Given a tree T and a sequence of nodes S, with the only constraint on S being that it's done through some type of recursion - that is, a node can only appear in S if all of its ancestors have already appeared, what's a good algorithm to determine if S is a breadth first visit, a depth first visit, or neither?

A brute force approach is to compute every breadth first and depth first sequences and see if any is identical to S. Is there a better approach?

What if we don't want a yes or no answer, but a measure of distance?

UPDATE 1 By measure of distance, I mean that a visit may not be an exact BFS, but it's close (a few edits might make it one); I'd like to be able to order them and say BFS < S < R < U < DFS.

UPDATE 2 Of course, a brute force enumeration of every BFS or DFS can answer the question; I'd like something more efficient.

  • In a breadth-first traversal all immediate children of a node appear before any descendants. – Adam Oct 27 '13 at 22:35
  • define "measure of distance" – Adam Oct 27 '13 at 22:35
  • If any of a node's ancestors appear before it does, then it's not depth-first, as that is defined by all a node's children appearing before it (and thus all ancestors of a node appear after it). – twalberg Oct 28 '13 at 19:47

You have the tree and the sequence, right? In that case it is pretty easy to determine if a sequence is breadth first search or not, and if it is depth first or not.

To check if it is breadth first: divide the nodes into groups L0, L1, ..., Lk where L0 is the set of 0 level nodes (there is only one root node, so its size is 1), L2 is the set of level 1 nodes and so on. If sequence S = (permutation(L0), permutation(1), ...) then it is a breadth first search.

To check if it is depth first: start with a pointer to the first node in the sequence and root node of the tree. They should be same. Next element of the sequence must be a child of previous node, if the previous node has any children at all. If there is a conflict then it is not a DFS sequence. If there is no child, then the next sequence element must be child of parent of previous node,... and so on. This approach is not as complicated as it sounds and could be easily implemented with the help of a stack.

I am not very sure for your need for "measure of distance". But as you can see, both of these approaches can return number of conflicts. Maybe you can use it to calculate "distance"?

  • ElKamina - this would work, but is not very efficient. Is there a way to do this better than brute force? – SRobertJames Oct 28 '13 at 18:50
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    @SRobertJames Which part is brute force? Breadth-first check is, worst case O(nlogn). The Depth first part is also O(nlogn). Clues: for the first part sort elements in each level and do a binary search. for the second part use a stack. – ElKamina Oct 28 '13 at 18:56

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