669. 修剪二叉搜索树 669. Trim a Binary Search Tree 题目描述 LeetCode LeetCode669. Trim a Binary Search Tree简单 Java 实现 TreeNode Class public class TreeNode { int val; TreeNode left; TreeNode right; TreeNode(int x) { val = x; } } class Solution { public TreeNode…

problem 669. Trim a Binary Search Tree 参考 1. Leetcode_easy_669. Trim a Binary Search Tree; 完…

Week2 - 669. Trim a Binary Search Tree & 617. Merge Two Binary Trees 669.Trim a Binary Search Tree Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You migh…

  Given a binary search tree and the lowest and highest boundaries as `L`and `R`, trim the tree so that all its elements lies in `[L, R]` (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

题目要求 Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed b…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

［抄题］: Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

题目: Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed bi…

题目: Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed bi…

作者: 负雪明烛 id: fuxuemingzhu 个人博客: http://fuxuemingzhu.cn/ 目录 题目描述 题目大意 解题方法 递归 日期 题目地址:https://leetcode.com/problems/trim-a-binary-search-tree/description/ 题目描述 Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree…

这是悦乐书的第284次更新,第301篇原创 01 看题和准备 今天介绍的是LeetCode算法题中Easy级别的第152题(顺位题号是669).给定二叉搜索树以及L和R的最低和最高边界,修剪树以使其所有元素位于[L,R](R> = L).可能需要更改树的根,因此结果应返回修剪后的二叉搜索树的新根.例如: 输入:L = 1 R = 2 1 / \ 0 2 输出: 1 \ 2 输入:L = 1 R = 3 3 / \ 0 4 \ 2 / 1 输出: 3 / 2 / 1 本次解题使用的开发工具是ecl…

给定一个二叉搜索树,同时给定最小边界L 和最大边界 R.通过修剪二叉搜索树,使得所有节点的值在[L, R]中 (R>=L) .你可能需要改变树的根节点,所以结果应当返回修剪好的二叉搜索树的新的根节点. 错误的答案: class Solution { public: TreeNode* trimBST(TreeNode* root, int L, int R) { if(root == NULL) return NULL; if(root ->val < L) { root = root…

根据BST的特点,如果小于L就判断右子树,如果大于R就判断左子树 递归地建立树 public TreeNode trimBST(TreeNode root, int L, int R) { if (root==null) return null; if (root.val<L) return trimBST(root.right,L,R); if (root.val>R) return trimBST(root.left,L,R); TreeNode res = new TreeNode(ro…

Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary…

一道LeetCode题目 今天刷一道LeetCode的题目,要求是这样的: Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should ret…

Build A Binary Search Tree PAT-1099 本题有意思的一个点就是:题目已经给出了一颗排序二叉树的结构,需要根据这个结构和中序遍历序列重构一棵二叉排序树. 解法:可以根据中序遍历的思路,首先将给定的序列串进行排序即是中序遍历的结果.接着,根据给定的树结构进行中序遍历,这期间就可以确定每个结点的值.最后,只需要根据这棵树就能进行层次遍历了. 题目具备一些难度,需要一些思维能力和扩展能力. import java.util.ArrayList; import java.u…

Is It a Binary Search Tree PAT-1043 主要涉及到根据前序遍历序列片段是否是一颗二叉树,这里有一个小tip就是插入序列就是二叉树的前序遍历序列. 第二个是会对排序二叉树进行前序遍历,后序遍历,镜像排序二叉树的前序遍历,后序遍历等操作. 题目的整体难度不大,但是对二叉树和二叉排序树的了解需要较深. /** * @Author WaleGarrett * @Date 2020/9/5 8:20 */ import java.util.Scanner; /** * PA…

二叉树(Binary Tree)是最简单的树形数据结构,然而却十分精妙.其衍生出各种算法,以致于占据了数据结构的半壁江山.STL中大名顶顶的关联容器--集合(set).映射(map)便是使用二叉树实现.由于篇幅有限,此处仅作一般介绍(如果想要完全了解二叉树以及其衍生出的各种算法,恐怕要写8~10篇). 1)二叉树(Binary Tree) 顾名思义,就是一个节点分出两个节点,称其为左右子节点:每个子节点又可以分出两个子节点,这样递归分叉,其形状很像一颗倒着的树.二叉树限制了每个节点最多有两个子节…

题目链接:Recover Binary Search Tree | LeetCode OJ Two elements of a binary search tree (BST) are swapped by mistake. Recover the tree without changing its structure. Note: A solution using O(n) space is pretty straight forward. Could you devise a constan…

题目链接:Validate Binary Search Tree | LeetCode OJ Given a binary tree, determine if it is a valid binary search tree (BST). Assume a BST is defined as follows: The left subtree of a node contains only nodes with keys less than the node's key. The right…

Sept. 22, 2015 学一道算法题, 经常回顾一下. 第二次重温, 决定增加一些图片, 帮助自己记忆. 在网上找他人的资料, 不如自己动手. 把从底向上树的算法搞通俗一些. 先做一个例子: 9/22/2015 Go over one example to build some muscle memory about this bottom up, O(1) solution to find the root node in subtree function. Sorted List: 1…

Given a non-empty binary search tree and a target value, find k values in the BST that are closest to the target. Note: Given target value is a floating point. You may assume k is always valid, that is: k ≤ total nodes. You are guaranteed to have onl…

Given a non-empty binary search tree and a target value, find the value in the BST that is closest to the target. Note: Given target value is a floating point. You are guaranteed to have only one unique value in the BST that is closest to the target.…

Given an array of numbers, verify whether it is the correct preorder traversal sequence of a binary search tree. You may assume each number in the sequence is unique. Follow up: Could you do it using only constant space complexity? 这道题让给了我们一个一维数组,让我们…