Turn the corner
Time Limit: 3000/1000 MS (Java/Others) Memory Limit: 32768/32768 K (Java/Others)
Total Submission(s): 2229 Accepted Submission(s): 856
Problem Description
Mr. West bought a new car! So he is travelling around the city.
One day he comes to a vertical corner. The street he is currently in has a width x, the street he wants to turn to has a width y. The car has a length l and a width d.
Can Mr. West go across the corner?
One day he comes to a vertical corner. The street he is currently in has a width x, the street he wants to turn to has a width y. The car has a length l and a width d.
Can Mr. West go across the corner?
Input
Every line has four real numbers, x, y, l and w.
Proceed to the end of file.
Proceed to the end of file.
Output
If he can go across the corner, print "yes". Print "no" otherwise.
Sample Input
10 6 13.5 4
10 6 14.5 4
Sample Output
yes
no
题意:
已知汽车的长和宽,l和w。以及俩条路的宽为x和y。汽车所处道路宽为x 。问汽车是否能顺利转弯?
分析:汽车是否能顺利转弯取决于在极限情况下,随着角度的变化,汽车离对面路的距离是否大于等于0
如图中
在上图中须要计算转弯过程中h 的最大值是否小于等于y非常明显。随着角度θ的增大,最大高度h先增长后减小,即为凸性函数。能够用三分法来求解
代码:
#include<iostream>
#include<algorithm>
#include<math.h>
#include<cstdio>
using namespace std;
#define pi 3.141592653
double x,y,l,w;
double cal(double a)
{
double s=l*cos(a)+w*sin(a)-x;
double h=s*tan(a)+w*cos(a);
return h;
}
int main()
{
while(scanf("%lf %lf %lf %lf",&x,&y,&l,&w)!=EOF)
{
double left=0.0,right=pi/2;
double lm,rm;
while(fabs(right-left)>1e-6)
{
lm=(left*2.0+right)/3.0;
rm=(left+right*2.0)/3.0;
if(cal(lm)>cal(rm))
right=rm;
else left=lm;
}
if(cal(left)<=y)
printf("yes\n");
else printf("no\n");
}
return 0;
}