Programs that utilize tree strucutres need to process nodes[?] in a tree (represented as circles in below diagram). Nodes contain information about an object. For now, let's assume each node contains a letter.
Post-Order Traversal is a type of Tree Traversal[?] algorithm. Post-order refers to when the root is postponed until its two subtrees are processed.
Steps to Post-order Traversal
Given a non-empty tree,
- Process the nodes in the left subtree with a recursive call
- Process the nodes in the right subtree with a recursive call
- Process the root
Given a binary tree PY:
The order would go D,G,E,B,C,F,A
An example of PostOrder in C++
template <class Item>
int postorder_print(const binary_tree_nodes<Item>* ptr)
// ptr is a pointer to a node in a binary tree OR null
// meaning empty tree.
{
if (ptr != NULL)
{
postorder_print( ptr->left() );
postorder_print( ptr->right() );
std::cout << ptr->data() << std::endl;
}
return 0;
}
The same example in Haskell might look like
data Tree a = ET | Node(a, Tree a, Tree a)
postorder :: Tree a -> [a] postorder ET = [] postorder (Node (x, left,right)) = (postorder left) ++ (postorder right) ++ [x]
Compare: Pre-order traversal, Inorder traversal