# find inorder successor in BST without using any extra space

I am looking a way to find out inorder successor of a node in BST withut using extra space.

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What information is stored at each node? And what part are you finding difficult? The definition of "inorder"? Finding the successor? Or is it that you have a method, but your method uses extra space? –  Steve Jessop Sep 20 '10 at 11:36
–  Arun Sep 24 '10 at 3:47

To get the inorder successor of a given node `N` we use the following rules:

• If `N` has a right child `R` then the `inorderSuccessor(N)` is the leftmost decedent of `R`.
• Else `inorderSuccessor(N)` is the closest ancestor, `M`, of `N` (if it exists) such that `N` is descended from the left child of `M`. If there is no such ancestor, inorderSucessor does not exist.

Consider a sample tree:

``````     A
/ \
B   C
/ \
D   E
/
F
``````

Whose inorder traversal gives: `D B F E A C`

`inorderSuccessor(A)` = `C` as `C` is the leftmost decedent of the right child of `A`.

`inorderSuccessor(B)` = `F` as `F` is the leftmost decedent of the right child of `B`.

`inorderSuccessor(C)` = Does not exist.

`inorderSuccessor(D)` = `B` as `B` is the left child of `D`.

`inorderSuccessor(E)` = `A`. `E` does not have a right child so we have scenario 2. We go to parent of `E` which is `B`, but `E` is right decedent of `B`, so we move to parent of `B` which is `A` and `B` is left decedent of `A` so `A` is the answer.

`inorderSuccessor(F)` = `E` as `F` is the left child of `E`.

Procedure:

``````treeNodePtr inorderSucessor(treeNodePtr N) {
if(N) {
treeNodePtr tmp;
// CASE 1: right child of N exists.
if(N->right) {
tmp = N->right;
// find leftmost node.
while(tmp->left) {
tmp = tmp->left;
}
// CASE 2: No right child.
} else {
// keep climbing till you find a parent such that
// node is the left decedent of it.
while((tmp = N->parent)) {
if(tmp->left == N) {
break;
}
N = tmp;
}
}
return tmp;
}
// No IOS.
return NULL;
}
``````

Code In Action

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Small correction in your explanation of inorderSuccessor(D): it is D who is the left child of B. –  ric0liva Aug 21 '13 at 15:45

If the given node has a right child - go to it, and then follow iteratively the left children until you reach a node N with no left children. Return N.

Otherwise, follow the parents until you first find a parent where the node is a left child. Return this parent.

``````Node InOrderSuccessor(Node node) {
if (node.right() != null) {
node = node.right()
while (node.left() != null)
node = node.left()
return node
} else {
parent = node.getParent();
while (parent != null && parent.right() == node) {
node = parent
parent = node.getParent()
}
return parent
}
}
``````
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This is wrong. What if the given node has no right child and is its parent's right child? You will return a smaller node then. –  IVlad Sep 20 '10 at 12:26
IVlad: Thanks, I think I fixed it. –  Eyal Schneider Sep 20 '10 at 12:39

The following method helps you determine the inorder successor WITHOUT ANY PARENT NODE OR EXTRA SPACE NON-RECURSIVELY

``````struct node * inOrderSuccessor(struct node *root, struct node *n)
{
//*If the node has a right child, return the smallest value of the right sub tree*

if( n->right != NULL )
return minValue(n->right);

//*Return the first ancestor in whose left subtree, node n lies*
struct node *succ=NULL;
while(root)
{
{
succ=root; root=root->left;
}

else if(n->data > root->data)
root=root->right;
else break;
}
return succ;
}
``````

I'm quite certain this is right. Do correct me if I am wrong. Thanks.

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If you can access the root of a node, then it's just a matter of moving pointers around, so no extra space. See this lecture.

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