# In-order iterator for binary tree [closed]

How can I write a Java iterator (i.e. needs the `next` and `hasNext` methods) that takes the root of a binary tree and iterates through the nodes of the binary tree in in-order fashion?

• I think the question is clear enough, if you know what a binary tree is and have experience parsing them. Feb 19 '16 at 9:35
• I think it’s real question alright. It should probably have been closed as too broad instead. May 10 '17 at 13:48
• This is a real question. I really can't understand some of the moderators in SO. Mar 20 '19 at 14:32
• I found this answer more helpful than the ones below: stackoverflow.com/a/2942598/1599699 Jun 4 '20 at 18:20

The first element of a subtree is always the leftmost one. The next element after an element is the first element of its right subtree. If the element does not have a right child, the next element is the element's first right ancestor. If the element has neither a right child nor a right ancestor, it is the rightmost element and it's last in iteration.

I hope my code is human readable and covers all cases.

``````public class TreeIterator {
private Node next;

public TreeIterator(Node root) {
next = root;
if(next == null)
return;

while (next.left != null)
next = next.left;
}

public boolean hasNext(){
return next != null;
}

public Node next(){
if(!hasNext()) throw new NoSuchElementException();
Node r = next;

// If you can walk right, walk right, then fully left.
// otherwise, walk up until you come from left.
if(next.right != null) {
next = next.right;
while (next.left != null)
next = next.left;
return r;
}

while(true) {
if(next.parent == null) {
next = null;
return r;
}
if(next.parent.left == next) {
next = next.parent;
return r;
}
next = next.parent;
}
}
}
``````

Consider the following tree:

``````     d
/   \
b     f
/ \   / \
a   c e   g
``````
• The first element is "fully left from the root"
• `a` does not have a right child, so the next element is "up until you come from left"
• `b` does have a right child, so iterate `b`'s right subtree
• `c` does not have a right child. It's parent is `b`, which has been traversed. The next parent is `d`, which has not been traversed, so stop here.
• `d` has a right subtree. Its leftmost element is `e`.
• ...
• `g` has no right subtree, so walk up. `f` has been visited, since we've come from right. `d` has been visited. `d` has no parent, so we cannot move further up. We have come from the rightmost node and we're done iterating.
• There was a reason I didn't post a valid iterator in my answer, and it was so the OP would have to do it themselves. Giving out answers like this doesn't benefit anyone. Oct 12 '12 at 3:06
• @HunterMcMillen good point. Howerer, this is not a copy-and-paste thing anyways. At least one line has to be changed ;-) but I confess it was not deliberate. My focus was readability, not correctness. I didn't even test it ;-) Oct 12 '12 at 3:13
• what if you don't have a parent pointer?
– Vic
Jan 19 '15 at 14:25
• @Vic then you need a stack of some sorts. Since Java does not have generators / coroutines (unless Java 8 introduced them), an explicit stack will have to do. Just remember the list of parents in a list, then pop one when you want to go up. Jan 19 '15 at 16:53
• one catch with this answer is Each TreeNode need to store parent, otherwise we need to go through route of storing parents separately or use stack to form an iterator. Jul 28 '17 at 2:14

To get the next entry, 'nextEntry()', for the iterator, I looked at snippets from `java.util.TreeMap` pasted below. In plain English, I'd say you make sure the root node is not null first else return null. If it is not, vist the right node if it is not null. Then visit the left (if not null) and visit that one's left repeatedly in a while loop until hitting null. If the originial right node is null then instead of all that, visit the parent node if that is not null. Now enter a while loop where you vist the parent until it's either null or the node you're currently visiting has its right (child) node equal to your last position. Now return whatever entry you're sittng on. Failing all those options, return the (original) root node. 'HasNext()' merely checks if this "next entry" you are returning is null or not.

``````public final boolean hasNext() {
return next != null;
}

final TreeMap.Entry<K,V> nextEntry() {
TreeMap.Entry<K,V> e = next;
if (e == null || e.key == fenceKey)
throw new NoSuchElementException();
if (m.modCount != expectedModCount)
throw new ConcurrentModificationException();
next = successor(e);
lastReturned = e;
return e;
}

static <K,V> TreeMap.Entry<K,V> successor(Entry<K,V> t) {
if (t == null)
return null;
else if (t.right != null) {
Entry<K,V> p = t.right;
while (p.left != null)
p = p.left;
return p;
} else {
Entry<K,V> p = t.parent;
Entry<K,V> ch = t;
while (p != null && ch == p.right) {
ch = p;
p = p.parent;
}
return p;
}
}
``````
• Yes, I did. Please publish yours and may that be the accepted answer if equal or better to my explanation. It actually states in the TreeMap.java file packaged with the jdk that the code is properietary. If that is the case, I will say that ~30 lines out of 2400 is fair use for educational purposes. Oct 12 '12 at 2:43
• I did publish my answer. Oct 12 '12 at 2:44
• Not sure the transcription helps understanding... Oct 12 '12 at 2:45
• I agree with the fair use policy, I'm saying it's easy to overlook the attribution. In fact, I did. Oct 12 '12 at 2:48
• I see what you mean, it's reasonable to assume the user pasting code wrote it. I'm not sure that I could write a binary tree data structure myself but I've used TreeMaps and noticed the relevant source to be much simpler than I expected. I think the transcription is helpful. I do like your a-g tree and seeing two implementations of the same thing. Oct 12 '12 at 3:00

It's pretty straight forward, for in-order traversal you visit the left child if there is one, then the root node, then the right child:

``````visit_node(node)
if node.left: visit_node(node.left)
// visit the root node
if node.right: visit_node(node.right)
``````

Diagram:

``````     a
/   \        (in-order traversal would give bac)
b     c
``````
• But when writing an iterator (e.g. a Java iterator that needs `next` and `hasNext` methods), how can you incorporate a recursive method like that? Oct 12 '12 at 1:39
• @PaulSeangwongree: You can always take the nodes in order and add them to some other collection. Oct 12 '12 at 1:47
• @ChrisDargis Is that efficient? Mar 20 '19 at 14:47