mirror of
https://gitee.com/coder-xiaomo/leetcode-problemset
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180 lines
18 KiB
JSON
180 lines
18 KiB
JSON
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"questionId": "1493",
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"questionFrontendId": "1377",
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"title": "Frog Position After T Seconds",
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"titleSlug": "frog-position-after-t-seconds",
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"content": "<p>Given an undirected tree consisting of <code>n</code> vertices numbered from <code>1</code> to <code>n</code>. A frog starts jumping from <strong>vertex 1</strong>. In one second, the frog jumps from its current vertex to another <strong>unvisited</strong> vertex if they are directly connected. The frog can not jump back to a visited vertex. In case the frog can jump to several vertices, it jumps randomly to one of them with the same probability. Otherwise, when the frog can not jump to any unvisited vertex, it jumps forever on the same vertex.</p>\n\n<p>The edges of the undirected tree are given in the array <code>edges</code>, where <code>edges[i] = [a<sub>i</sub>, b<sub>i</sub>]</code> means that exists an edge connecting the vertices <code>a<sub>i</sub></code> and <code>b<sub>i</sub></code>.</p>\n\n<p><em>Return the probability that after <code>t</code> seconds the frog is on the vertex <code>target</code>. </em>Answers within <code>10<sup>-5</sup></code> of the actual answer will be accepted.</p>\n\n<p> </p>\n<p><strong>Example 1:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/12/21/frog1.jpg\" style=\"width: 338px; height: 304px;\" />\n<pre>\n<strong>Input:</strong> n = 7, edges = [[1,2],[1,3],[1,7],[2,4],[2,6],[3,5]], t = 2, target = 4\n<strong>Output:</strong> 0.16666666666666666 \n<strong>Explanation:</strong> The figure above shows the given graph. The frog starts at vertex 1, jumping with 1/3 probability to the vertex 2 after <strong>second 1</strong> and then jumping with 1/2 probability to vertex 4 after <strong>second 2</strong>. Thus the probability for the frog is on the vertex 4 after 2 seconds is 1/3 * 1/2 = 1/6 = 0.16666666666666666. \n</pre>\n\n<p><strong>Example 2:</strong></p>\n<strong><img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/12/21/frog2.jpg\" style=\"width: 304px; height: 304px;\" /></strong>\n\n<pre>\n<strong>Input:</strong> n = 7, edges = [[1,2],[1,3],[1,7],[2,4],[2,6],[3,5]], t = 1, target = 7\n<strong>Output:</strong> 0.3333333333333333\n<strong>Explanation: </strong>The figure above shows the given graph. The frog starts at vertex 1, jumping with 1/3 = 0.3333333333333333 probability to the vertex 7 after <strong>second 1</strong>. \n</pre>\n\n<p> </p>\n<p><strong>Constraints:</strong></p>\n\n<ul>\n\t<li><code>1 <= n <= 100</code></li>\n\t<li><code>edges.length == n - 1</code></li>\n\t<li><code>edges[i].length == 2</code></li>\n\t<li><code>1 <= a<sub>i</sub>, b<sub>i</sub> <= n</code></li>\n\t<li><code>1 <= t <= 50</code></li>\n\t<li><code>1 <= target <= n</code></li>\n</ul>\n",
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"difficulty": "Hard",
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"likes": 414,
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"categoryTitle": "Algorithms",
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"code": "class Solution {\npublic:\n double frogPosition(int n, vector<vector<int>>& edges, int t, int target) {\n \n }\n};",
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"code": "class Solution {\n public double frogPosition(int n, int[][] edges, int t, int target) {\n \n }\n}",
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"code": "class Solution(object):\n def frogPosition(self, n, edges, t, target):\n \"\"\"\n :type n: int\n :type edges: List[List[int]]\n :type t: int\n :type target: int\n :rtype: float\n \"\"\"\n ",
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"code": "class Solution:\n def frogPosition(self, n: int, edges: List[List[int]], t: int, target: int) -> float:\n ",
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"code": "\n\ndouble frogPosition(int n, int** edges, int edgesSize, int* edgesColSize, int t, int target){\n\n}",
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"code": "public class Solution {\n public double FrogPosition(int n, int[][] edges, int t, int target) {\n \n }\n}",
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"code": "/**\n * @param {number} n\n * @param {number[][]} edges\n * @param {number} t\n * @param {number} target\n * @return {number}\n */\nvar frogPosition = function(n, edges, t, target) {\n \n};",
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"code": "# @param {Integer} n\n# @param {Integer[][]} edges\n# @param {Integer} t\n# @param {Integer} target\n# @return {Float}\ndef frog_position(n, edges, t, target)\n \nend",
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"lang": "Swift",
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"langSlug": "swift",
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"code": "class Solution {\n func frogPosition(_ n: Int, _ edges: [[Int]], _ t: Int, _ target: Int) -> Double {\n \n }\n}",
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"lang": "Go",
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"code": "func frogPosition(n int, edges [][]int, t int, target int) float64 {\n \n}",
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"lang": "Scala",
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"code": "object Solution {\n def frogPosition(n: Int, edges: Array[Array[Int]], t: Int, target: Int): Double = {\n \n }\n}",
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"lang": "Kotlin",
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"code": "class Solution {\n fun frogPosition(n: Int, edges: Array<IntArray>, t: Int, target: Int): Double {\n \n }\n}",
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"lang": "Rust",
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"langSlug": "rust",
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"code": "impl Solution {\n pub fn frog_position(n: i32, edges: Vec<Vec<i32>>, t: i32, target: i32) -> f64 {\n \n }\n}",
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"lang": "PHP",
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"code": "class Solution {\n\n /**\n * @param Integer $n\n * @param Integer[][] $edges\n * @param Integer $t\n * @param Integer $target\n * @return Float\n */\n function frogPosition($n, $edges, $t, $target) {\n \n }\n}",
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"code": "function frogPosition(n: number, edges: number[][], t: number, target: number): number {\n\n};",
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"code": "(define/contract (frog-position n edges t target)\n (-> exact-integer? (listof (listof exact-integer?)) exact-integer? exact-integer? flonum?)\n\n )",
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"code": "-spec frog_position(N :: integer(), Edges :: [[integer()]], T :: integer(), Target :: integer()) -> float().\nfrog_position(N, Edges, T, Target) ->\n .",
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"code": "defmodule Solution do\n @spec frog_position(n :: integer, edges :: [[integer]], t :: integer, target :: integer) :: float\n def frog_position(n, edges, t, target) do\n\n end\nend",
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"Use a variation of DFS with parameters 'curent_vertex' and 'current_time'.",
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"Update the probability considering to jump to one of the children vertices."
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