# BST using preorder traversal

Is it possible to construct a Binary Search Tree Given only its preorder traversal ?

I know a binary tree can be constructed only if both inorder and preorder traversal are given . But my question is specific to Binary Search Tree .

eg: Given : 5,3,1,4,7,8

``````  Construct :

5
3    7
1   4    8
``````
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Yes, you can construct a binary search tree from a pre-order traversal. Given a pre-order traversal a_1, ..., a_n, divide it into three segments a_1, (a_2,...,a_k) and (a_{k+1},..,a_n), with the property that a_{k+1} is the first element in the pre-order that is greater than a_1.

Recursively compute the BST T1 of (a_2,...,a_k) and BST T2 of (a_{k+1},..,a_n) and add them as the left and the right subtrees of a new BST rooted at a_1.

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Thanks :) . @krjampani - Is it possible to construct the BST with inorder traversal? –  premprakash Sep 26 '12 at 2:43
Given an in-order traversal there is no unique BST that generates it. In fact there are exponentially many BST's that have the same in-order. –  krjampani Sep 26 '12 at 3:00

A better explanation is provided here ..

http://www.geeksforgeeks.org/archives/25203

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Based on the above algorithm .. my implementation in c++

``````node* buildtree(int[] preOrder,int start,int end) {

if(start>end) return NULL;

node *t = malloc(sizeof(node));

// finds the index of the first element greater than preOrder[start]
int index = find_index(preOrder, preOrder[start], start+1, end);

t->left = buildtree(preOrder,start+1,index-1);
t->right = buildtree(preOrder,index,end);

return t;

}

int find_index(int[] preOrder, int search_element, int start, int end) {

for(int i=start;i<=end;i++) {
if(preOrder[i]>search_element) return i;
}
return end+1;
}
``````
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