leetcode-solutions/Java/0337_house_robber_III~.java at master · Alexinst/leetcode-solutions

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* https://leetcode-cn.com/problems/house-robber-iii/

* Reference: https://leetcode-cn.com/problems/house-robber-iii/solution/san-chong-fang-fa-jie-jue-shu-xing-dong-tai-gui-hu/

在上次打劫完一条街道之后和一圈房屋后，小偷又发现了一个新的可行窃的地区。这个地区只有一个入口，我们称之为“根”。除了“根”之外，每栋房子有且只有一个“父“房子与之相连。一番侦察之后，聪明的小偷意识到“这个地方的所有房屋的排列类似于一棵二叉树”。如果两个直接相连的房子在同一天晚上被打劫，房屋将自动报警。

计算在不触动警报的情况下，小偷一晚能够盗取的最高金额。

示例 1:

输入: [3,2,3,null,3,null,1]

/ \

2 3

\ \

3 1

输出: 7

解释: 小偷一晚能够盗取的最高金额 = 3 + 3 + 1 = 7.

示例 2:

输入: [3,4,5,1,3,null,1]

/ \

4 5

/ \ \

1 3 1

输出: 9

解释: 小偷一晚能够盗取的最高金额 = 4 + 5 = 9.

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The thief has found himself a new place for his thievery again. There is only one entrance to this area, called the "root." Besides the root, each house has one and only one parent house. After a tour, the smart thief realized that "all houses in this place forms a binary tree". It will automatically contact the police if two directly-linked houses were broken into on the same night.

Determine the maximum amount of money the thief can rob tonight without alerting the police.

Example 1:

Input: [3,2,3,null,3,null,1]

/ \

2 3

\ \

3 1

Output: 5773 7

Explanation: Maximum amount of money the thief can rob = 3 + 3 + 1 = 7.

Example 2:

Input: [3,4,5,1,3,null,1]

/ \

4 5

/ \ \

1 3 1

Output: 9

Explanation: Maximum amount of money the thief can rob = 4 + 5 = 9.

/**

* Definition for a binary tree node.

* public class TreeNode {

* int val;

* TreeNode left;

* TreeNode right;

* TreeNode(int x) { val = x; }

* }

class Solution1 {

public int rob(TreeNode root) {

int[] money = helper(root);

return Math.max(money[0], money[1]);

}

private int[] helper(TreeNode node) {

if (node == null) return new int[2];

int[] money = new int[2]; // 0: 不偷当前节点；1: 偷当前节点

int[] left = helper(node.left);

int[] right = helper(node.right);

money[0] = Math.max(left[0], left[1]) + Math.max(right[0], right[1]);

money[1] = node.val + left[0] + right[0];

return money;

}

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