Binary Tree Paths

最新推荐文章于 2024-11-03 20:00:49 发布
最新推荐文章于 2024-11-03 20:00:49 发布
阅读量241 收藏
点赞数
分类专栏: Tree Divided & Conquer traverse
版权声明:本文为博主原创文章,遵循 CC 4.0 BY-SA 版权协议,转载请附上原文出处链接和本声明。
本文链接:https://blog.youkuaiyun.com/u013325815/article/details/51880263
版权

 

Given a binary tree, return all root-to-leaf paths.

For example, given the following binary tree:

 

   1
 /   \
2     3
 \
  5

 

All root-to-leaf paths are:

["1->2->5", "1->3"]

思路:traverse  的方法;

/**
 * Definition of TreeNode:
 * public class TreeNode {
 *     public int val;
 *     public TreeNode left, right;
 *     public TreeNode(int val) {
 *         this.val = val;
 *         this.left = this.right = null;
 *     }
 * }
 */

public class Solution {
    /**
     * @param root: the root of the binary tree
     * @return: all root-to-leaf paths
     */
    public List<String> binaryTreePaths(TreeNode root) {
        List<String> list = new ArrayList<String>();
        if(root == null) return list;
        dfs(root, list, Integer.toString(root.val));
        return list;
    }
    
    private void dfs(TreeNode root, List<String> list, String curStr) {
       if(root.left == null && root.right == null) {
           list.add(curStr);
           return;
       }
       
       if(root.left != null){
           dfs(root.left, list, curStr + "->" + root.left.val);
       }
        
       if(root.right != null){
            dfs(root.right,  list, curStr + "->" + root.right.val);
       }
    }
}

思路2: divide and conquer,递归函数的定义是:返回当前node为首的所有到根节点的path。

/**
 * Definition of TreeNode:
 * public class TreeNode {
 *     public int val;
 *     public TreeNode left, right;
 *     public TreeNode(int val) {
 *         this.val = val;
 *         this.left = this.right = null;
 *     }
 * }
 */

public class Solution {
    /**
     * @param root: the root of the binary tree
     * @return: all root-to-leaf paths
     */
    public List<String> binaryTreePaths(TreeNode root) {
        List<String> list = new ArrayList<String>();
        if(root == null) {
            return list;
        }
        
        List<String> leftPaths = binaryTreePaths(root.left);
        List<String> rightPaths = binaryTreePaths(root.right);
        
        for(String leftPath : leftPaths) {
            list.add(root.val + "->" + leftPath);
        }
        
        for(String rightPath : rightPaths) {
            list.add(root.val + "->" + rightPath);
        }
        
        if(list.size() == 0){
            list.add(Integer.toString(root.val));
        }
        
        return list;
    }
}

 

 

 

 

LeetCode --- 257. Binary Tree Paths 解题报告
杨鑫newlife的专栏
07-25 295
Given a binary tree, return all root-to-leaf paths. Note:A leaf is a node with no children. Example: Input: 1 / \ 2 3 \ 5 Output: ["1->2->5", "1->3"] Explanation: All roo...
257. 二叉树的所有路径(Binary Tree Paths)
专心扫地
02-26 345
给定一个二叉树,返回所有从根节点到叶子节点的路径。 说明:叶子节点是指没有子节点的节点。 示例: 输入: 1 / \ 2 3 \ 5 输出: ["1->2->5", "1->3"] 解释: 所有根节点到叶子节点的路径为: 1->2->5, 1->3 /** * Definition for a binary tr...
[二叉查找树] 1115. Counting Nodes in a BST (30)
weixin_30892763的博客
02-26 73
1115. Counting Nodes in a BST (30) 时间限制 400 ms 内存限制 65536 kB 代码长度限制 16000 B 判题程序 Standard 作者 CHEN, Yue A Binary Search Tree (BST) is recursively defined as a binary...
LeetCode //C - 257. Binary Tree Paths
Made in Code
07-23 940
【代码】LeetCode //C - 257. Binary Tree Paths
LeetCode] binaryTreePaths
weixin_30416871的博客
06-16 107
class Solution { public: void binaryPath(TreeNode* root, vector<string>& result, string path) { if (root == NULL) { return; } if (path...
闯关leetcode——257. Binary Tree Paths
最新发布
方亮的专栏
11-03 287
我们需要先清晰定义“最末级节点”,即:没有左子树和右子树。然后我们就可以依据这个条件,将符合这样条件的节点路径给保存起来。整棵树的遍历可以使用先序遍历。这题就是要打印出从根节点到最末级节点的路径。
257. Binary Tree Paths
weixin_30270889的博客
10-08 95
problem Given a binary tree, return all root-to-leaf paths. For example, given the following binary tree: 1 / \ 2 3 \ 5 All root-to-leaf paths are: ["1->2->5", "1->3"] soluti...
leetcode 257. Binary Tree Paths
djph26741的博客
04-14 182
Given a binary tree, return all root-to-leaf paths. For example, given the following binary tree: 1 / \ 2 3 \ 5 All root-to-leaf paths are: ["1->2->5", "1->3"] ...
[LeetCode257] Binary Tree Paths
coder 进阶的专栏
08-21 2692
Given a binary tree, return all root-to-leaf paths. For example, given the following binary tree: 1 / \ 2 3 \ 5 All root-to-leaf paths are: ["1->2->5", "1->3"] /**
LeetCode 257 Binary Tree Paths
萤火虫啊飞呀飞
06-12 187
LeetCode 257 Binary Tree Paths Problem Description: 输出二叉树从根节点到叶节点的所有路径 具体的题目信息: https://leetcode.com/problems/binary-tree-paths/description/ Example: Solution: 解题思路:本题可直接用非递归后序遍历来实现。 编程实现: ...
LeetCode #257 - Binary Tree Paths
LawFile的博客
07-28 189
题目描述: Given a binary tree, return all root-to-leaf paths. Note: A leaf is a node with no children. Example: Input: 1 / \ 2 3 \ 5 Output: ["1-&gt;2-&gt;5", "1-&gt;3"] Explanation: ...
leetcodetreenode-binary-tree-paths:二叉树路径
07-01
leetcode 树节点二叉树路径 给定一棵二叉树,返回所有从根到...binaryTreePaths ( TreeNode root ) { List< String > result = new ArrayList<> (); if (root == null ){ return result; } dfs(root, " " ,resul
Easy 257题 Binary Tree Paths
brenda_zhao的博客
10-11 208
Question: Given a binary tree, return all root-to-leaf paths. For example, given the following binary tree: 1 / \ 2 3 \ 5 All root-to-leaf paths are: ["1->2->5", "1-
[LeetCode]--257. Binary Tree Paths
杜鲁门的博客
10-14 634
Given a binary tree, return all root-to-leaf paths.For example, given the following binary tree: 1 / \ 2 3 \ 5 All root-to-leaf paths are:[“1->2->5”, “1->3”] Credits: Special thanks to @j
Reaching Points
leetcode 解题思路
03-14 1896
Given four integers sx, sy, tx, and ty, return true if it is possible to convert the point (sx, sy) to the point (tx, ty) through some operations, or false otherwise. The allowed operation on some point (x, y) is to convert it to either (x, x + y) or (x +
Delete Node in a BST
leetcode 解题思路
11-13 1332
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 ...
Binary Tree Inorder Traversal
leetcode 解题思路
01-17 1055
Given a binary tree, return the inorder traversal of its nodes' values. For example: Given binary tree {1,#,2,3}, 1 \ 2 / 3 return [1,3,2]. Note: Recursive solution is trivial...
Binary Tree Preorder Traversal
leetcode 解题思路
01-09 959
Given a binary tree, return the preorder traversal of its nodes' values. For example: Given binary tree {1,#,2,3}, 1 \ 2 / 3 return [1,2,3]. Note: Recursive solution is trivia...
二叉树BinaryTree.java类实现以下方法:输出所有直径及其路径长度 public static<T> void diameterAll(BinaryTree<T> bitree)
07-09
以下是一个简单的二叉树实现的Java代码,包含了输出所有直径及其路径长度的方法: ```java public class BinaryTree<T> { private Node<T> root; // 构造函数 public BinaryTree(Node<T> root) { this.root = root; } // 节点类 private static class Node<T> { private T data; private Node<T> left; private Node<T> right; public Node(T data) { this.data = data; this.left = null; this.right = null; } } // 输出所有直径及其路径长度 public static <T> void diameterAll(BinaryTree<T> bitree) { if (bitree.root == null) { System.out.println("Binary tree is empty."); return; } List<List<Node<T>>> paths = new ArrayList<>(); List<Integer> diameters = new ArrayList<>(); findPaths(bitree.root, paths, new ArrayList<>()); calculateDiameters(bitree.root, paths, diameters); for (int i = 0; i < diameters.size(); i++) { System.out.println("Diameter: " + diameters.get(i) + ", Path: "); for (Node<T> node : paths.get(i)) { System.out.print(node.data + " "); } System.out.println(); } } // 查找所有路径 private static <T> void findPaths(Node<T> node, List<List<Node<T>>> paths, List<Node<T>> path) { if (node == null) { return; } path.add(node); if (node.left == null && node.right == null) { paths.add(new ArrayList<>(path)); } else { findPaths(node.left, paths, path); findPaths(node.right, paths, path); } path.remove(path.size() - 1); } // 计算直径 private static <T> int calculateDiameters(Node<T> node, List<List<Node<T>>> paths, List<Integer> diameters) { if (node == null) { return 0; } int leftHeight = calculateDiameters(node.left, paths, diameters); int rightHeight = calculateDiameters(node.right, paths, diameters); int diameter = leftHeight + rightHeight; diameters.add(diameter); return Math.max(leftHeight, rightHeight) + 1; } public static void main(String[] args) { // 创建二叉树示例 Node<Integer> node1 = new Node<>(1); Node<Integer> node2 = new Node<>(2); Node<Integer> node3 = new Node<>(3); Node<Integer> node4 = new Node<>(4); Node<Integer> node5 = new Node<>(5); node1.left = node2; node1.right = node3; node2.left = node4; node3.right = node5; BinaryTree<Integer> bitree = new BinaryTree<>(node1); // 输出所有直径及其路径长度 diameterAll(bitree); } } ``` 这段代码使用了二叉树的先序遍历来查找所有路径,然后计算每个路径的直径。最后,输出每个直径及其路径长度。以上是一个简单的实现,你可以根据自己的需求进行修改和扩展。
评论
添加红包

请填写红包祝福语或标题

红包个数最小为10个

红包金额最低5元

当前余额3.43前往充值 >
需支付:10.00
成就一亿技术人!
领取后你会自动成为博主和红包主的粉丝 规则
hope_wisdom
发出的红包
实付
使用余额支付
点击重新获取
扫码支付
钱包余额 0

抵扣说明:

1.余额是钱包充值的虚拟货币,按照1:1的比例进行支付金额的抵扣。
2.余额无法直接购买下载,可以购买VIP、付费专栏及课程。

余额充值