被围绕的区域
给一个二维的矩阵,包含 'X'
和 'O'
, 找到所有被 'X' 围绕的区域,并用 'X' 填充满。
样例
给出二维矩阵:
X X X X
X O O X
X X O X
X O X X
把被 'X' 围绕的区域填充之后变为:
X X X X
X X X X
X X X X
X O X X
解题
参考岛屿的个数 然而我还是写不出来
programcreek 有下面的一段话:
This problem is similar to Number of Islands. In this problem, only the cells on the
boarders can not be surrounded. So we can first merge those O’s on the boarders like
in Number of Islands and replace O’s with ’#’, and then scan the board and replace all
O’s left (if any)
先将边界中联通的O换成*,这里利用深度优先
最后遍历数组,O->X *->O,每个位置值遍历一次,不会出现混乱
public class Solution { /** * @param board a 2D board containing 'X' and 'O' * @return void */ public void surroundedRegions(char[][] board) { // Write your code here if(board == null || board.length == 0|| board[0].length == 0) return ; int row = board.length; int col = board[0].length; for(int i =0;i< row;i++){ if(board[i][0] == 'O') merge(board,i,0); if(board[i][col-1] == 'O') merge(board,i,col-1); } for(int j =0;j< col;j++){ if(board[0][j] == 'O') merge(board,0,j); if(board[row-1][j] == 'O') merge(board,row-1,j); } // O->X *->O for(int i=0;i<row;i++){ for(int j=0; j<col; j++){ if(board[i][j] == 'O'){ board[i][j] = 'X'; }else if(board[i][j] == '*'){ board[i][j] = 'O'; } } } } // 将边界联通的O 换成 * public void merge(char[][] board,int row,int col){ if(row<0 || col<0 || row>= board.length || col>= board[0].length) return; if(board[row][col] != 'O') return; board[row][col] = '*'; merge(board,row,col+1); merge(board,row+1,col); merge(board,row-1,col); merge(board,row,col-1); } }
This solution causes java.lang.StackOverflowError, because for a large board, too many method calls are pushed to the stack and causes the overflow.
programcreek 中又给了一个广度优先的算法
比较复杂,先把程序复杂过来
public class Solution { // use a queue to do BFS private Queue<Integer> queue = new LinkedList<Integer>(); public void solve(char[][] board) { if (board == null || board.length == 0) return; int m = board.length; int n = board[0].length; // merge O's on left & right boarder for (int i = 0; i < m; i++) { if (board[i][0] == 'O') { bfs(board, i, 0); } if (board[i][n - 1] == 'O') { bfs(board, i, n - 1); } } // merge O's on top & bottom boarder for (int j = 0; j < n; j++) { if (board[0][j] == 'O') { bfs(board, 0, j); } if (board[m - 1][j] == 'O') { bfs(board, m - 1, j); } } // process the board for (int i = 0; i < m; i++) { for (int j = 0; j < n; j++) { if (board[i][j] == 'O') { board[i][j] = 'X'; } else if (board[i][j] == '#') { board[i][j] = 'O'; } } } } private void bfs(char[][] board, int i, int j) { int n = board[0].length; // fill current first and then its neighbors fillCell(board, i, j); while (!queue.isEmpty()) { int cur = queue.poll(); int x = cur / n; int y = cur % n; fillCell(board, x - 1, y); fillCell(board, x + 1, y); fillCell(board, x, y - 1); fillCell(board, x, y + 1); } } private void fillCell(char[][] board, int i, int j) { int m = board.length; int n = board[0].length; if (i < 0 || i >= m || j < 0 || j >= n || board[i][j] != 'O') return; // add current cell is queue & then process its neighbors in bfs queue.offer(i * n + j); board[i][j] = '#'; } }
update
public class Solution { /** * @param board a 2D board containing 'X' and 'O' * @return void */ public void surroundedRegions(char[][] board) { // Write your code here if(board == null || board.length == 0 || board[0].length ==0) return; int row = board.length; int col = board[0].length; // 边界的 O 变为 P for(int i =0;i<row;i++){ if(board[i][0] == 'O') dfs(board,i,0,row,col); if(board[i][col-1] == 'O') dfs(board,i,col-1,row,col); } for(int j=0;j<col;j++){ if(board[0][j] == 'O') dfs(board,0,j,row,col); if(board[row-1][j] == 'O') dfs(board,row-1,j,row,col); } // 中间的 O-> X for(int i=0;i<row;i++){ for(int j=0;j<col;j++){ if(board[i][j] == 'O') board[i][j] = 'X'; } } // P 还原 O for(int i=0;i<row;i++){ for(int j=0;j<col;j++){ if(board[i][j] == 'P') board[i][j] = 'O'; } } } // 将 ij 周围的 O - > P public void dfs(char[][] board,int i,int j,int row,int col){ if(i<0 ||i>=row ||j<0 ||j>=col) return ; if(board[i][j]=='O'){ board[i][j] ='P'; dfs(board,i+1,j,row,col); dfs(board,i,j+1,row,col); dfs(board,i-1,j,row,col); dfs(board,i,j-1,row,col); } } }