I'm looking for a simple algorithm to find the next largest element (key) in a binary search tree, can anyone help?
closed as not a real question by Stephen C, jusio, Inder Kumar Rathore, kazanaki, Denys Séguret Dec 7 '12 at 16:03It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center. If this question can be reworded to fit the rules in the help center, please edit the question. 


Assuming that by "next largest," you mean, the next largest node from wherever the current node is... From the current node, go right once. You've gone to a higher valued node. Then, go left as many times as possible. You've ended at the lowest valued node which is still higher than where you started. Example. Start at 60, go right once, go left as many times as you can. You end up at 62. Try the same thing for 41. You will end up at 42. EDIT: This should help with your second case. Pseudocode:
Can't guarantee no bugs in that, but the general idea is you check each parent, slowly working your way to the top of the tree. At each node, you stop and see if it is a candidate to be the "next largest" (i.e. it is greater than the node you started from and less than the current guess of next largest). At each of these stops, if the node is greater than where you started, you must explore all the way down the subtree of that node on the left branch only, checking each value along the way. I think that should do it, but you should probably test it heavily with random values to make sure there aren't any other cases we've overlooked. 


Case 1: right (x) is non empty successor (x ) = the minimum in right (x) Case 2: right (x) is empty go up the tree until the current node is a left child: successor (x ) is the parent of the current node if you cannot go further (and you reached the root): x is the largest element 

