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# Worst Case number of rotations for BST to AVL algorithm?

I have a basic algorithm below and I know that the worst case input BST is one that has degenerated to a linked list from inserts to only one side.

How would I compute the worst case complexity in terms of number of rotations for this BST to AVL conversion algorithm?

``````IF tree is right heavy
{
IF tree's right subtree is left heavy
{
Perform Double Left rotation
}
ELSE
{
Perform Single Left rotation
}
}
ELSE IF tree is left heavy
{
IF tree's left subtree is right heavy
{
Perform Double Right rotation
}
ELSE
{
Perform Single Right rotation
}
}
``````
-

If single and double rotations take constant time `O(1)` then for your worst-case input on size `n` it is going to perform single (or double depending on if your input linked list is left-sided or right-sided) on all nodes. So it would be:
``````O(1) + O(1) + ... + O(1) # n times for worst case
That makes your algorithm `O(n)` for worst case.