hdu 1892 See you~

See you~

Problem Description

Now I am leaving hust acm. In the past two and half years, I learned so many knowledge about Algorithm and Programming, and I met so many good friends. I want to say sorry to Mr, Yin, I must leave now ~~>.<~~. I am very sorry, we could not advanced to the World Finals last year. 
When coming into our training room, a lot of books are in my eyes. And every time the books are moving from one place to another one. Now give you the position of the books at the early of the day. And the moving information of the books the day, your work is to tell me how many books are stayed in some rectangles. 
To make the problem easier, we divide the room into different grids and a book can only stayed in one grid. The length and the width of the room are less than 1000. I can move one book from one position to another position, take away one book from a position or bring in one book and put it on one position. 

Input

In the first line of the input file there is an Integer T(1<=T<=10), which means the number of test cases in the input file. Then N test cases are followed. 
For each test case, in the first line there is an Integer Q(1<Q<=100,000), means the queries of the case. Then followed by Q queries. 
There are 4 kind of queries, sum, add, delete and move. 
For example: 
S x1 y1 x2 y2 means you should tell me the total books of the rectangle used (x1,y1)-(x2,y2) as the diagonal, including the two points.
A x1 y1 n1 means I put n1 books on the position (x1,y1) 
D x1 y1 n1 means I move away n1 books on the position (x1,y1), if less than n1 books at that position, move away all of them. 
M x1 y1 x2 y2 n1 means you move n1 books from (x1,y1) to (x2,y2), if less than n1 books at that position, move away all of them. 
Make sure that at first, there is one book on every grid and 0<=x1,y1,x2,y2<=1000,1<=n1<=100. 

Output

At the beginning of each case, output "Case X:" where X is the index of the test case, then followed by the "S" queries. 
For each "S" query, just print out the total number of books in that area. 

Sample Input

2
3
S 1 1 1 1
A 1 1 2
S 1 1 1 1
3
S 1 1 1 1
A 1 1 2
S 1 1 1 2

Sample Output

Case 1:
1
3
Case 2:
1
4

該題的話，是二維數組的應用，在 座標下每個位置都有一本書，

題目描述 有四個類別來操作。所以先初始化s數組。然後，因爲

後面有移走書本的操作，需要判斷移走的本數是否足夠，就定義個

a數組來記錄書本的本數，然後  就是 四種類別的判斷了。如果

是Q 就輸出 x1 -》x2位置的書本本數，由座標推得，

ans=sum(x2,y2)-sum(x2,y1-1)-sum(x1-1,y2)+sum(x1-1,y1-1)

。然後  就是 添減書本是 更新操作了，記得二維數組的座標是

從1開始的。故每組輸入 x y座標的時候，都要增1.

#include<stdio.h>
#include<algorithm>
#include<string.h>
using namespace std;
int ss[1005][1005]; //定義 保存書 
int a[1005][1005]; //記錄書 
int lowbit(int x)
{
	return x&(-x);
}

int sum(int x,int y)  //求和 
{
	int suM=0;
	for(int i=x;i>0;i-=lowbit(i))
	{
		for(int j=y;j>0;j-=lowbit(j))
		{
			suM+=ss[i][j];
		}
	}
	return suM;
}

void updata(int x,int y,int z) //加減 
{
	for(int i=x;i<1005;i+=lowbit(i))
	{
		for(int j=y;j<1005;j+=lowbit(j))
		{
			ss[i][j]+=z;
		}
	}
}
int main()
{
	int n,m,bbs;
	scanf("%d",&bbs);
	char ch[5];
	int k=1;
	while(bbs--)
	{
		printf("Case %d:\n",k++);
		memset(ss,0,sizeof(ss));
		for(int i=1;i<1005;i++)
		{
			for(int j=1;j<1005;j++)
			{
				a[i][j]=1;
				updata(i,j,1);
			}
		} 
		scanf("%d",&n);
		int x1,y1,x2,y2;
		while(n--)
		{
			scanf("%s",ch);
			int ans=0;
			if(ch[0]=='S')
			{
				scanf("%d%d%d%d",&x1,&y1,&x2,&y2);
				x1++;y1++;x2++;y2++;
				if(x1>x2) swap(x1,x2);
				if(y1>y2) swap(y1,y2);
				ans=sum(x1-1,y1-1)-sum(x2,y1-1)-sum(x1-1,y2)+sum(x2,y2);
				printf("%d\n",ans);
			}
			if(ch[0]=='A')
			{
				scanf("%d%d%d",&x1,&y1,&m);
				x1++;y1++;
				updata(x1,y1,m);
				a[x1][y1]+=m; //記錄值 看之後的添減是否足夠 
			}
			if(ch[0]=='D')
			{
				scanf("%d%d%d",&x1,&y1,&m);
				x1++;y1++;
				if(a[x1][y1]<m) m=a[x1][y1];
				a[x1][y1]-=m;
				updata(x1,y1,-m);
			}
			if(ch[0]=='M')
			{
				scanf("%d%d%d%d%d",&x1,&y1,&x2,&y2,&m);
				x1++;y1++;x2++;y2++;
				if(a[x1][y1]<m) m=a[x1][y1];
				a[x1][y1]-=m;
				a[x2][y2]+=m;
				updata(x1,y1,-m);
				updata(x2,y2,m);
			}			
		}
	}
	return 0;
}