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# Largest Subtree Which is a Binary Search Tree (BST)

Given a binary tree, I want to find out the largest subtree which is a BST in it.

This question is duplicate of Finding the largest subtree in a BST, where 1337c0d3r gives a O(n) solution by traversing the tree bottom up. There are two lines code confusing me. Can anyone help me explain it?

``````// Find the largest BST subtree in a binary tree.
// If the subtree is a BST, return total number of nodes.
// If the subtree is not a BST, -1 is returned.
int findLargestBSTSubtree(BinaryTree *p, int &min, int &max,
int &maxNodes, BinaryTree *& largestBST) {
if (!p) return 0;
bool isBST = true;
int leftNodes = findLargestBSTSubtree(p->left, min, max, maxNodes, largestBST);
int currMin = (leftNodes == 0) ? p->data : min;
if (leftNodes == -1 ||
(leftNodes != 0 && p->data <= max))
isBST = false;
int rightNodes = findLargestBSTSubtree(p->right, min, max, maxNodes, largestBST);
int currMax = (rightNodes == 0) ? p->data : max;
if (rightNodes == -1 ||
(rightNodes != 0 && p->data >= min))
isBST = false;
if (isBST) {
min = currMin;
max = currMax;
int totalNodes = leftNodes + rightNodes + 1;
if (totalNodes > maxNodes) {
maxNodes = totalNodes;
largestBST = p;
}
} else {
return -1;   // This subtree is not a BST
}
}

BinaryTree* findLargestBSTSubtree(BinaryTree *root) {
BinaryTree *largestBST = NULL;
int min, max;
int maxNodes = INT_MIN;   // INT_MIN is defined in <climits>
findLargestBSTSubtree(root, min, max, maxNodes, largestBST);
return largestBST;
}
``````

I've confused by the following two lines code. According to my common sense, after recursive traversing left tree, the `max` variable should be updated, why putting `int currMin = (leftNodes == 0) ? p->data : min;` right after recursive traversing left tree?
The same question for `int currMax = (rightNodes == 0) ? p->data : max;`

``````...
int currMin = (leftNodes == 0) ? p->data : min;
...
int currMax = (rightNodes == 0) ? p->data : max;
``````
-
The algoritm you need is very close to alpha-beta searching. (except you need to visit almost the whole tree and cannot prune) – wildplasser Jan 25 '13 at 0:46

2. Left subtree is BST => minimum value in current tree is `min`
Similarly, after traversing the right subtree, the maximum value in the current tree is either the value of the current node or the maximum value in the right subtree (`max`)
So the line `int currMin = (leftNodes == 0) ? p->data : min;` tests whether condition 2 or 3 is true, and updates the value of `min` accordingly so that the value is correct for testing the nodes above the current node in the tree.