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Let G be a weighted directed graph containing cycles. I'm looking for an algorithm to find and remove those cycles by removing the least-weight edge of a cycle.

I think potentially I could do several DFS, but was wondering if there are more well-developed solutions out there.

Thanks for the help :)

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This might be a duplication (since removing the least weighted edge seems simple after you have a cycle) of: However, I won't flag since there might be algorithms that combine the two steps... – sdasdadas Mar 15 '13 at 21:46
are you sure your problem is well-defined? consider the case of 4 path segments p_i, i=1..4 mutually disjoint apart from their endpoints, where p_1, p_2 link vertices v with w and p_3, p_4 connect w with v. assume as well that p_1, p_3 each contain one of exactly 2 edges with globally minimal weights. depending on whether you consider C1={p_1, p_3}, C2={p_2, p_4} or C1'={p_1, p_4}, C2'={p_2, p_3}, you will remove different edges and end up with a different total weight of the cycle-free graph. – collapsar Mar 21 '13 at 14:25
check this algorithm:'s_algorithm, though it works good for small graphs, and may take forever to do large ones – user1406062 Apr 23 '13 at 9:21

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