计算几何——线段和直线判交点poj3304

#include<iostream>
#include<cstring>
#include<cstdio>
#include<algorithm>
#include<cmath>
using namespace std;

const double esp = 1e-;
const double inf = 1e20;
const double pi = acos(-1.0);
const int maxp = ;

int sgn(double x){
    if(fabs(x) < esp)return ;
    if(x < )return -;
    else return ;
}
inline double sqr(double x){return x*x;}

struct Point{
    double x,y;
    Point(){}
    Point(double _x,double _y):x(_x),y(_y){}
    void input(){scanf("%lf%lf",&x,&y);}
    void output(){printf("%.2lf %.2lf\n",x,y);}
    bool operator==(Point b)const {
        return sgn(x-b.x)== && sgn(y-b.y)==;
    }
    bool operator < (Point b)const {//判左下
        if( sgn(x-b.x)== )  //横坐标相等
            return sgn(y-b.y)<;
        return x<b.x;
    }
    Point operator - (const Point &b)const {
        return Point(x-b.x,y-b.y);
    }
    double operator ^(const Point &b)const {
        return x*b.y-y*b.x;
    }
    double operator *(const Point &b)const {
        return x*b.x+y*b.y;
    }
    double len(){
        return hypot(x,y);
    }
    double len2(){
        return x*x+y*y;
    }
    double distance(Point p){
        return hypot(x-p.x,y-p.y);
    }
    Point operator +(const Point &b)const {
        return Point(x+b.x,y+b.y);
    }
    Point operator *(const double &k)const {
        return Point(x*k,y*k);
    }
    Point operator /(const double &k)const {
        return Point(x/k,y/k);
    }
    double rad(Point a,Point b){
        Point p=*this;
        return fabs(atan2( fabs((a-p)^(b-p)),(a-p)*(b-p) ));
    }
    Point trunc(double r){
        double l=len();
        if(!sgn(l))return *this;
        r/=l;
        return Point(x*r,y*r);
    }
    Point rotleft(){
        return Point(-y,x);
    }
    Point rotright(){
        return Point(y,-x);
    }
    Point rotate(Point p,double angle){
        Point v=(*this)-p;
        double c=cos(angle),s=sin(angle);
        return Point(p.x+v.x*c-v.y*s, p.y+v.x*s+v.y*c);
    }
};
struct Line{
    Point s,e;
    Line(){}
    Line(Point s,Point e):s(s),e(e){}
    bool operator ==(Line v){
        return (s==v.s) && (e==v.e);
    }
    Line(Point p,double angle){
        s=p;
        if(sgn(angle-pi/)==)
            e=s+Point(,);
        else e=s+Point(,tan(angle));
    }
    Line(double a,double b,double c){
        if(sgn(a)==){
            s=Point(,-c/b);
            e=Point(,-c/b);
        }
        else if(sgn(b)==){
            s=Point(-c/a,);
            e=Point(-c/a,);
        }
        else {
            s=Point(,-c/b);
            e=Point(,(-c-a)/b);
        }
    }
    void input(){
        s.input();
        e.input();
    }
    void adjust(){
        if(e<s)swap(e,s);
    }
    double length(){
        return s.distance(e);
    }
    double angle(){
        double k=atan2(e.y-s.y,e.x-s.x);
        if(sgn(k)<)k+=pi;
        if(sgn(k-pi)==) k-=pi;
        return k;
    }
    int relation(Point p){
        int c=sgn((p-s)^(e-s));
        if(c<)return ;
        else if(c>)return ;
        else return ;
    }
    bool pointonseg(Point p){
        return sgn((p-s)^(e-s))== && sgn((p-s)*(p-e))<=;
    }
    bool parallel(Line v){
        return sgn((e-s)^(v.e-v.s))==;
    }
    int segcrossseg(Line v){
        int d1=sgn((e-s)^(v.s-s));
        int d2=sgn((e-s)^(v.e-s));
        int d3=sgn((v.e-v.s)^(s-v.s));
        int d4=sgn((v.e-v.s)^(e-v.s));
        if( (d1^d2)==- && (d3^d4)==-) return ;
        return (d1== && sgn((v.s-s)*(v.s-e))<=) ||
            (d2== && sgn((v.e-s)*(v.e-e))<=) ||
            (d3== && sgn((s-v.s)^(s-v.e))<=) ||
            (d4== && sgn((e-v.s)^(e-v.e))<=);
    }
    int linecrossseg(Line v){
        int d1=sgn((e-s)^(v.s-s));
        int d2=sgn((e-s)^(v.e-s));
//cout<<(d1^d2)<<'\n';
        if((d1^d2)==-)return ;
        return d1== || d2==;
    }
    int linecrossline(Line v){
        if((*this).parallel(v))
            return v.relation(s)==;
        return ;
    }
    Point crosspoint(Line v){
        double a1=(v.e-v.s)^(s-v.s);//面积
        double a2=(v.e-v.s)^(e-v.s);
        return Point((s.x*a2-e.x*a1)/(a2-a1),
                        (s.y*a2-e.y*a1)/(a2-a1));
    }
    double dispointtoline(Point p){
        return fabs((p-s)^(e-s))/length();
    }
    double dispointtoseg(Point p){
        if(sgn((p-s)*(e-s))< || sgn((p-e)*(s-e))<)
            return min(p.distance(s),p.distance(e));
        return dispointtoline(p);
    }
    double dissegtoseg(Line v){
        return min(min(dispointtoseg(v.s),dispointtoseg(v.e)),
                    min(v.dispointtoline(s),v.dispointtoline(e)));
    }
    Point lineprog(Point p){//s+vt
        return s+( ((e-s)*((e-s)*(p-s)))/(e-s).len2() );
    }
    Point symmetrypoint(Point p){
        Point q=lineprog(p);
        return Point(*q.x-p.x,*q.y-p.y);
    }
};

//判断是否有一条直线，和所有线段都有交点
const int maxn = ;
Line line[maxn];
Point p[maxn];
int n;

int check(Line l){
    if(l.s==l.e)return ;
    for(int i=;i<n;i++)
        if(l.linecrossseg(line[i])==)return ;
    return ;
}

int main(){
    int t;
    cin>>t;
    while(t--){
        cin>>n;
        for(int i=;i<n;i++){
            double x1,y1,x2,y2;
            cin>>x1>>y1>>x2>>y2;
            line[i]=Line(Point(x1,y1),Point(x2,y2));
        }

        int flag=;
        for(int i=;i<n;i++)
            for(int j=;j<n;j++)
                if(!flag){
                    Line line1=Line(line[i].s,line[j].s);
                    Line line2=Line(line[i].s,line[j].e);
                    Line line3=Line(line[i].e,line[j].s);
                    Line line4=Line(line[i].e,line[j].e);
                    if(check(line1) || check(line2) ||
                        check(line3) || check(line4)){
                            flag=;
                        }
                }
        if(flag)puts("Yes!");
        else puts("No!");
    }
}