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I have to sort an array. Apart from the already existing types of sorting that exists, I was wondering if an algorithm like this would work out, and what its complexity might be.

I have an array to be sorted. I create a Binary Search Tree.

So if I insert all the elements of the array into the BST, and then assign them back to the array one by one when doing a in-order traversal of the tree, I will achieve a sorted result. (Though consuming more space complexity because of the tree nodes. Not in-place sorting.)

int i=0;

void sort_by_inorder(node *n)

I know a BST does not allow duplicate insertions, so maybe we could consider modifying the BST insertion algorithm into <= for the left sub-tree, or maybe >= for the right sub-tree.

Will this be a good implementation (workable)? What would be the complexity?

Traversal complexity is on an average O(n). And insertion is just O(log n). So this should, according to me, turn out to be an efficient algorithm.


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Each insertion is O(log n), so you actually end up with O(n*log n) – AlexDev Jul 13 '12 at 12:57
You should be doing an in-order traversal, not a pre-order traversal. – Dylan M. Jul 13 '12 at 16:20
@DylanM. Yes. Sorry. My code was inorder traversal, but name was preorder traversal. Edited it. – Arjun Abhynav Jul 13 '12 at 21:34

1 Answer 1

up vote 0 down vote accepted

In a general binary search tree, the insertion time is actually O(n) in the worst case. You need a balanced tree for the operations to be O(log(n)).

So in a general BST, your approach allows you to sort in O(n^2).

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Thanks. And yes, I understand the worstcase. Was wondering why this sorting was never mentioned anywhere! I thought I found something radically new. :D – Arjun Abhynav Jul 13 '12 at 13:17
We talked about this in my datastructures class, but I can imagine if people don't talk about it much, it's because it is unnecessarily complicated compared to the other O(nlogn) sorting algorithms, and it's probably a good bit slower in practice. That being said, if you use an AVL tree or some other tree that has guaranteed O(logn) insertions, then this is theoretically on par with Merge Sort (in time and space complexity). Something similar that might interest you is Heapsort. – Dylan M. Jul 13 '12 at 16:26

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