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I think that I know the answer and the minimum complexity is O(nlogn).

But is there any way that I can make an binary search tree from a heap in O(n) complexity?

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make BST from Heap in O(n) is MORE efficient then O(nlogn). – user1940350 Dec 31 '12 at 23:46
Oh, my mistake, sorry. – hd1 Dec 31 '12 at 23:53
up vote 17 down vote accepted

There is no algorithm for building a BST from a heap in O(n) time. The reason for this is that given n elements, you can build a heap from them in O(n) time. If you have a BST for a set of values, you can sort them in O(n) time by doing an inorder traversal. If you could build a BST from a heap in O(n) time, you could then have an O(n) sorting algorithm by

  1. Building the heap in O(n) time,
  2. Converting the heap to a BST in O(n) time, and
  3. Walking the BST in O(n) time to get a sorted sequence.

Therefore, it is not possible to convert a heap to a BST in O(n) time (or in o(n log n) time, where o is little-o notation).

However, it is possible to build a BST from a heap in O(n log n) time by repeatedly dequeueing the maximum value from the BST and inserting it as the rightmost node in the tree. (You'd need to store a pointer there for fast access; just inserting at the root repeatly would take O(n2) time.)

Hope this helps!

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+1; nice reduction proof by contradiction – sampson-chen Jan 1 '13 at 2:04
Thank you! it helped me very much! – user1940350 Jan 1 '13 at 10:12

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