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Algorithm: for G = (V,E), how to determine if the set of edges(e belong to E) is a valid cut set of a graph

A subset S, of edges of a graph G = (V,E), how can one check whether it is a valid cut-set of the graph or not? Note: A cut is a partition of the vertices of a graph into two disjoint subsets. So, cut-set of the cut is the set of edges whose end points are in different subsets of the partition. I am interested to find an algorithm for this problem

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marked as duplicate by Moron, Nikita Rybak, j_random_hacker, John Saunders, Graviton Apr 28 '11 at 3:18

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

@Moron : That previous algorithm doesnot work for all cases. I have explained in that post that the algorithm will return 3 edges of a square as a valid cutset when it is not. –  justin waugh Apr 26 '11 at 13:56
Then why have you accepted an answer there? Unaccept it, edit the question saying why the answers don't work, and comment on the answer which is incorrect. –  Aryabhatta Apr 26 '11 at 14:19

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In other words, you want to determine whether there exists a labeling V -> {0, 1} such that edges in S have endpoints with different labels, and edges in E - S have endpoints with identical labels. Such a labeling, if it exists, always can be constructed by the following procedure.

Traverse G (say depth-first, but it doesn't really matter). Label traversal roots arbitrarily. Every time you process an edge e from a labeled node u to some other node v, label v with u's label if e not in S and the opposite of u's label if e in S. If v already has a different label, then S is not a cut-set. Otherwise, if the traversal finishes without incident, then S is a cut-set.

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