题目描述:
They say "years are like dominoes, tumbling one after the other". But would a year fit into a grid? I don't think so.
Limak is a little polar bear who loves to play. He has recently got a rectangular grid with h rows and w columns. Each cell is a square, either empty (denoted by '.') or forbidden (denoted by '#'). Rows are numbered 1 through h from top to bottom. Columns are numbered 1 through w from left to right.
Also, Limak has a single domino. He wants to put it somewhere in a grid. A domino will occupy exactly two adjacent cells, located either in one row or in one column. Both adjacent cells must be empty and must be inside a grid.
Limak needs more fun and thus he is going to consider some queries. In each query he chooses some rectangle and wonders, how many way are there to put a single domino inside of the chosen rectangle?
Input:
The first line of the input contains two integers h and w (1 ≤ h, w ≤ 500) – the number of rows and the number of columns, respectively.
The next h lines describe a grid. Each line contains a string of the length w. Each character is either '.' or '#' — denoting an empty or forbidden cell, respectively.
The next line contains a single integer q (1 ≤ q ≤ 100 000) — the number of queries.
Each of the next q lines contains four integers r1i, c1i, r2i, c2i (1 ≤ r1i ≤ r2i ≤ h, 1 ≤ c1i ≤ c2i ≤ w) — the i-th query. Numbers r1i and c1i denote the row and the column (respectively) of the upper left cell of the rectangle. Numbers r2i and c2idenote the row and the column (respectively) of the bottom right cell of the rectangle.
Output:
Print q integers, i-th should be equal to the number of ways to put a single domino inside the i-th rectangle.
Examples:
Input:
5 8
....#..#
.#......
##.#....
##..#.##
........
4
1 1 2 3
4 1 4 1
1 2 4 5
2 5 5 8
Output:
4
0
10
15
Input:
7 39
.......................................
.###..###..#..###.....###..###..#..###.
...#..#.#..#..#.........#..#.#..#..#...
.###..#.#..#..###.....###..#.#..#..###.
.#....#.#..#....#.....#....#.#..#..#.#.
.###..###..#..###.....###..###..#..###.
.......................................
6
1 1 3 20
2 10 6 30
2 10 7 30
2 2 7 7
1 7 7 7
1 8 7 8
Output:
53
89
120
23
0
2
Note:
A red frame below corresponds to the first query of the first sample. A domino can be placed in 4 possible ways.
题目大意:n行m列,q次询问,然后问询问区间内 左右两连点 和上下两连点有多少个。
最大的矩形前缀和就等于蓝的矩阵加上绿的矩阵,再减去重叠面积,最后加上小方块,即
sum[i][j] = sum[i][j - 1] + sum[i - 1][j] - sum[i - 1][j - 1] + a[i][j]
https://www.cnblogs.com/mrclr/p/8423136.html
#include<iostream>
using namespace std;
char a[510][510];
int x[510][510],y[510][510],m,n,q,x1,x2,y1,y2,ans;
int main()
{
cin>>n>>m;
for(int i=1;i<=n;i++)
for(int j=1;j<=m;j++)
cin>>a[i][j];
for(int i=1;i<=n;i++)
for(int j=1;j<=m;j++)
{
if(a[i][j]=='.')
{
if(a[i-1][j]=='.')x[i][j]++;
if(a[i][j-1]=='.')y[i][j]++;
}
x[i][j]+=x[i-1][j]+x[i][j-1]-x[i-1][j-1];//前缀和的重要公式 看a图
y[i][j]+=y[i-1][j]+y[i][j-1]-y[i-1][j-1];//前缀和的重要公式 看a图
}
cin>>q;
while(q--)
{
ans=0;
cin >> x1 >> y1 >> x2 >> y2;
ans+= x[x2][y2] - x[x1][y2] - x[x2][y1 - 1] + x[x1][y1-1];//看b图
ans+= y[x2][y2] - y[x2][y1] - y[x1 - 1][y2] + y[x1-1][y1];//看b图
cout << ans << endl;
}
return 0;
}