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993:二叉树的堂兄弟节点

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src/main/java/leetcode/editor/cn/CousinsInBinaryTree.java Normal file
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//在二叉树中根节点位于深度 0 每个深度为 k 的节点的子节点位于深度 k+1
//
// 如果二叉树的两个节点深度相同 父节点不同 则它们是一对堂兄弟节点
//
// 我们给出了具有唯一值的二叉树的根节点 root 以及树中两个不同节点的值 x y
//
// 只有与值 x y 对应的节点是堂兄弟节点时才返回 true 否则返回 false
//
//
//
// 示例 1
//
//
//
//输入root = [1,2,3,4], x = 4, y = 3
//输出false
//
//
// 示例 2
//
//
//
//输入root = [1,2,3,null,4,null,5], x = 5, y = 4
//输出true
//
//
// 示例 3
//
//
//
//
//输入root = [1,2,3,null,4], x = 2, y = 3
//输出false
//
//
//
// 提示
//
//
// 二叉树的节点数介于 2 100 之间
// 每个节点的值都是唯一的范围为 1 100 的整数
//
//
//
// Related Topics 广度优先搜索
// 👍 172 👎 0
package leetcode.editor.cn;
import com.code.leet.entiy.TreeNode;
//993:二叉树的堂兄弟节点
public class CousinsInBinaryTree {
public static void main(String[] args) {
//测试代码
Solution solution = new CousinsInBinaryTree().new Solution();
}
//力扣代码
//leetcode submit region begin(Prohibit modification and deletion)
/**
* Definition for a binary tree node.
* public class TreeNode {
* int val;
* TreeNode left;
* TreeNode right;
* TreeNode() {}
* TreeNode(int val) { this.val = val; }
* TreeNode(int val, TreeNode left, TreeNode right) {
* this.val = val;
* this.left = left;
* this.right = right;
* }
* }
*/
class Solution {
public boolean isCousins(TreeNode root, int x, int y) {
int[][] paraent = getParent(root, x, y, new int[2][2], 1);
return paraent[0][0] != paraent[1][0] && paraent[0][1] == paraent[1][1];
}
private int[][] getParent(TreeNode root, int x, int y, int[][] paraent, int deep) {
if (paraent[1][1] > 0) {
return paraent;
}
if (root.val == x || root.val == y) {
x = root.val == x ? 0 : x;
y = root.val == y ? 0 : y;
if (paraent[0][1] > 0) {
paraent[1][0] = root.val;
paraent[1][1] = deep;
} else {
paraent[0][0] = root.val;
paraent[0][1] = deep;
}
}
if (root.left != null) {
paraent = getParent(root.left, x, y, paraent, deep + 1);
}
if (paraent[1][1] > 0) {
return paraent;
}
if (root.right != null) {
paraent = getParent(root.right, x, y, paraent, deep + 1);
}
return paraent;
}
}
//leetcode submit region end(Prohibit modification and deletion)
}

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src/main/java/leetcode/editor/cn/CousinsInBinaryTree.md Normal file
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<p>在二叉树中,根节点位于深度 <code>0</code> 处,每个深度为 <code>k</code> 的节点的子节点位于深度 <code>k+1</code> 处。</p>
<p>如果二叉树的两个节点深度相同,但<strong> 父节点不同</strong> ,则它们是一对<em>堂兄弟节点</em></p>
<p>我们给出了具有唯一值的二叉树的根节点 <code>root</code> ,以及树中两个不同节点的值 <code>x</code><code>y</code></p>
<p>只有与值 <code>x</code><code>y</code> 对应的节点是堂兄弟节点时,才返回 <code>true</code> 。否则,返回 <code>false</code></p>
<p> </p>
<p><strong>示例 1<br />
<img alt="" src="https://assets.leetcode-cn.com/aliyun-lc-upload/uploads/2019/02/16/q1248-01.png" style="height: 160px; width: 180px;" /></strong></p>
<pre>
<strong>输入:</strong>root = [1,2,3,4], x = 4, y = 3
<strong>输出:</strong>false
</pre>
<p><strong>示例 2<br />
<img alt="" src="https://assets.leetcode-cn.com/aliyun-lc-upload/uploads/2019/02/16/q1248-02.png" style="height: 160px; width: 201px;" /></strong></p>
<pre>
<strong>输入:</strong>root = [1,2,3,null,4,null,5], x = 5, y = 4
<strong>输出:</strong>true
</pre>
<p><strong>示例 3</strong></p>
<p><strong><img alt="" src="https://assets.leetcode-cn.com/aliyun-lc-upload/uploads/2019/02/16/q1248-03.png" style="height: 160px; width: 156px;" /></strong></p>
<pre>
<strong>输入:</strong>root = [1,2,3,null,4], x = 2, y = 3
<strong>输出:</strong>false</pre>
<p> </p>
<p><strong>提示:</strong></p>
<ul>
<li>二叉树的节点数介于 <code>2</code> 到 <code>100</code> 之间。</li>
<li>每个节点的值都是唯一的、范围为 <code>1</code> 到 <code>100</code> 的整数。</li>
</ul>
<p> </p>
<div><div>Related Topics</div><div><li></li><li>广度优先搜索</li></div></div>\n<div><li>👍 172</li><li>👎 0</li></div>

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src/main/java/leetcode/editor/cn/all.json
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