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Java Algorithm for finding the largest set of independent nodes in a binary tree

By independent nodes, I mean that the returned set can not contain nodes that are in immediate relations, parent and child cannot both be included. I tried to use Google, with no success. I don't think I have the right search words.

A link, any help would be very much appreciated. Just started on this now.

I need to return the actual set of independent nodes, not just the amount.

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You can compute this recursive function with dynamic programming (memoization):

``````MaxSet(node) = 1 if "node" is a leaf
MaxSet(node) = Max(1 + Sum{ i=0..3: MaxSet(node.Grandchildren[i]) },
Sum{ i=0..1: MaxSet(node.Children[i])      })
``````

The idea is, you can pick a node or choose not to pick it. If you pick it, you can't pick its direct children but you can pick the maximum set from its grandchildren. If you don't pick it, you can pick maximum set from the direct children.

If you need the set itself, you just have to store how you selected "Max" for each node. It's similar to the LCS algorithm.

This algorithm is O(n). It works on trees in general, not just binary trees.

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This computes the size of the largest set, not the set itself. – Svante Oct 14 '09 at 16:56
I need to return the actual node's, not just max. I will edit my post. – Algific Oct 14 '09 at 16:58
Edited to compute the actual set. – Mehrdad Afshari Oct 14 '09 at 17:05
This looks really nice, but this is really advanced. Sum and max I haven't seen before, and I don't directly see how I would store the value to retrieve the set? – Algific Oct 14 '09 at 17:29
i=0..3: MaxSet(node.Grandchildren[i]) i=0..1: MaxSet(node.Children[i]) Could you or someone explain this bit for me? – Algific Oct 14 '09 at 17:31

I would take-and-remove all leaves first while marking their parents as not-to-take, then remove all leaves that are marked until no such leaves are left, then recurse until the tree is empty. I don't have a proof that this always produces the largest possible set, but I believe it should.

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Ah, you kinda go every other height level from the bottom towards the root? Not bad! I'll implement it and see. – Algific Oct 14 '09 at 17:09
The leaves do not need to be at the same level. – Svante Oct 15 '09 at 7:20