[LeetCode] Largest BST Subtree 最大的二分搜索子树

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Given a binary tree, find the largest subtree which is a Binary Search Tree (BST), where largest means subtree with largest number of nodes in it.

Note:
A subtree must include all of its descendants.
Here‘s an example:

    10
    /    5  15
  / \\   \\ 
 1   8   7

The Largest BST Subtree in this case is the highlighted one. 
The return value is the subtree‘s size, which is 3.

 

Hint:

  1. You can recursively use algorithm similar to 98. Validate Binary Search Tree at each node of the tree, which will result in O(nlogn) time complexity.

Follow up:
Can you figure out ways to solve it with O(n) time complexity?

 

这道题让我们求一棵二分树的最大二分搜索子树,所谓二分搜索树就是满足左<根<右的二分树,我们需要返回这个二分搜索子树的节点个数。题目中给的提示说我们可以用之前那道Validate Binary Search Tree的方法来做,时间复杂度为O(nlogn),这种方法是把每个节点都当做根节点,来验证其是否是二叉搜索数,并记录节点的个数,若是二叉搜索树,就更新最终结果,参见代码如下:

 

解法一:

class Solution {
public:
    int largestBSTSubtree(TreeNode* root) {
        int res = 0;
        dfs(root, res);
        return res;
    }
    void dfs(TreeNode *root, int &res) {
        if (!root) return;
        int d = countBFS(root, INT_MIN, INT_MAX);
        if (d != -1) {
            res = max(res, d);
            return;
        }
        dfs(root->left, res);
        dfs(root->right, res);
    }
    int countBFS(TreeNode *root, int mn, int mx) {
        if (!root) return 0;
        if (root->val < mn || root->val > mx) return -1;
        int left = countBFS(root->left, mn, root->val);
        if (left == -1) return -1;
        int right = countBFS(root->right, root->val, mx);
        if (right == -1) return -1;
        return left + right + 1;
    }
};

 

题目中的Follow up让我们用O(n)的时间复杂度来解决问题,我们还是采用DFS的思想来解题,由于时间复杂度的限制,只允许我们遍历一次整个二叉树,由于满足题目要求的 二叉搜索子树必定是有叶节点的,所以我们的思路就是先递归到最左子节点,然后逐层往上递归,对于每一个节点,我们都记录当前最大的BST的节点数,当做为左子树的最大值,和做为右子树的最小值,当每次遇到左子节点不存在或者当前节点值大于左子树的最大值,且右子树不存在或者当前节点值小于右子树的最小数时,说明BST的节点数又增加了一个,我们更新结果及其参数,如果当前节点不是BST的节点,那么我们更新BST的节点数res为左右子节点的各自的BST的节点数的较大值,参见代码如下:

 

解法二:

class Solution {
public:
    int largestBSTSubtree(TreeNode* root) {
        int res = 0, mn = INT_MIN, mx = INT_MAX;
        bool d = isValidBST(root, mn, mx, res);
        return res;
    }
    bool isValidBST(TreeNode *root, int &mn, int &mx, int &res) {
        if (!root) return true;
        int left_n = 0, right_n = 0, left_mn = INT_MIN;
        int right_mn = INT_MIN, left_mx = INT_MAX, right_mx = INT_MAX;
        bool left = isValidBST(root->left, left_mn, left_mx, left_n);
        bool right = isValidBST(root->right, right_mn, right_mx, right_n);
        if (left && right) {
            if ((!root->left || root->val >= left_mx) && (!root->right || root->val <= right_mn)) {
                res = left_n + right_n + 1;
                mn = root->left ? left_mn : root->val;
                mx = root->right ? right_mx : root->val;
                return true;
            }
        }
        res = max(left_n, right_n);
        return false;
    }
};

 

类似题目:

Validate Binary Search Tree

 

参考资料:

https://leetcode.com/discuss/85959/12ms-c-solution

https://leetcode.com/discuss/86015/two-dfs-solution

 

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