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What would the following algorithm look like:

a linear-time algorithm which, given an undirected graph G, and a particular edge e in it, determines whether G has a cycle containing e

I have following Idea:

for each v that belongs to V, if v is a descendant of e and (e,v) has not been traversed then check following:

if we visited e before v and left v before we left e then the graph contains cycle

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Is this your homework? –  TheVillageIdiot Oct 5 '10 at 17:04
As this appears to be homework, you may want to show what your thought on how to solve this would be. –  James Black Oct 5 '10 at 17:17
I will give you a hint: your idea is already more complicated than is necessary. Since it is an undirected graph, finding a cycle is simpler than you seem to think... –  comingstorm Oct 5 '10 at 17:50
There are many ways to do it. Here is a hint of the way I would choose: (e,v) is a part of a cycle if and only if there are at least 2 disjoint simple paths between e and v. –  Eyal Schneider Oct 5 '10 at 18:05

2 Answers 2

I am not sure if this is your homework so I'll just give a little hint - use the properties of breadth-first search tree (with root in any of the two vertices of the edge e), its subtrees which are determined by neighbors of the root and the edges between those subtrees.

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Per comingstorm's hint, an undirected edge is itself a cycle. A<->B back and forth as many times as you like.

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This is a trivial case. It's commonly held that a cycle in the context of an undirected graph always must include three or more vertices (CLRS and other books mention this convention). –  rahulmehta95 Nov 21 '12 at 16:10

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