Toy Storage
| Time Limit: 1000MS | Memory Limit: 65536K | |
| Total Submissions: 3146 | Accepted: 1798 |
Description
Mom and dad have a problem: their child, Reza, never puts his toys away when he is finished playing with them. They gave Reza a rectangular box to put his toys in. Unfortunately, Reza is rebellious and obeys his parents by simply throwing his toys into the box. All the toys get mixed up, and it is impossible for Reza to find his favorite toys anymore.
Reza's parents came up with the following idea. They put cardboard
partitions into the box. Even if Reza keeps throwing his toys into the
box, at least toys that get thrown into different partitions stay
separate. The box looks like this from the top:
We want for each positive integer t, such that there exists a partition with t toys, determine how many partitions have t, toys.
Reza's parents came up with the following idea. They put cardboard
partitions into the box. Even if Reza keeps throwing his toys into the
box, at least toys that get thrown into different partitions stay
separate. The box looks like this from the top:
We want for each positive integer t, such that there exists a partition with t toys, determine how many partitions have t, toys.
Input
The
input consists of a number of cases. The first line consists of six
integers n, m, x1, y1, x2, y2. The number of cardboards to form the
partitions is n (0 < n <= 1000) and the number of toys is given in
m (0 < m <= 1000). The coordinates of the upper-left corner and
the lower-right corner of the box are (x1, y1) and (x2, y2),
respectively. The following n lines each consists of two integers Ui Li,
indicating that the ends of the ith cardboard is at the coordinates
(Ui, y1) and (Li, y2). You may assume that the cardboards do not
intersect with each other. The next m lines each consists of two
integers Xi Yi specifying where the ith toy has landed in the box. You
may assume that no toy will land on a cardboard.
input consists of a number of cases. The first line consists of six
integers n, m, x1, y1, x2, y2. The number of cardboards to form the
partitions is n (0 < n <= 1000) and the number of toys is given in
m (0 < m <= 1000). The coordinates of the upper-left corner and
the lower-right corner of the box are (x1, y1) and (x2, y2),
respectively. The following n lines each consists of two integers Ui Li,
indicating that the ends of the ith cardboard is at the coordinates
(Ui, y1) and (Li, y2). You may assume that the cardboards do not
intersect with each other. The next m lines each consists of two
integers Xi Yi specifying where the ith toy has landed in the box. You
may assume that no toy will land on a cardboard.
A line consisting of a single 0 terminates the input.
Output
For
each box, first provide a header stating "Box" on a line of its own.
After that, there will be one line of output per count (t > 0) of
toys in a partition. The value t will be followed by a colon and a
space, followed the number of partitions containing t toys. Output will
be sorted in ascending order of t for each box.
each box, first provide a header stating "Box" on a line of its own.
After that, there will be one line of output per count (t > 0) of
toys in a partition. The value t will be followed by a colon and a
space, followed the number of partitions containing t toys. Output will
be sorted in ascending order of t for each box.
Sample Input
4 10 0 10 100 0
20 20
80 80
60 60
40 40
5 10
15 10
95 10
25 10
65 10
75 10
35 10
45 10
55 10
85 10
5 6 0 10 60 0
4 3
15 30
3 1
6 8
10 10
2 1
2 8
1 5
5 5
40 10
7 9
0
Sample Output
Box
2: 5
Box
1: 4
2: 1
Source
这题和POJ 2318 是一样的
就是最后输出的内容不一样而已。
/************************************************************
* Author : kuangbin
* Email : kuangbin2009@126.com
* Last modified : 2013-07-13 17:15
* Filename : POJ2398TOYStorage.cpp
* Description :
* *********************************************************/ #include <iostream>
#include <stdio.h>
#include <string.h>
#include <algorithm>
#include <queue>
#include <map>
#include <vector>
#include <set>
#include <string>
#include <math.h> using namespace std;
struct Point
{
int x,y;
Point(){}
Point(int _x,int _y)
{
x = _x;y = _y;
}
Point operator -(const Point &b)const
{
return Point(x - b.x,y - b.y);
}
int operator *(const Point &b)const
{
return x*b.x + y*b.y;
}
int operator ^(const Point &b)const
{
return x*b.y - y*b.x;
}
};
struct Line
{
Point s,e;
Line(){}
Line(Point _s,Point _e)
{
s = _s;e = _e;
}
}; int xmult(Point p0,Point p1,Point p2) //计算p0p1 X p0p2
{
return (p1-p0)^(p2-p0);
}
const int MAXN = ;
Line line[MAXN];
int ans[MAXN];
int num[MAXN];
bool cmp(Line a,Line b)
{
return a.s.x < b.s.x;
}
int main()
{
//freopen("in.txt","r",stdin);
//freopen("out.txt","w",stdout);
int n,m,x1,y1,x2,y2;
while(scanf("%d",&n) == && n)
{
scanf("%d%d%d%d%d",&m,&x1,&y1,&x2,&y2);
int Ui,Li;
for(int i = ;i < n;i++)
{
scanf("%d%d",&Ui,&Li);
line[i] = Line(Point(Ui,y1),Point(Li,y2));
}
line[n] = Line(Point(x2,y1),Point(x2,y2));
sort(line,line+n+,cmp);
int x,y;
Point p;
memset(ans,,sizeof(ans));
while( m-- )
{
scanf("%d%d",&x,&y);
p = Point(x,y);
int l = ,r = n;
int tmp;
while( l <= r)
{
int mid = (l + r)/;
if(xmult(p,line[mid].s,line[mid].e) < )
{
tmp = mid;
r = mid - ;
}
else l = mid + ;
}
ans[tmp]++;
}
for(int i = ;i <= n;i++)
num[i] = ;
for(int i = ;i <= n;i++)
if(ans[i]>)
num[ans[i]]++;
printf("Box\n");
for(int i = ;i <= n;i++)
if(num[i]>)
printf("%d: %d\n",i,num[i]);
}
return ;
}