# Destroy weighted edges in a bidirected graph

On my recent interview I was asked the following question: There is a bidirectional graph G with no cycles. Each edge has some weight. Also there is a set of nodes K which should be disconnected from each other (by removing some edges). There is only one path between any two nodes in K set. The goal is to minimize total weight of removed edges and disconnect all nodes (from set K) from each other.

My approach was to run BFS for each node from K set and determine all paths between all pairs of nodes from K. So then I'll have set of paths (each path is a set of edges). My next step is to apply dynamic programming approach to find minimum total weight of removed edges. And here I stuck. Could you please help me (just direct me) of how DP should be done.

Thanks.

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If there is only one path between any two nodes and you have to disconnect every node from the others, don't you have to remove all the connections? – BlackBear Nov 6 '12 at 17:05
no, it is enough to remove one edge from each path to destroy the connectivity. The question is how to choose which edges to remove. – paul schlacter Nov 6 '12 at 17:15
If I understand the question, nodes in K have to be disconnected from each other, but not necessarily from G nodes that are not in K. Is that correct? – Patricia Shanahan Nov 6 '12 at 18:22
@PatriciaShanahan, yes you're correct – paul schlacter Nov 6 '12 at 18:40

## 1 Answer

This sounds like the Multiway Cut problem in trees, assuming a "bidirectional" graph is just like an undirected one. It can be solved in polynomial time by a straightforward dynamic programming. See Chopra and Rao: "On the multiway cut polyhedron", Networks 21(1):51–89, 1991. See also this question.

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