on going until you get back to your starting node, but you're not allowed to visit an old node.
  4. If you get a cycle save it if it doesn't already exist or a subset of those node make up a cycle. If the node in the cycle is a subset of the nodes in another cycle remove the larger cycle (or maybe split it in two?)
  5. Start over at 2 with a new neighbor.
  6. Start over at 1 with a new node.

Comments: At 3 you should of course do the same thing as for step 2, so take all possible paths.

Maybe that's a start? As I said, I haven't tried it so it is not optimized.

EDIT: An undocumented and not optimized version of one implementation of the algorithm can be found here: But, it doesn't solve the solution completely since it can only recognize "true" subsets.

share|improve this answer
@Thomas, not really working. I've my own custom solution. Thanks. – Graviton Nov 29 '10 at 13:30
@Thomas, let's say a node is connected to multiple edges, then how do you select with edge to continue? – Graviton Dec 21 '10 at 7:10
@Ngu: it doesn't matter, you're supposed to visit all edges. Note that I haven't implemented it myself, it was huts something I came up with. But I think it could be implemented as somekind of recursive algorithm. Also note that the algorithm isn't optimized, it's quite greedy. – Tomas Jansson Dec 21 '10 at 8:29
@Thomas, my point is let's say if you are facing two edges, which one you choose will affect what kind of faces you construct, so this question is important here. – Graviton Dec 21 '10 at 8:32
@Ngu: that's what step 4 should take care of. The algorithm will find all the cycles in the graph, but step 4 will split those cycles that covers multiple cycles. The only difference regarding the node you choose is that you find your faces in different order. – Tomas Jansson Dec 21 '10 at 8:59

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