package LeetCode_286 /** * 286. Walls and Gates * (Prime) * * You are given a m x n 2D grid initialized with these three possible values. 1. -1 - A wall or an obstacle. 2. 0 - A gate. 3. INF - Infinity means an empty room. We use the value 231 - 1 = 2147483647 to represent INF as you may assume that the distance to a gate is less than 2147483647. Fill each empty room with the distance to its nearest gate. If it is impossible to reach a gate, it should be filled with INF. Example: Given the 2D grid: INF -1 0 INF INF INF INF -1 INF -1 INF -1 0 -1 INF INF After running your function, the 2D grid should be: 3 -1 0 1 2 2 1 -1 1 -1 2 -1 0 -1 3 4 * */ class Solution { /* * Solution: DFS, Time complexity:O(m^2 * n^2), Space complexity:O(4^n) * */ fun fillEmptyRoom(grid: Array<IntArray>) { val m = grid.size val n = grid[0].size for (i in 0 until m) { for (j in 0 until n) { //start dfs from where is a gate if (grid[i][j] == 0) { dfs(i, j, 0, grid) } } } } private fun dfs(x: Int, y: Int, count: Int, grid: Array<IntArray>) { //when reach gate,wall,or confirm min distance return if (x < 0 || x >= grid.size || y < 0 || y >= grid[0].size || grid[x][y] < count) { return } grid[x][y] = count //expand 4 directions dfs(x + 1, y, count + 1, grid) dfs(x - 1, y, count + 1, grid) dfs(x, y + 1, count + 1, grid) dfs(x, y - 1, count + 1, grid) } }