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When Traversing a Tree/Graph what is the difference between Breadth First and Depth first? Any coding or pseudocode examples would be great.

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Did you check wikipedia (depth first, breadth first)? There are code examples on those pages, along with lots of pretty pictures. – rmeador Mar 26 '09 at 22:03

1 Answer 1

up vote 133 down vote accepted

These two terms differentiate between two different ways of walking a tree.

It is probably easiest just to exhibit the difference. Consider the tree:

   / \
  B   C
 /   / \
D   E   F

A depth first traversal would visit the nodes in this order

A, B, D, C, E, F

Notice that you go all the way down one leg before moving on.

A breadth first traversal would visit the node in this order

A, B, C, D, E, F

Here we work all the way across each level before going down.

(Note that there is some ambiguity in the traversal orders, and I've cheated to maintain the "reading" order at each level of the tree. In either case I could get to B before or after C, and likewise I could get to E before or after F. This may or may not matter, depends on you application...)

Both kinds of traversal can be achieved with the pseudocode:

Store the root node in Container
While (there are nodes in Container)
   N = Get the "next" node from Container
   Store all the children of N in Container
   Do some work on N

The difference between the two traversal orders lies in the choice of Container.

  • For depth first use a stack. (The recursive implementation uses the call-stack...)
  • For breadth-first use a queue.

The recursive implementation looks like

   Work on the payload Node
   Foreach child of Node
   /* Alternate time to work on the payload Node (see below) */

The recursion ends when you reach a node that has no children, so it is guaranteed to end for finite, acyclic graphs.

At this point, I've still cheated a little. With a little cleverness you can also work-on the nodes in this order:

D, B, E, F, C, A

which is a variation of depth-first, where I don't do the work at each node until I'm walking back up the tree. I have however visited the higher nodes on the way down to find their children.

This traversal is fairly natural in the recursive implementation (use the "Alternate time" line above instead of the first "Work" line), and not too hard if you use a explicit stack, but I'll leave it as an exercise.

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Good job. I didn't have the chops to rip that off the top of my head in the other question Ted Asked. – Jason Punyon Mar 26 '09 at 22:30
It's been a long time since school for me, but this has been on my mind recently. I'd just got it clear in my own head at a new level of abstraction. – dmckee Mar 26 '09 at 22:38
Thanks for the excellent explanation in a simple way – Harish Aug 19 '10 at 6:42
I don't fully get the variation of depth first you are talking about. Is there a standard name for this kind of traversal? Where can I find more information? – batbrat Feb 11 '12 at 11:34
It may worth noting that you can modify the depth-first version to get prefix (A, B, D, C, E, F - the first one presented), infix (D, B, A, E, C, F - used for sorting: add as an AVL tree then read infix) or postfix (D, B, E, F, C, A the alternative presented) traversal. The names are given by the position in which you process the root. It should be noted that infix only really makes sense for binary trees. @batbrat those are the names... given the time since you asked, you probably already know. – Theraot Nov 1 at 13:27

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