SGU 124. Broken line 射线法 eps的精准运用,计算几何 难度:3

时间:2023-03-09 00:09:49
SGU 124. Broken line 射线法 eps的精准运用,计算几何 难度:3

124. Broken line

time limit per test: 0.25 sec. 
memory limit per test: 4096 KB

There is a closed broken line on a plane with sides parallel to coordinate axes, without self-crossings and self-contacts. The broken line consists of K segments. You have to determine, whether a given point with coordinates (X0,Y0) is inside this closed broken line, outside or belongs to the broken line.

Input

The first line contains integer K (4 Ј K Ј 10000) - the number of broken line segments. Each of the following N lines contains coordinates of the beginning and end points of the segments (4 integerxi1,yi1,xi2,yi2; all numbers in a range from -10000 up to 10000 inclusive). Number separate by a space. The segments are given in random order. Last line contains 2 integers X0 and Y0 - the coordinates of the given point delimited by a space. (Numbers X0, Y0 in a range from -10000 up to 10000 inclusive).

Output

The first line should contain:

INSIDE - if the point is inside closed broken line,

OUTSIDE - if the point is outside,

BORDER - if the point belongs to broken line.

Sample Input

4

0 0 0 3

3 3 3 0

0 3 3 3

3 0 0 0

2 2

Sample Output

INSIDE
因为线条简单,所以随便射线法就行了,射线的"稍微移动",也就是对目标区间做半开半闭处理,可以用eps实现,很巧妙  
#include <cstdio>

#include <cstring>

#include <cmath>

#include <algorithm>

using namespace std;

const double eps=1e-9;

struct pnt{

    double x,y;

    pnt():x(0),y(0){}

    pnt(double tx,double ty):x(tx),y(ty){}

}p[20000][2],aim;

int n;

bool onborder(int ind){

    if(fabs(p[ind][0].y-p[ind][1].y)>eps){

        int low=min(p[ind][0].y,p[ind][1].y);

        int high=max(p[ind][0].y,p[ind][1].y);

        if(fabs(aim.x-p[ind][0].x)>eps)return false;

        return aim.y>low+eps&&aim.y+eps<high;

    }

    else {

        int low=min(p[ind][0].x,p[ind][1].x);

        int high=max(p[ind][0].x,p[ind][1].x);

        if(fabs(aim.y-p[ind][0].y)>eps)return false;

        return aim.x+eps>low&&aim.x<high+eps;

    }

}

bool cross(int ind){

    if(fabs(p[ind][0].y-p[ind][1].y)<eps)return false;

    if(aim.x+eps>p[ind][0].x)return false;

    int low=min(p[ind][0].y,p[ind][1].y);

    int high=max(p[ind][0].y,p[ind][1].y);

    return aim.y+eps>low&&eps+aim.y<high;//ATTENTION aim.y>=low&&aim<high

}

int main(){

    scanf("%d",&n);

    for(int i=0;i<n;i++){

        scanf("%lf%lf%lf%lf",&p[i][0].x,&p[i][0].y,&p[i][1].x,&p[i][1].y);

    }

    scanf("%lf%lf",&aim.x,&aim.y);

    int cnt=0;

    for(int i=0;i<n;i++){

        if(onborder(i)){puts("BORDER");return 0;}

        else if(cross(i))cnt++;

    }

    if(cnt&1)puts("INSIDE");

    else puts("OUTSIDE");

    return 0;

}

  

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