Assume that I have two AVL trees and that I know their respective sizes. However, I don't know if there are repeated nodes, or any other information. What would be the most efficient way to merge them in a new AVL tree? The original trees can be destroyed.
IIRC all this operations are O(N), so the full merge will also be O(N).
If your representation of AVL trees allows to iterate over them efficiently (for instance, using backpointers, continuations, lazy evaluation, etc.) you should be able to do it also without the intermediate lists.
Update: as your programming language seems to be C/C++ you could temporarily abuse your AVL node estructures to be nodes in a linked list and later reuse them again for the output tree.
Update 2: @hwlau: this is O(N), I have checked it using my own AVL implementation in Prolog available from avl.pl and this test program avl_test.pl that checks the number of operations when merging AVL trees of size 1, 2, 4, 8, 16, ...
This is the output:
Its obvious that the number of inferences/operations is proportional to the size of the merged trees and so the complexity of the algorithm O(N).
It is not the most efficient, but is definitely the easiest to implement. You can just add all nodes from second tree to the first. You don't need to remove the nodes from the second tree. You just destroy the second tree then and have the first tree as a result. The time complexity is