leetcode-problemset/leetcode-cn/originData/number-of-good-leaf-nodes-pairs.json

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        "question": {
            "questionId": "1653",
            "questionFrontendId": "1530",
            "categoryTitle": "Algorithms",
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            "title": "Number of Good Leaf Nodes Pairs",
            "titleSlug": "number-of-good-leaf-nodes-pairs",
            "content": "<p>You are given the <code>root</code> of a binary tree and an integer <code>distance</code>. A pair of two different <strong>leaf</strong> nodes of a binary tree is said to be good if the length of <strong>the shortest path</strong> between them is less than or equal to <code>distance</code>.</p>\n\n<p>Return <em>the number of good leaf node pairs</em> in the tree.</p>\n\n<p>&nbsp;</p>\n<p><strong>Example 1:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2020/07/09/e1.jpg\" style=\"width: 250px; height: 250px;\" />\n<pre>\n<strong>Input:</strong> root = [1,2,3,null,4], distance = 3\n<strong>Output:</strong> 1\n<strong>Explanation:</strong> The leaf nodes of the tree are 3 and 4 and the length of the shortest path between them is 3. This is the only good pair.\n</pre>\n\n<p><strong>Example 2:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2020/07/09/e2.jpg\" style=\"width: 250px; height: 182px;\" />\n<pre>\n<strong>Input:</strong> root = [1,2,3,4,5,6,7], distance = 3\n<strong>Output:</strong> 2\n<strong>Explanation:</strong> The good pairs are [4,5] and [6,7] with shortest path = 2. The pair [4,6] is not good because the length of ther shortest path between them is 4.\n</pre>\n\n<p><strong>Example 3:</strong></p>\n\n<pre>\n<strong>Input:</strong> root = [7,1,4,6,null,5,3,null,null,null,null,null,2], distance = 3\n<strong>Output:</strong> 1\n<strong>Explanation:</strong> The only good pair is [2,5].\n</pre>\n\n<p>&nbsp;</p>\n<p><strong>Constraints:</strong></p>\n\n<ul>\n\t<li>The number of nodes in the <code>tree</code> is in the range <code>[1, 2<sup>10</sup>].</code></li>\n\t<li><code>1 &lt;= Node.val &lt;= 100</code></li>\n\t<li><code>1 &lt;= distance &lt;= 10</code></li>\n</ul>\n",
            "translatedTitle": "好叶子节点对的数量",
            "translatedContent": "<p>给你二叉树的根节点 <code>root</code> 和一个整数 <code>distance</code> 。</p>\n\n<p>如果二叉树中两个 <strong>叶</strong> 节点之间的 <strong>最短路径长度</strong> 小于或者等于 <code>distance</code> ，那它们就可以构成一组 <strong>好叶子节点对</strong> 。</p>\n\n<p>返回树中 <strong>好叶子节点对的数量</strong> 。</p>\n\n<p>&nbsp;</p>\n\n<p><strong>示例 1：</strong></p>\n\n<p>&nbsp;</p>\n\n<p><img alt=\"\" src=\"https://assets.leetcode-cn.com/aliyun-lc-upload/uploads/2020/07/26/e1.jpg\" style=\"height: 321px; width: 321px;\"></p>\n\n<pre><strong>输入：</strong>root = [1,2,3,null,4], distance = 3\n<strong>输出：</strong>1\n<strong>解释：</strong>树的叶节点是 3 和 4 ，它们之间的最短路径的长度是 3 。这是唯一的好叶子节点对。\n</pre>\n\n<p><strong>示例 2：</strong></p>\n\n<p><img alt=\"\" src=\"https://assets.leetcode-cn.com/aliyun-lc-upload/uploads/2020/07/26/e2.jpg\" style=\"height: 321px; width: 441px;\"></p>\n\n<pre><strong>输入：</strong>root = [1,2,3,4,5,6,7], distance = 3\n<strong>输出：</strong>2\n<strong>解释：</strong>好叶子节点对为 [4,5] 和 [6,7] ，最短路径长度都是 2 。但是叶子节点对 [4,6] 不满足要求，因为它们之间的最短路径长度为 4 。\n</pre>\n\n<p><strong>示例 3：</strong></p>\n\n<pre><strong>输入：</strong>root = [7,1,4,6,null,5,3,null,null,null,null,null,2], distance = 3\n<strong>输出：</strong>1\n<strong>解释：</strong>唯一的好叶子节点对是 [2,5] 。\n</pre>\n\n<p><strong>示例 4：</strong></p>\n\n<pre><strong>输入：</strong>root = [100], distance = 1\n<strong>输出：</strong>0\n</pre>\n\n<p><strong>示例 5：</strong></p>\n\n<pre><strong>输入：</strong>root = [1,1,1], distance = 2\n<strong>输出：</strong>1\n</pre>\n\n<p>&nbsp;</p>\n\n<p><strong>提示：</strong></p>\n\n<ul>\n\t<li><code>tree</code> 的节点数在 <code>[1, 2^10]</code> 范围内。</li>\n\t<li>每个节点的值都在 <code>[1, 100]</code> 之间。</li>\n\t<li><code>1 &lt;= distance &lt;= 10</code></li>\n</ul>\n",
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                    "code": "/**\n * Definition for a binary tree node.\n * struct TreeNode {\n *     int val;\n *     TreeNode *left;\n *     TreeNode *right;\n *     TreeNode() : val(0), left(nullptr), right(nullptr) {}\n *     TreeNode(int x) : val(x), left(nullptr), right(nullptr) {}\n *     TreeNode(int x, TreeNode *left, TreeNode *right) : val(x), left(left), right(right) {}\n * };\n */\nclass Solution {\npublic:\n    int countPairs(TreeNode* root, int distance) {\n\n    }\n};",
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                    "code": "/**\n * Definition for a binary tree node.\n * public class TreeNode {\n *     int val;\n *     TreeNode left;\n *     TreeNode right;\n *     TreeNode() {}\n *     TreeNode(int val) { this.val = val; }\n *     TreeNode(int val, TreeNode left, TreeNode right) {\n *         this.val = val;\n *         this.left = left;\n *         this.right = right;\n *     }\n * }\n */\nclass Solution {\n    public int countPairs(TreeNode root, int distance) {\n\n    }\n}",
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                    "code": "/**\n * Definition for a binary tree node.\n * struct TreeNode {\n *     int val;\n *     struct TreeNode *left;\n *     struct TreeNode *right;\n * };\n */\n\n\nint countPairs(struct TreeNode* root, int distance){\n\n}",
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                    "code": "/**\n * Definition for a binary tree node.\n * public class TreeNode {\n *     public int val;\n *     public TreeNode left;\n *     public TreeNode right;\n *     public TreeNode(int val=0, TreeNode left=null, TreeNode right=null) {\n *         this.val = val;\n *         this.left = left;\n *         this.right = right;\n *     }\n * }\n */\npublic class Solution {\n    public int CountPairs(TreeNode root, int distance) {\n\n    }\n}",
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                    "code": "# Definition for a binary tree node.\n# class TreeNode\n#     attr_accessor :val, :left, :right\n#     def initialize(val = 0, left = nil, right = nil)\n#         @val = val\n#         @left = left\n#         @right = right\n#     end\n# end\n# @param {TreeNode} root\n# @param {Integer} distance\n# @return {Integer}\ndef count_pairs(root, distance)\n\nend",
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                    "code": "/**\n * Definition for a binary tree node.\n * public class TreeNode {\n *     public var val: Int\n *     public var left: TreeNode?\n *     public var right: TreeNode?\n *     public init() { self.val = 0; self.left = nil; self.right = nil; }\n *     public init(_ val: Int) { self.val = val; self.left = nil; self.right = nil; }\n *     public init(_ val: Int, _ left: TreeNode?, _ right: TreeNode?) {\n *         self.val = val\n *         self.left = left\n *         self.right = right\n *     }\n * }\n */\nclass Solution {\n    func countPairs(_ root: TreeNode?, _ distance: Int) -> Int {\n\n    }\n}",
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                    "code": "/**\n * Definition for a binary tree node.\n * type TreeNode struct {\n *     Val int\n *     Left *TreeNode\n *     Right *TreeNode\n * }\n */\nfunc countPairs(root *TreeNode, distance int) int {\n\n}",
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                    "code": "/**\n * Example:\n * var ti = TreeNode(5)\n * var v = ti.`val`\n * Definition for a binary tree node.\n * class TreeNode(var `val`: Int) {\n *     var left: TreeNode? = null\n *     var right: TreeNode? = null\n * }\n */\nclass Solution {\n    fun countPairs(root: TreeNode?, distance: Int): Int {\n\n    }\n}",
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                    "code": "// Definition for a binary tree node.\n// #[derive(Debug, PartialEq, Eq)]\n// pub struct TreeNode {\n//   pub val: i32,\n//   pub left: Option<Rc<RefCell<TreeNode>>>,\n//   pub right: Option<Rc<RefCell<TreeNode>>>,\n// }\n//\n// impl TreeNode {\n//   #[inline]\n//   pub fn new(val: i32) -> Self {\n//     TreeNode {\n//       val,\n//       left: None,\n//       right: None\n//     }\n//   }\n// }\nuse std::rc::Rc;\nuse std::cell::RefCell;\nimpl Solution {\n    pub fn count_pairs(root: Option<Rc<RefCell<TreeNode>>>, distance: i32) -> i32 {\n\n    }\n}",
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                    "code": "/**\n * Definition for a binary tree node.\n * class TreeNode {\n *     public $val = null;\n *     public $left = null;\n *     public $right = null;\n *     function __construct($val = 0, $left = null, $right = null) {\n *         $this->val = $val;\n *         $this->left = $left;\n *         $this->right = $right;\n *     }\n * }\n */\nclass Solution {\n\n    /**\n     * @param TreeNode $root\n     * @param Integer $distance\n     * @return Integer\n     */\n    function countPairs($root, $distance) {\n\n    }\n}",
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                    "code": "/**\n * Definition for a binary tree node.\n * class TreeNode {\n *     val: number\n *     left: TreeNode | null\n *     right: TreeNode | null\n *     constructor(val?: number, left?: TreeNode | null, right?: TreeNode | null) {\n *         this.val = (val===undefined ? 0 : val)\n *         this.left = (left===undefined ? null : left)\n *         this.right = (right===undefined ? null : right)\n *     }\n * }\n */\n\nfunction countPairs(root: TreeNode | null, distance: number): number {\n\n};",
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                    "code": "; Definition for a binary tree node.\n#|\n\n; val : integer?\n; left : (or/c tree-node? #f)\n; right : (or/c tree-node? #f)\n(struct tree-node\n  (val left right) #:mutable #:transparent)\n\n; constructor\n(define (make-tree-node [val 0])\n  (tree-node val #f #f))\n\n|#\n\n(define/contract (count-pairs root distance)\n  (-> (or/c tree-node? #f) exact-integer? exact-integer?)\n\n  )",
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                    "code": "%% Definition for a binary tree node.\n%%\n%% -record(tree_node, {val = 0 :: integer(),\n%%                     left = null  :: 'null' | #tree_node{},\n%%                     right = null :: 'null' | #tree_node{}}).\n\n-spec count_pairs(Root :: #tree_node{} | null, Distance :: integer()) -> integer().\ncount_pairs(Root, Distance) ->\n  .",
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                "Start DFS from each leaf node. stop the DFS when the number of steps done > distance.",
                "If you reach another leaf node within distance steps, add 1 to the answer.",
                "Note that all pairs will be counted twice so divide the answer by 2."
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