# Real world pre/post-order tree traversal examples

I understand pre-order, in-order, and post-order tree traversal algorithms just fine. (Reference). I understand a few uses: in-order for traversing binary search trees in order, pre-order for cloning a tree. But I can't for the life of me come up with a real world task that I'd need post-order traversal to accomplish.

Can you give me an example? And: can you give me any better uses for pre-order traversal?

Edit: Can anyone give me an example other than expression trees and RPN? Is that really all post-order is good for?

Topological sorting is a post-order traversal of trees (or directed acyclic graphs).

The idea is that the nodes of the graph represent tasks and an edge from `A` to `B` indicates that `A` has to be performed before `B`. A topological sort will arrange these tasks in a sequence such that all the dependencies of a task appear earlier than the task itself. Any build system like UNIX make has to implement this algorithm.

The example that Dario mentioned — destroying all nodes of a tree with manual memory management — is an instance of this problem. After all, the task of destroying a node depends on the destruction of its children.

• This is a great answer. Remembering that trees are degenerate graphs opens up all kinds of functionality. And topological sorting is hugely useful. Aug 23, 2010 at 13:57
• Why is it called topological sorting instead of, say, scheduling or something, or what is "Topological" supposed to mean in this context? Apr 30, 2011 at 3:08
• @Shawn: Beats me. It's probably because only the topology of the graph/network matters. May 3, 2011 at 18:12

As Henk Holterman pointed out, destroying a tree using manual memory management usually is a post-order traversal.

Pseudocode:

``````destroy(node) {
if (node == null) return;

destroy(node.left)
destroy(node.right)

// Post-order freeing of current node
free(node)
}
``````