Fishnet
Time Limit: 1000MS | Memory Limit: 10000K | |
Total Submissions: 1911 | Accepted: 1227 |
Description
A fisherman named Etadokah awoke in a very small island. He could see calm, beautiful and blue sea around the island. The previous night he had encountered a terrible storm and had reached this uninhabited island. Some wrecks of
his ship were spread around him. He found a square wood-frame and a long thread among the wrecks. He had to survive in this island until someone came and saved him.
In order to catch fish, he began to make a kind of fishnet by cutting the long thread into short threads and fixing them at pegs on the square wood-frame. He wanted to know the sizes of the meshes of the fishnet to see whether he could catch small fish as well as large ones.
The wood frame is perfectly square with four thin edges on meter long: a bottom edge, a top edge, a left edge, and a right edge. There are n pegs on each edge, and thus there are 4n pegs in total. The positions of pegs are represented by their (x,y)-coordinates. Those of an example case with n=2 are depicted in figures below. The position of the ith peg on the bottom edge is represented by (ai,0). That on the top edge, on the left edge and on the right edge are represented by (bi,1), (0,ci) and (1,di), respectively. The long thread is cut into 2n threads with appropriate lengths. The threads are strained between (ai,0) and (bi,1),and between (0,ci) and (1,di) (i=1,...,n).
You should write a program that reports the size of the largest mesh among the (n+1)2 meshes of the fishnet made by fixing the threads at the pegs. You may assume that the thread he found is long enough to make the fishnet and the wood-frame is thin enough for neglecting its thickness.
In order to catch fish, he began to make a kind of fishnet by cutting the long thread into short threads and fixing them at pegs on the square wood-frame. He wanted to know the sizes of the meshes of the fishnet to see whether he could catch small fish as well as large ones.
The wood frame is perfectly square with four thin edges on meter long: a bottom edge, a top edge, a left edge, and a right edge. There are n pegs on each edge, and thus there are 4n pegs in total. The positions of pegs are represented by their (x,y)-coordinates. Those of an example case with n=2 are depicted in figures below. The position of the ith peg on the bottom edge is represented by (ai,0). That on the top edge, on the left edge and on the right edge are represented by (bi,1), (0,ci) and (1,di), respectively. The long thread is cut into 2n threads with appropriate lengths. The threads are strained between (ai,0) and (bi,1),and between (0,ci) and (1,di) (i=1,...,n).
You should write a program that reports the size of the largest mesh among the (n+1)2 meshes of the fishnet made by fixing the threads at the pegs. You may assume that the thread he found is long enough to make the fishnet and the wood-frame is thin enough for neglecting its thickness.
Input
The input consists of multiple sub-problems followed by a line containing a zero that indicates the end of input. Each sub-problem is given in the following format.
n
a1 a2 ... an
b1 b2 ... bn
c1 c2 ... cn
d1 d2 ... dn
you may assume 0 < n <= 30, 0 < ai,bi,ci,di < 1
n
a1 a2 ... an
b1 b2 ... bn
c1 c2 ... cn
d1 d2 ... dn
you may assume 0 < n <= 30, 0 < ai,bi,ci,di < 1
Output
For each sub-problem, the size of the largest mesh should be printed followed by a new line. Each value should be represented by 6 digits after the decimal point, and it may not have an error greater than 0.000001.
Sample Input
2 0.2000000 0.6000000 0.3000000 0.8000000 0.1000000 0.5000000 0.5000000 0.6000000 2 0.3333330 0.6666670 0.3333330 0.6666670 0.3333330 0.6666670 0.3333330 0.6666670 4 0.2000000 0.4000000 0.6000000 0.8000000 0.1000000 0.5000000 0.6000000 0.9000000 0.2000000 0.4000000 0.6000000 0.8000000 0.1000000 0.5000000 0.6000000 0.9000000 2 0.5138701 0.9476283 0.1717362 0.1757412 0.3086521 0.7022313 0.2264312 0.5345343 1 0.4000000 0.6000000 0.3000000 0.5000000 0
Sample Output
0.215657 0.111112 0.078923 0.279223 0.348958
Source
Japan 2001
记录每一个交点,暴力枚举相邻的四个点,计算面积
记录每一个交点,暴力枚举相邻的四个点,计算面积
#include <iostream> #include <cstdio> #include <cmath> #include <stack> #include <algorithm> using namespace std; const int INF = 0x3f3f3f3f; const double Pi = 3.141592654; struct node { double x; double y; } Map[35][35]; int n; double x,y; double det(double x1,double y1,double x2,double y2)//计算叉积 { return x1*y2-x2*y1; } double cross(node a,node b,node c) { return det(b.x-a.x,b.y-a.y,c.x-a.x,c.y-a.y); } void intersection(node a,node b,node c,node d)//计算交点坐标 { double area1=cross(a,b,c); double area2=cross(a,b,d); x=(area2*c.x-area1*d.x)/(area2-area1); y=(area2*c.y-area1*d.y)/(area2-area1); } double area(node a,node b,node c,node d)//计算四点围成图形的面积 { double area1=0.5*fabs(cross(a,d,c)); double area2=0.5*fabs(cross(a,d,b)); return area1+area2; } int main() { while(scanf("%d",&n)&&n) { Map[0][0].x=0; Map[0][0].y=0; Map[n+1][0].x=1.0; Map[n+1][0].y=0; Map[0][n+1].x=0; Map[0][n+1].y=1.0; Map[n+1][n+1].x=1.0; Map[n+1][n+1].y=1.0; for(int i=1; i<=n; i++) { scanf("%lf",&Map[i][0].x); Map[i][0].y=0; } for(int i=1; i<=n; i++) { scanf("%lf",&Map[i][n+1].x); Map[i][n+1].y=1.0; } for(int i=1; i<=n; i++) { scanf("%lf",&Map[0][i].y); Map[0][i].x=0; } for(int i=1; i<=n; i++) { scanf("%lf",&Map[n+1][i].y); Map[n+1][i].x=1.0; } for(int i=1; i<=n; i++)//计算交点 { for(int j=1; j<=n; j++) { intersection(Map[i][0],Map[i][n+1],Map[0][j],Map[n+1][j]); Map[i][j].x=x; Map[i][j].y=y; } } double Maxarea=0; for(int i=0; i<=n; i++)//枚举最大的面积 { for(int j=0; j<=n; j++) { Maxarea=max(Maxarea,area(Map[i][j],Map[i+1][j],Map[i][j+1],Map[i+1][j+1])); } } printf("%.6f ",Maxarea); } return 0; }