# Iterating over AVL tree in O(1) space without recursion

I have an AVL Tree. Each node looks like this:

``````typedef struct {
Node *parent;  // the parent node
Node *left;    // the node left of this node
Node *right;   // the node right of this node
int height;    // the height of this node
void *value;   // payload
} Node;
``````

Is it possible to iterate over an AVL tree with these nodes in O(1) space, without recursion, if yes, how?

If not, a solution with sub-O(n) space or iff really necessary O(N) space is appreciated as well.

With iterating over the tree I mean I want to visit each node once, and if possible in order (from the mostleft to the mostright node).

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Homework, right? What have you tried? –  Jim Balter Dec 15 '11 at 10:43
@Jim Balter: not homework, I wish. I'm 17 and still stuck in high-school (or at least the Dutch version of it). It's for a Python project, and it is used in an iterator. –  nightcracker Dec 15 '11 at 10:44
In what way do you want to “iterate over an AVL tree”? –  Gumbo Dec 15 '11 at 10:45
@Gumbo: Woops, forgot to say that in the question. I want to visit each node once, and if possible in order (from the mostleft to the mostright node). –  nightcracker Dec 15 '11 at 10:47
Again, what have you tried? Surely you can at least find your way to the first (leftmost) node ... figure out what to do next. –  Jim Balter Dec 15 '11 at 10:49
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If you store the last node you have visited, you can derive the next node to visit in an iterator.

• If the last node was your parent, go down the left subtree.
• If the last node was your left subtree, go down the right subtree.
• If the last node was your right subtree, go to your parent.

This algorithm gives you a traversal in O(1) for the tree. You need to flesh it out a little for the leaves and decide what kind of iterator (pre/in/post-order) you want to decide where the iterator should and wait for incrementation.

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Of course! And this allows me to iterate over the tree in order by starting with the leftmost's-parent node and the last node set to the leftmost node. Thanks! –  nightcracker Dec 15 '11 at 10:59
@nightcracker You can iterate over the tree by starting with the root node and the last node set to NULL (the root node's parent). –  Jim Balter Dec 15 '11 at 11:13

It is possible to get the next in-order node given a pointer to some node, as long as you keep parent pointers. This can be used to iterate the tree, starting with the leftmost node. From my implementation of AVL tree:

``````BAVLNode * BAVL_GetNext (const BAVL *o, BAVLNode *n)
{
}
} else {
while (n->parent && n == n->parent->link[1]) {
n = n->parent;
}
n = n->parent;
}

return n;
}
``````

To get the leftmost node:

``````BAVLNode * BAVL_GetFirst (const BAVL *o)
{
if (!o->root) {
return NULL;
}

BAVLNode *n = o->root;
}

return n;
}
``````

Here, `node->link[0]` and `node->link[1]` are the left and right child of the node, respectively, and `node->parent` is the pointer to the parent node (or `NULL` for root).

A single GetNext() operation has O(logn) time complexity. However, when used to iterate the entire tree, you get O(n) amortized time complexity.

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This doesn't work. For instance, it returns NULL for any tree where the root has no right link.... Well, maybe it works with your edit, starting at the leftmost node. –  Jim Balter Dec 15 '11 at 11:18
It does work. If you call GetNext(root) and the root has no right link, then yes, it returns NULL - because the root is the last node, and there is no next node. An if you call GetNext(rightmost child of root's left child), it retuns the root (not NULL). Also, I've used that code in like 20 different places with no issues. –  Ambroz Bizjak Dec 15 '11 at 11:27
@Jim: obviously you have to start at the leftmost node, not the root, in order to iterate the tree in-order. –  Ambroz Bizjak Dec 15 '11 at 11:28
That is NOT obvious. See, for instance, thiton's answer and my comment on it. –  Jim Balter Dec 18 '11 at 8:20
@Jim: I mentioned at the beginning of my answer that GetNext() returns the next in-order node of the given node. It follows from this that you have to start with the node having least value, i.e. leftmost, in order to get all the nodes with repeated invocation of GetNext(). It's obvious the same way as it is that to iterate a linked list from start to finish, you have to start at the first node, not some middle node. –  Ambroz Bizjak Dec 18 '11 at 9:23
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"Datastructures and their algorithms" by Harry Lewis and Larry Denenberg describe link inversion traversal for constant space traversal of a binary tree. For this you do not need parent pointer at each node. The traversal uses the existing pointers in the tree to store path for back tracking. 2-3 additional node references are needed. Plus a bit on each node to keep track of traversal direction (up or down) as we move down. In my implementation of this algorithms from the book, profiling shows that this traversal has far less memory / processor time. An implementation in java (c would be faster i guess) is here.

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