# Iterative tree walking

It's been quite a while since I took data structures and algorithms in college, so I was surprised recently by a suggestion that recursion may not be the way (tm) to do tree traversal. For some reason iterative, queue based traversal has not been a technique that I've ever used.

What, if any, are the advantages of iterative vs. recursive traversal? In what situations might I use one rather than the other?

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If you are doing a breadth first search the natural implementation is to push nodes into a queue, not to use recursion.

If you are doing a depth first search then recursion is the most natural way to code the traversal. However, unless your compiler optimizes tail recursion into iteration, your recursive implementation will be slower than an iterative algorithm, and will die with a stack overflow on a deep enough tree.

Some quick Python to illustrate the difference:

``````#A tree is a tuple of an int and a tree.
t = (1, (2,(4, (6), (7, (9)) )), (3, (5, (8)) ))
def bfs(t):
to_visit = [t]
while len(to_visit) > 0:
c = to_visit[0]
if type(c) is int:
print c
else:
print c[0]
to_visit.append(c[1])
if len(c) > 2: to_visit.append(c[2])
to_visit = to_visit[1:]

def dfs(t):
if type(t) is int:
print t
return
print t[0]
dfs(t[1])
if len(t) > 2: dfs(t[2])

bfs(t)
dfs(t)
``````
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Very helpful answer, and well illustrated. Thanks! –  vezult Apr 16 '09 at 1:42

If you have a fixed amount of memory dedicated to the stack, as you often do (this is especially a problem in many Java JVM configurations), recursion may not work well if you have a deep tree (or if recursion depth is high in any other scenario); it will cause a stack overflow. An iterative approach, pushing nodes to visit onto a queue (for BFS-like traversal) or stack (for DFS-like traversal) has better memory properties in several ways, so if this matters, use an iterative approach.

The advantage of recursion is simplicity/elegance of expression, not performance. Remembering that is the key to choosing the appropriate approach for a given algorithm, problem size, and machine architecture.

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+1 for tradeoff of expressional elegance vs. performance/SO avoidance...was what i was just about to submit. –  automatonic Apr 16 '09 at 1:33