# Linear time algorithm for longest path in tree

I have been given a question on an assignment that has got me stumped. I may just be thinking too hard about it... The question follows.

Give a linear time algorithm to determine the longest unweighed path in an acyclic undirected graph (that is, a tree).

My first intention is to go with a DFS. But it seems like a DFS would only give me the longest path from the node I start at to another vertex; however, the problem asks for the longest path in the tree... not the longest path from the node I start at. Could someone set me straight?

Thanks.

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## 1 Answer

One such method is to pick any node, A, and in linear time compute distances to all other nodes. Suppose B is most distant from A. In step 2, find the node most distant from B.

Let d(P,Q) denote distance from P to Q. Note that if E is the lowest common ancestor of A, B, C, then d(A,B) = d(A,E)+d(E,B) and also note that d(E,B) >= D(E,C).

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Thanks for the help! I think I got an algorithm to work now. –  StayPuff Nov 2 '12 at 3:22