When it comes to binary trees, there are several different types of traversals that can be done recursively. They're written in the order they're referenced then visited (L=Left child, V = visit that node, R = right child).

- In-order traversal (LVR)
- Reverse order traversal (RVL)
- Preorder traversal (VLR)
- Postorder traversal (LRV)

Your code appears to be performing the postorder traversal method, but you're getting a few things mixed up. First, the *node* is what you want to traverse; the *data* is what you want to visit. Second, you have no reason to return the node itself, in the way that this is implemented. Your code doesn't allow for a condition to say, 'I'm looking for **this** particular data, do you have it Mr. Node@0xdeadbeef?', which would be found with some sort of extra search parameter.

An academic BST traversal only prints the nodes itself. If you wanted to add a search functionality, it's only one more parameter, as well as an additional check for the right node.

Here's a snippet:

```
// Academic
public void traverse (Node root){ // Each child of a tree is a root of its subtree.
if (root.left != null){
traverse (root.left);
}
System.out.println(root.data);
if (root.right != null){
traverse (root.right);
}
}
// Search with a valid node returned, assuming int
public Node traverse (Node root, int data){ // What data are you looking for again?
if(root.data == data) {
return root;
}
if (root.left != null){
return traverse (root.left);
}
if (root.right != null){
return traverse (root.right);
}
return null;
}
```

`traverse`

method is for using the elements in your binary tree but you're returning the root left, root right or root (even if root is`null`

!). The idea to recursive functions is to define the base case and then the repetitive code to get until that base case – Luiggi Mendoza Apr 12 '12 at 3:54`BST`

? Do you need to insert a node in the right place in a`BST`

? – noMAD Apr 12 '12 at 3:54