Given a root node reference of a BST and a key, delete the node with the given key in the BST. Return the root node reference (possibly updated) of the BST. Basically, the deletion can be divided into two stages: Search for a node to remove. If the n…

Given a root node reference of a BST and a key, delete the node with the given key in the BST. Return the root node reference (possibly updated) of the BST. Basically, the deletion can be divided into two stages: Search for a node to remove. If the n…

详见:https://leetcode.com/problems/delete-node-in-a-bst/description/ C++: /** * Definition for a binary tree node. * struct TreeNode { * int val; * TreeNode *left; * TreeNode *right; * TreeNode(int x) : val(x), left(NULL), right(NULL) {} * }; */ class…

450. 删除二叉搜索树中的节点 给定一个二叉搜索树的根节点 root 和一个值 key,删除二叉搜索树中的 key 对应的节点,并保证二叉搜索树的性质不变.返回二叉搜索树(有可能被更新)的根节点的引用. 一般来说,删除节点可分为两个步骤: 首先找到需要删除的节点: 如果找到了,删除它. 说明: 要求算法时间复杂度为 O(h),h 为树的高度. 示例: root = [5,3,6,2,4,null,7] key = 3 5 / \ 3 6 / \ \ 2 4 7 给定需要删除的节点值是 3,所以…

Given a root node reference of a BST and a key, delete the node with the given key in the BST. Return the root node reference (possibly updated) of the BST. Basically, the deletion can be divided into two stages: Search for a node to remove. If the n…

Given a binary search tree with non-negative values, find the minimum absolute difference between values of any two nodes. Example: Input: 1 \ 3 / 2 Output: 1 Explanation: The minimum absolute difference is 1, which is the difference between 2 and 1…

思路: (1)如果root为空,返回 (2)如果当前结点root是待删除结点: a:root是叶子结点,直接删去即可 b:root左子树不为空,则找到左子树的最大值,即前驱结点,使用前驱结点代替待删除的root结点值,并在root的左子树中,继续删除前驱结点   c:root右子树不为空,则找到右子树的最大值,即后继结点,使用后继结点代替待删除的root结点值,并在root的右子树中,继续删除后继结点 (3)如果待删除值大于root->val,则在右子树中继续删除待删除值 (4)如果待删除值小于…

Given a binary search tree and a node in it, find the in-order successor of that node in the BST. The successor of a node p is the node with the smallest key greater than p.val. You will have direct access to the node but not to the root of the tree.…

4.6 Write an algorithm to find the'next'node (i.e., in-order successor) of a given node in a binary search tree. You may assume that each node has a link to its parent. 这道题实际上考察的是一种叫线索二叉树的数据结构,而构造这种树的方法称之为Morris遍历法,在我之前的博客Binary Tree Inorder Traversa…

二叉树变量只是一个地址 public static void main(String[] args) { TreeNode t = new TreeNode(3); help(t); System.out.println(t.val); } public static void help(TreeNode t) { t.val = 6; } 上边代码通过地址改变了二叉树,输出为6,但是下边代码却只是传入函数的二叉树变量指向了另一个地址,外界的二叉树变量和二叉树的值没有变,输出还是3 public…