# Calculating Time Complexity for BST node removal

I have a little difficulty in finding out the average and worst case time complexity. So I made this BST node removal with the following logic

When you remove a node in a binary search tree , there are 3 cases

1> The node to delete has no children. That's easy: just release its resources and you're done. Time complexity O(1)

2> The node has a single child node. Release the node and replace it with its child, so the child holds the removed node's place in the tree. Time complexity O(1)

3> The node has two children. Find the right-most child of node's left subtree. Assign its value  to root, and delete this child. **Here time compexity can be maximum O(N)**

To find the node to be deleted can be **maximum O(N)**

So how do you calculate the overall average and worst time complexity??

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is this a balanced tree? of not, finding the node is O(n). –  Karoly Horvath Aug 10 '12 at 12:16
What is N in this case? –  Andreas Brinck Aug 10 '12 at 12:17
@KarolyHorvath ... I missed a point there ..... It is not a balanced tree.... I ll just make the necessary edits... –  Dilletante Aug 10 '12 at 12:23
@AndreasBrinck ... N is the size of the BST.... For a skew tree we may take up to "N" operations to find a node... So worst case time complexity for finding a node is O(N) –  Dilletante Aug 10 '12 at 12:26
The complexity is the complexity of the operation that takes longest, so it's O(n) in this case. –  Andreas Brinck Aug 10 '12 at 12:34