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# Minimum Depth of Binary Tree ### Source - leetcode: [Minimum Depth of Binary Tree | LeetCode OJ](https://leetcode.com/problems/minimum-depth-of-binary-tree/) - lintcode: [(155) Minimum Depth of Binary Tree](http://www.lintcode.com/en/problem/minimum-depth-of-binary-tree/) ~~~ Given a binary tree, find its minimum depth. The minimum depth is the number of nodes along the shortest path from the root node down to the nearest leaf node. Example Given a binary tree as follow: 1 / \ 2 3 / \ 4 5 The minimum depth is 2 ~~~ ### 题解 注意审题,题中的最小深度指的是从根节点到**最近的叶子节点(因为题中的最小深度是the number of nodes,故该叶子节点不能是空节点)**,所以需要单独处理叶子节点为空的情况。此题使用 [DFS](# "Depth-First Search, 深度优先搜索") 递归实现比较简单。 ### Java ~~~ /** * 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 binary tree. * @return: An integer. */ public int minDepth(TreeNode root) { if (root == null) return 0; int leftDepth = minDepth(root.left); int rightDepth = minDepth(root.right); // current node is not leaf node if (root.left == null) { return 1 + rightDepth; } else if (root.right == null) { return 1 + leftDepth; } return 1 + Math.min(leftDepth, rightDepth); } } ~~~ ### 源码分析 建立好递归模型即可,左右子节点为空时需要单独处理下。 ### 复杂度分析 每个节点遍历一次,时间复杂度 O(n)O(n)O(n). 不计栈空间的话空间复杂度 O(1)O(1)O(1).