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Consider the time complexity of a post-order traversal on a binary search tree of N nodes. I know it takes O(N) to visit all the nodes, in the general case, but what is the complexity in the worst case, when BST is a list? I think it takes O(N^2), because it will traverse N nodes to go reach the end, and N nodes to go back to the start. That means N*N = N^2, so I think it is O(N^2). Is it right?

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You may should consider adding an example of what you understand as a traversal on the BST. As it is stated, you're visiting all the nodes, and going back, which leads to n + n steps, or O(n) in complexity. Notice this empties the meaning of worst, as the only case you have is when you traverse all the nodes, and back. (What is worse than what here?) –  Rubens Jun 11 '13 at 14:07

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In your "worst case" scenario (which I don't understand, frankly) it's N + N = O(N), not N * N = O(N^2).

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Thank you very much!I'm at the 1st year at CS university and i have not done algorithm complexity yet, so i don't know very well this stuff.Thank you again Ernest! –  Themis Beris Jun 11 '13 at 14:02

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