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How can I find all available path for each Vertices which won't cause a cycle? What algorithm to use? Please be brief and provide links if possible, and ask questions if something is not clear from the wonderful diagram below :) asdas

I am not looking for a shortest path or anything like that. Instead I just want to know which paths I can still draw on my graph without causing a loop/cycle. For example L4 can goto L1, L2, L5 AND L2 can goto L5...and so on....

I guess I want a Directed acyclic graph and need help finding out which algorithm to use and how?

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Homewerky.....? – Steve Oct 15 '10 at 7:21
In your example, how can L4 goto L5? – Amit S Oct 15 '10 at 7:23
No it is not homework. Just haven't used any of the algorithm for a while and have a need to use one now. So I thought what better place to learn than the wonderful SO :) – VoodooChild Oct 15 '10 at 7:23
@Amit S: You would draw a line from L4 to L5 with the arrow pointing at L5 :) – VoodooChild Oct 15 '10 at 7:26
@VoodooChild: My bad. I didn't read your question properly. – Amit S Oct 15 '10 at 7:29

3 Answers 3

up vote 1 down vote accepted

Look the Ford Algorithm


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A shortest-path algorithm like Bellman-Ford or Dijkstra has the side effect of telling you which nodes you can reach from a given node "A" -- which is exactly the list of nodes from which edges to "A" would form a loop.

I suspect there is a way to modify Bellman-Ford to generate all these lists in one go, instead of running the algorithm separately for every node, but I'll leave that as an exercise for the reader. :)

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Following is not the answer but just a way to think for this problem.
You can think for the problem from the opposite side. Find all the paths that have exactly one edge missing to form a cycle(I havn't think of it, how). Then those missing edges are not the edges you are looking. Accept everything other than that.

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