# Binary trees, returning the next node in a preorder traversal

I have an assignment and I need some help with a method.

So I have a tree like this:

``````                A
/   \
B     C
/   \ /   \
D    E F     G
/   \
H      I
/   \
J       K
``````

and my method is:

``````public BinaryTree preorderNext(BinaryTree t, BinaryTree v, BinaryTree prev) {

prev = t;

if(t.getLeft() != null) {
preorderNext(t.getLeft(), v, prev);
}

if(t.getRight() != null) {
preorderNext(t.getRight(), v, prev);
}

if(prev == v) {
return t;
}

return null;
}
``````

The lecturer had given a simple implementation of the tree. The class is called BinaryTree and if you want to make a node link to it then you specify what the right and left child BinaryTree node are.

A node has two links (one to the left and the other to the right child) and there is no link to the head.

So with the current method I am able to successful do a preorder traversal, I tested by writing the print statements of what the element stored at the node is.

But when I run the tests, it tells me that the next preorder node from A is B, and the next preorder node from K throws a null exception but it should be I?

Any ideas of where I am going wrong? The variable prev should hold a reference to the last node visited so if it equals to node v (which is the node I specify, to return the node after v), shouldn't I get the next node?

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Can you modify the function signature? It is much easier to deal with the `root` than with `t`, `v` and `prev`. This is because every child of the tree is also a tree itself. –  arin Mar 4 at 17:09
What do you mean? t is the root of the tree which i can pass in. –  Margi Tran Mar 4 at 17:12
You should hold a recursive approach rather than pass previously visited information to the method again; this information is already within the stack. I will post an answer to explain my approach for the preorder traversal. –  arin Mar 4 at 17:16

Here is an implementation of how a `preorder traversal` is done recursively.

``````public void preOrderTraversal(BinaryTree root){
if(root == null) return;

System.out.println(root);
preOrderTraversal(root.getLeft());
preOrderTraversal(root.getRight());
}
``````

Notes:

1. I am not sure of your approach; why are you returning a node? In any case, when the `root` is null with that approach you can return an "`emptyNode`" and deal with it by an if statement.
2. As you can see I am only dealing with the `root`, with any level the `root` changes. Try to visualize this with a run-through and you will understand this concept.
3. You are missing a check for null nodes at the beginning (especially for `t`).

You can continue to adapt your results to this.

A final note is for the run-time complexity of this approach, I'd highly recommend understanding run-time complexities for recursive functions. It will help you a lot in the future. Check this wikipedia article for recurrence relations.

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I can see what you are trying to do. I am returning a node because to get the next node of a node, so the next node of K in a pre order traversal is I.. You said in a comment of my previous post that my nodes will be held in a stack... so how can I obtain J when i vist it and get the next node after J? –  Margi Tran Mar 4 at 17:37
Next node of `K` will be `I` with the control flow of the recursion. What I mean is, after you process `K` (print it out, do some operation on it etc.) the method will return to the previous call and will have the current `root` as `I` (in your case the `t` will be `I` I believe). These will be handled by the stack automatically, you need not worry about that. Please look into Stack and how it is used with recursion and you will understand this. –  arin Mar 4 at 17:47
I understand how the stack works with recursive calls. Lets say I am just going to traverse the left side of the tree. - First check if A has a left, it does so recursive call on it - then check if b has a left, it does so recursive call on it - then check D has a left, it does so recursive call on it - then check H has a left, it does so recursive call on it –  Margi Tran Mar 4 at 18:21
- then check J has a left, it does not so return from the recursive call - now check if H has a right, it does and now we can return from that recursive call - now check if D has a right, it does - now we can if I has a left, it does not, and check if it has a right - it does not - then we check if B has a right, it does. I dont see how I am able to go from K to I... My logic is correct here yes? –  Margi Tran Mar 4 at 18:23
Sorry for the bad layout but my post was unable to submit.. –  Margi Tran Mar 4 at 18:24
show 2 more comments

I am not sure if doing that task recursively is that easy.

Solving the task the iterative way using a stack could be a much better approach:

``````public BinaryTree preOrderNext(BinaryTree toSearch) {

Stack<BinaryTree> openList = new Stack<BinaryTree>();

openList.push(root);

while (openList.empty() == false) {
BinaryTree curr = openList.pop();

if (curr.getRight() != null)
openList.push(curr.getRight());

if (curr.getLeft() != null)
openList.push(curr.getLeft());

if (curr.equals(toSearch) && openList.empty() == false){
return openList.pop();
}
}
return null;
}
``````

This method is not tested, but should be working.

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You should not use identity operator `==`, rather `equals()` within your last `if` statement. –  arin Mar 4 at 18:00
You're right ofc. Fixed it. –  trylimits Mar 4 at 18:02

I provide an answer that runs in `O(h)` running time.

``````class Node {
public int key;
public Node l;
public Node r;
public Node p;

public Node(int key) {
this.key = key;
this.l = null;
this.r = null;
this.p = null;
}
}

public Node preorderNext(Node v) {
if (v.l != null) {
return v.l;
} else if (v.r != null) {
return v.r;
} else {
while (v.p != null) {
if (v == v.p.l) {
if (v.p.r != null) {
return v.p.r;
} else {
v = v.p;
}
} else {
if (v.p.p == null) {
return null;
} else if (v.p == v.p.p.l) {
if (v.p.p.r != null) {
return v.p.p.r;
} else {
v = v.p;
}
} else {
v = v.p;
}
}
}
return null;
}
}
``````
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