# Lowest Common Ancestor of multiple nodes in a n-ary tree

I am trying to implement LCA of multiple nodes in an n-ary tree in java. I am working with parse trees of sentences, So its reasonable to assume that number of children of a node <= 6. Multiple nodes here are two phrases(continuous word sequence) in a sentence. Let k be the number of nodes involved.

One way is to find the LCA of two nodes for k/2 pairs and we will get k/2 nodes. Now recurse on these k/2 nodes. The order will be O(nlog k), where O(n) is the complexity of linear LCA finding algorithms. Can I do it more efficiently ?

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I think the complexity is O(n. k) not O(n. log(k)). You will have log(k) steps of k/2, k/4.. which is O(k). –  VSOverFlow Jul 14 '12 at 7:33
@VSOverFlow I'll have log(k) steps and each step takes O(n), therefore, overall its O(nlog k). What is O(k) in your calculations? –  damned Jul 15 '12 at 4:17
I am assuming that LCA(2,n) is O(n). When you build the binary tree the total number of LCA calls is O(k) (k/2+k/4+....). So total runtime complexity is O(n * k) (i.e. k calls of O(n)). Each of log(k) steps has many O(n) steps (k/2, k/4, k/8,...) –  VSOverFlow Jul 15 '12 at 5:28

Let `segment1` have indices from `start1` to `end1`. Same be the case for `segment2 = (start2,end2)`.
The Required Common Ancestor of `(start1, end1)` and `(start2, end2)` is the common ancestor of nodes with indices `min(start1,start2)` and `max(end1,end2)`.