Red and Black
There is a rectangular room, covered with square tiles. Each tile is colored either red or black. A man is standing on a black tile. From a tile, he can move to one of four adjacent tiles. But he can't move on red tiles, he can move only on black tiles.
Write a program to count the number of black tiles which he can reach by repeating the moves described above.
Input
The input consists of multiple data sets. A data set starts with a line containing two positive integers W and H; W and H are the numbers of tiles in the x- and y- directions, respectively. W and H are not more than 20.
There are H more lines in the data set, each of which includes W characters. Each character represents the color of a tile as follows.
'.' - a black tile
'#' - a red tile
'@' - a man on a black tile(appears exactly once in a data set)
Output
For each data set, your program should output a line which contains the number of tiles he can reach from the initial tile (including itself).
Sample Input
6 9 ....#. .....# ...... ...... ...... ...... ...... #@...# .#..#. 11 9 .#......... .#.#######. .#.#.....#. .#.#.###.#. .#.#..@#.#. .#.#####.#. .#.......#. .#########. ........... 11 6 ..#..#..#.. ..#..#..#.. ..#..#..### ..#..#..#@. ..#..#..#.. ..#..#..#.. 7 7 ..#.#.. ..#.#.. ###.### ...@... ###.### ..#.#.. ..#.#.. 0 0
Sample Output
45 59 6 13
#include<stdio.h>
#include<queue>
#include<cstdio>
#include<cstring>
using namespace std;
typedef pair<int,int> node;//node表示一个点
bool vis[21][21]; //标记是否访问过
int dx[4]={1,0,-1,0},dy[4]={0,1,0,-1}; //四个方向
node start ; //起点位置
int N,M; //N,M分别为行数 列数
char maze[21][21]; //地图
int sum; //最后答案
int bfs(){
queue<node> q; //新建一个队列q
node now,next; //创建两个点,now和next
now = start;
memset(vis,0,sizeof(vis));//初始化 将vis数组全部值设置为false
vis[now.first][now.second] =true; //将走过的点进行标记
q.push(now);//将当前值压入队列
while(q.size()){
now = q.front(); //将第一个进入队列的元素赋值给now
q.pop();//去除第一个进入的元素
for(int i=0;i<4;i++){//探索四个方向的坐标
next.first = now.first + dx[i];
next.second = now.second + dy[i];
if(0<=next.first&&next.first<N&&0<=next.second&&next.second<M&&maze[next.first][next.second]=='.'&&vis[next.first][next.second]==false){
//不在边界且该点为'.'且该点的还未被访问时,将该点压入q队列中
sum++; //总数+1
q.push(next); //将该点压入队尾
vis[next.first][next.second] = true; //标记该点 为已访问点
}
}
}
return sum;
}
int main(){
while(1){
sum =0;
scanf("%d%d",&M,&N);
if(M==0||N==0) break;
for(int i=0;i<N;i++){
scanf("%s",&maze[i]);
for(int j=0;j<M;j++){
if(maze[i][j]=='@'){//找到起点位置
start.first = i;
start.second = j;
}
}
}
int res = bfs()+1;
printf("%d\n",res);
}
return 0;
}