地址 https://leetcode-cn.com/problems/path-sum/
给定一个二叉树和一个目标和,判断该树中是否存在根节点到叶子节点的路径, 这条路径上所有节点值相加等于目标和。 说明: 叶子节点是指没有子节点的节点。 示例: 给定如下二叉树,以及目标和 sum = 22, 5 / 4 8 / / 11 13 4 / 7 2 1 返回 true, 因为存在目标和为 22 的根节点到叶子节点的路径 5->4->11->2。
算法1
树的递归 先写一个正确版本,然后将重复的操作集合进一个函数,写一个稍微简洁点的版本
C++ 代码
/** * Definition for a binary tree node. * struct TreeNode { * int val; * TreeNode *left; * TreeNode *right; * TreeNode(int x) : val(x), left(NULL), right(NULL) {} * }; */ class Solution { public: bool dfs(TreeNode* root, int curr, int sum) { bool ret1 = false; bool ret2 = false; curr += root->val; if(root->left == NULL && root->right == NULL) return curr == sum; if(root->left!= NULL) ret1 = dfs(root->left,curr,sum); if(root->right != NULL) ret2 = dfs(root->right,curr,sum); return ret1 || ret2; } bool hasPathSum(TreeNode* root, int sum) { if (root == NULL) return false; int curr = 0;bool ret1 = false,ret2 = false; return dfs(root,curr,sum); } };
再精简下
class Solution { public: bool dfs(TreeNode* root, int curr, int sum) { if(root == NULL) return false; bool ret1 = false; bool ret2 = false; curr += root->val; if(root->left == NULL && root->right == NULL) return curr == sum; return dfs(root->left,curr,sum) || dfs(root->right,curr,sum); } bool hasPathSum(TreeNode* root, int sum) { int curr = 0; return dfs(root,curr,sum); } };
