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I was wondering how to best implement a tree data structure to be able to enumerate paths of all levels. Let me explain it with the following example:

   /   \
   B    C
   |    /\
   D   E  F

I want to be able to generate the following:


As of now, I am executing a depth-first-search for different depths on a data structure built using a dictionary and recording unique nodes that are seen but I was wondering if there is a better way to do this kind of a traversal. Any suggestions?

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Are all graph edges bidirectional? – Mike Pennington Apr 15 '11 at 1:44
so then you are also expecting b-a, c-a, d-b, e-c, f-c, a-b-a, a-c-a, b-d-b, b-a-b, b-a-c, etc? – saus Apr 15 '11 at 2:50
@saus: Oops sorry. I did not notice it. I meant directional. – Legend Apr 15 '11 at 2:57
up vote 7 down vote accepted

Whenever you find a problem on trees, just use recursion :D

def paths(tree):
  #Helper function
  #receives a tree and 
  #returns all paths that have this node as root and all other paths

  if tree is the empty tree:
    return ([], [])
  else: #tree is a node
    root = tree.value
    rooted_paths = [[root]]
    unrooted_paths = []
    for subtree in tree.children:
        (useable, unueseable) = paths(subtree)
        for path in useable:
        for path in unuseable:
    return (rooted_paths, unrooted_paths)

def the_function_you_use_in_the_end(tree):
   a,b = paths(tree)
   return a+b
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could you provide an example of the tree that you would call paths() with to solve the OP's question? – Mike Pennington Apr 15 '11 at 1:55
@Mike I don't feel it is needed. It is better to adapt the algorithm to whatever data structure the OP is using then to try to guess a specific flavor of tree implementation. – hugomg Apr 15 '11 at 2:17

Find a path to each node of the tree using depth first search, then call enumerate-paths(Path p), where p is the path from the root to the node. Let's assume that a path p is an array of nodes p[0] [1] .. p[n] where p[0] is the root and p[n] is the current node.

enumerate-paths(p) {
    for i = 0 .. n  
        output p[n - i] .. p[n] as a path. 

Each of these paths is different, and each of them is different from the results returned from any other node of the tree since no other paths end in p[n]. Clearly it is complete, since any path is from a node to some node between it and the root. It is also optimal, since it finds and outputs each path exactly once.

The order will be slightly different from yours, but you could always create an array of list of paths where A[x] is a List of the paths of length x. Then you could output the paths in order of their length, although this would take O(n) storage.

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Just one more way:

Every path without repetitions in tree is uniquely described by its start and finish.

So one of ways to enumerate paths is to enumerate every possible pair of vertices. For each pair it's relatively easy to find path (find common ancestor and go through it).

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