Oil Deposits
Time Limit: 2000/1000 MS (Java/Others) Memory Limit: 65536/32768 K (Java/Others)
Total Submission(s): 20058 Accepted Submission(s): 11521
Problem Description
The
GeoSurvComp geologic survey company is responsible for detecting
underground oil deposits. GeoSurvComp works with one large rectangular
region of land at a time, and creates a grid that divides the land into
numerous square plots. It then analyzes each plot separately, using
sensing equipment to determine whether or not the plot contains oil. A
plot containing oil is called a pocket. If two pockets are adjacent,
then they are part of the same oil deposit. Oil deposits can be quite
large and may contain numerous pockets. Your job is to determine how
many different oil deposits are contained in a grid.
GeoSurvComp geologic survey company is responsible for detecting
underground oil deposits. GeoSurvComp works with one large rectangular
region of land at a time, and creates a grid that divides the land into
numerous square plots. It then analyzes each plot separately, using
sensing equipment to determine whether or not the plot contains oil. A
plot containing oil is called a pocket. If two pockets are adjacent,
then they are part of the same oil deposit. Oil deposits can be quite
large and may contain numerous pockets. Your job is to determine how
many different oil deposits are contained in a grid.
Input
The
input file contains one or more grids. Each grid begins with a line
containing m and n, the number of rows and columns in the grid,
separated by a single space. If m = 0 it signals the end of the input;
otherwise 1 <= m <= 100 and 1 <= n <= 100. Following this
are m lines of n characters each (not counting the end-of-line
characters). Each character corresponds to one plot, and is either `*',
representing the absence of oil, or `@', representing an oil pocket.
input file contains one or more grids. Each grid begins with a line
containing m and n, the number of rows and columns in the grid,
separated by a single space. If m = 0 it signals the end of the input;
otherwise 1 <= m <= 100 and 1 <= n <= 100. Following this
are m lines of n characters each (not counting the end-of-line
characters). Each character corresponds to one plot, and is either `*',
representing the absence of oil, or `@', representing an oil pocket.
Output
For
each grid, output the number of distinct oil deposits. Two different
pockets are part of the same oil deposit if they are adjacent
horizontally, vertically, or diagonally. An oil deposit will not contain
more than 100 pockets.
each grid, output the number of distinct oil deposits. Two different
pockets are part of the same oil deposit if they are adjacent
horizontally, vertically, or diagonally. An oil deposit will not contain
more than 100 pockets.
Sample Input
1 1
*
3 5
*@*@*
**@**
*@*@*
1 8
@@****@*
5 5
****@
*@@*@
*@**@
@@@*@
@@**@
0 0
*
3 5
*@*@*
**@**
*@*@*
1 8
@@****@*
5 5
****@
*@@*@
*@**@
@@@*@
@@**@
0 0
Sample Output
0
1
2
2
1
2
2
***********************************
#include <iostream>
#include<stdio.h>
#include<cstring>
#include<algorithm>
#include<vector>
#include<cmath>
#include<queue>
using namespace std;
int n,m,sum;
][];
][],dir[][]= {,,,-,-,,-,-,,,,,,-,-,};//因为还有斜对角
void dfs(int x,int y)
{
int tx,ty;
;i<;i++)
{
tx=x+dir[i][];
ty=y+dir[i][];
|| tx>=n || ty< || ty>=m) continue;
if(mapt[tx][ty]=='@')//将其周围@的符号全部改为*,开始搜索
{
mapt[tx][ty]='*';
dfs(tx,ty);
}
}
}
int main()
{
while(scanf("%d%d",&n,&m),n,m)
{
int i,j;
memset(vis,,sizeof(vis));
; i<n; i++)
{
scanf("%s",mapt[i]);
}
sum=;
;i<n;i++)
{
;j<m;j++)
{
if(mapt[i][j]=='@')
{
mapt[i][j]='*';
dfs(i,j);
sum++;
}
}
}
printf("%d\n",sum);
}
;
}