Given a knight in a chessboard (a binary matrix with 0 as empty and 1 as barrier) with a source position, find the shortest path to a destinationposition, return the length of the route. Return -1 if knight can not reached. Notice source and destination must be empty. Knight can not enter the barrier. Clarification If the knight is at (x, y), he can get to the following positions in one step: (x + 1, y + 2) (x + 1, y - 2) (x - 1, y + 2) (x - 1, y - 2) (x + 2, y + 1) (x + 2, y - 1) (x - 2, y + 1) (x - 2, y - 1) Example [[0,0,0], [0,0,0], [0,0,0]] source = [2, 0] destination = [2, 2] return 2 [[0,1,0], [0,0,0], [0,0,0]] source = [2, 0] destination = [2, 2] return 6 [[0,1,0], [0,0,1], [0,0,0]] source = [2, 0] destination = [2, 2] return -1
BFS solution:
1 package fbOnsite; 2 3 import java.util.*; 4 5 public class KnightShortestPath { 6 public static int shortestPath(int[][] board, int[] src, int[] dst) { 7 int[][] directions = new int[][]{{1,2},{1,-2},{-1,2},{-1,-2},{2,1},{2,-1},{-2,1},{-2,-1}}; 8 int m = board.length; 9 int n = board[0].length; 10 int res = 0; 11 12 Queuequeue = new LinkedList (); 13 HashSet visited = new HashSet (); 14 queue.offer(src[0]*n + src[1]); 15 while (!queue.isEmpty()) { 16 int size = queue.size(); 17 for (int i=0; i ) { 18 int cur = queue.poll(); 19 visited.add(cur); 20 int x = cur / n; 21 int y = cur % n; 22 if (x == dst[0] && y == dst[1]) return res; 23 24 for (int[] dir : directions) { 25 int nx = x + dir[0]; 26 int ny = y + dir[1]; 27 if (nx<0 || nx>=m || ny<0 || ny>=n || visited.contains(nx*n+ny) || board[nx][ny]!=0) 28 continue; 29 queue.offer(nx*n + ny); 30 } 31 } 32 res++; 33 } 34 return res; 35 } 36 37 38 39 /** 40 * @param args 41 */ 42 public static void main(String[] args) { 43 // TODO Auto-generated method stub 44 int[][] board = new int[][] {{0,1,0},{0,0,0},{0,0,0}}; 45 int[] src = new int[]{2,0}; 46 int[] dst = new int[]{2,2}; 47 int res = shortestPath(board, src, dst); 48 System.out.println(res); 49 } 50 51 }