How to find a loop in a binary tree? I am looking for a solution other than marking the visited nodes as visited or doing a address hashing. Any ideas?
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Suppose you have a binary tree but you don't trust it and you think it might be a graph, the general case will dictate to remember the visited nodes. It is, somewhat, the same algorithm to construct a minimum spanning tree from a graph and this means the space and time complexity will be an issue. Another approach would be to consider the data you save in the tree. Consider you have numbers of hashes so you can compare. A pseudocode would test for this conditions:
Testing aside, in what form is the tree that you want to test? Remeber that every node has a pointer to it's parent. An this pointer points to a single parent. So depending of the format you tree is in, you can take advantage from this. 


If there could be loops then it's just usual graph. There are number of ways to find the loop: Finding all cycles in graph 


Binary trees do not contain loops. If they do, they are not trees in the first place. 


As mentioned already: A tree does not (by definition) contain cycles (loops). To test if your directed graph contains cycles (references to nodes already added to the tree) you can iterate trough the tree and add each node to a visitedlist (or the hash of it if you rather prefer) and check each new node if it is in the list. Plenty of algorithms for cycledetection in graphs are just a googlesearch away. 

