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ID题目提交者结果用时内存语言文件大小提交时间测评时间
#726432#9581. 都市叠高lonelywolf#AC ✓24ms4200kbC++2027.5kb2024-11-09 00:25:352024-11-09 00:25:35

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  • [2024-11-09 00:25:35]
  • 评测
  • 测评结果:AC
  • 用时:24ms
  • 内存:4200kb
  • [2024-11-09 00:25:35]
  • 提交

answer

#include <bits/stdc++.h>
using namespace std;
using db = double;

mt19937 eng(time(0));

const db eps=1e-6;
const db pi=acos(-1);
int sgn(db k) {
    if (k > eps) return 1; 
    else if (k < -eps) return -1; 
    return 0;
}
// -1: < | 0: == | 1: >
int cmp(db k1, db k2) { return sgn(k1 - k2); }
// k3 in [k1, k2]
int inmid(db k1, db k2, db k3) { return sgn(k1-k3) * sgn(k2-k3) <= 0; }
// 点 (x, y)
struct point{
    db x, y;
    point operator + (const point &k1) const { return (point){k1.x+x,k1.y+y}; }
    point operator - (const point &k1) const { return (point){x-k1.x,y-k1.y}; }
    point operator * (db k1) const { return (point){x*k1,y*k1}; }
    point operator / (db k1) const { return (point){x/k1,y/k1}; }
    int operator == (const point &k1) const { return cmp(x,k1.x)==0&&cmp(y,k1.y)==0; }
    // 逆时针旋转 k1 弧度 
    point rotate(db k1) {return (point){x*cos(k1)-y*sin(k1),x*sin(k1)+y*cos(k1)};}
    // 逆时针旋转 90°
    point rotleft() { return (point){-y,x}; }
    // 优先比较 x 坐标
    bool operator < (const point k1) const {
        int a=cmp(x,k1.x);
        if (a==-1) return 1; else if (a==1) return 0; else return cmp(y,k1.y)==-1;
    }
    // 模长
    db abs() { return sqrt(x*x+y*y); }
    // 模长的平方
    db abs2() { return x*x+y*y; }
    // 与点 k1 的距离
    db dis(point k1) {return ((*this)-k1).abs();}
    // 化为单位向量, require: abs() > 0
    point unit() {db w=abs(); return (point){x/w,y/w};}
    // 读入
    void scan() {double k1,k2; scanf("%lf%lf",&k1,&k2); x=k1; y=k2;}
    // 输出
    void print() {printf("%.11lf %.11lf\n",x,y);}
    // 方向角 atan2(y, x)
    db getw() {return atan2(y,x);} 
    // 将向量对称到 (-pi, pi] 半平面中
    point getdel() {if (sgn(x)==-1||(sgn(x)==0&&sgn(y)==-1)) return (*this)*(-1); else return (*this);}
    // (-pi, 0] -> 0, (0, pi] -> 1
	int getP() const {return sgn(y)==1||(sgn(y)==0&&sgn(x)==-1);}
};

/* 点与线段的位置关系及交点 */

// k3 在 矩形 [k1, k2] 中
int inmid(point k1,point k2,point k3){ return inmid(k1.x,k2.x,k3.x) && inmid(k1.y,k2.y,k3.y); }
db cross(point k1,point k2) { return k1.x*k2.y-k1.y*k2.x; }
db dot(point k1,point k2) { return k1.x*k2.x+k1.y*k2.y; }
// 从 k1 转到 k2 的方向角
db rad(point k1,point k2) {return atan2(cross(k1,k2),dot(k1,k2)); }
// k1 k2 k3 逆时针 1 顺时针 -1 否则 0  
int clockwise(point k1,point k2,point k3){
    return sgn(cross(k2-k1,k3-k1));
}
// 按 (-pi, pi] 顺序进行极角排序
int cmpangle (point k1,point k2){
    return k1.getP()< k2.getP()||(k1.getP()==k2.getP()&&sgn(cross(k1,k2))>0);
}
// 点 q 在线段 k1, k2 上
int onS(point k1,point k2,point q){return inmid(k1,k2,q)&&sgn(cross(k1-q,k2-k1))==0;}
// q 到直线 k1,k2 的投影 
point proj(point k1,point k2,point q) {
    point k=k2-k1; return k1+k*(dot(q-k1,k)/k.abs2());
}
// q 关于直线 k1,k2 的镜像 
point reflect(point k1,point k2,point q) {return proj(k1,k2,q)*2-q;}
// 判断 直线 (k1, k2) 和 直线 (k3, k4) 是否相交
int checkLL(point k1,point k2,point k3,point k4){
    return cmp(cross(k3-k1,k4-k1),cross(k3-k2,k4-k2))!=0;
}
// 求直线 (k1, k2) 和 直线 (k3, k4) 的交点 
point getLL(point k1,point k2,point k3,point k4){
    db w1=cross(k1-k3,k4-k3),w2=cross(k4-k3,k2-k3); 
    return (k1*w2+k2*w1)/(w1+w2);
}
int intersect(db l1,db r1,db l2,db r2){
    if (l1>r1) swap(l1,r1); if (l2>r2) swap(l2,r2); return cmp(r1,l2)!=-1&&cmp(r2,l1)!=-1;
}
// 线段与线段相交判断(非严格相交)
int checkSS(point k1,point k2,point k3,point k4){
    return intersect(k1.x,k2.x,k3.x,k4.x)&&intersect(k1.y,k2.y,k3.y,k4.y)&&
    sgn(cross(k3-k1,k4-k1))*sgn(cross(k3-k2,k4-k2))<=0&&
    sgn(cross(k1-k3,k2-k3))*sgn(cross(k1-k4,k2-k4))<=0;
}
// 点 q 到 直线 (k1, k2) 的距离
db disLP(point k1, point k2, point q) {
    return fabs(cross(k1-q, k2-q)) / k1.dis(k2);
}
// 点 q 到 线段 (k1, k2) 的距离
db disSP(point k1,point k2,point q){
    point k3=proj(k1,k2,q);
    if (inmid(k1,k2,k3)) return q.dis(k3); else return min(q.dis(k1),q.dis(k2));
}
// 线段 (k1, k2) 到 线段 (k3, k4) 的距离
db disSS(point k1,point k2,point k3,point k4){
    if (checkSS(k1,k2,k3,k4)) return 0;
    else return min(min(disSP(k1,k2,k3),disSP(k1,k2,k4)),min(disSP(k3,k4,k1),disSP(k3,k4,k2)));
}

/* 直线与半平面交 */

// 直线 p[0] -> p[1]
struct line {
    point p[2];
    line() {}
    line(point k1, point k2) {p[0]=k1; p[1]=k2;}
    point& operator [] (int k) {return p[k];}
    // k 严格位于直线左侧 / 半平面 p[0] -> p[1]
    int include(point k){return sgn(cross(p[1]-p[0],k-p[0]))>0;}
    // 方向向量
    point dir() {return p[1]-p[0];}
    // 向左平移 d, 默认为 eps 
    line push(db d = eps) {
        point delta=(p[1]-p[0]).rotleft().unit()*d;
        return {p[0]+delta,p[1]+delta};
    }
};
// 直线与直线交点
point getLL(line k1,line k2){return getLL(k1[0],k1[1],k2[0],k2[1]);}
// 两直线平行
int parallel(line k1,line k2){return sgn(cross(k1.dir(),k2.dir()))==0;}
// 平行且同向
int sameDir(line k1,line k2){return parallel(k1,k2)&&sgn(dot(k1.dir(),k2.dir()))==1;}
// 同向则左侧优先,否则按极角排序,用于半平面交
int operator < (line k1,line k2){
    if (sameDir(k1,k2)) return k2.include(k1[0]); 
    return cmpangle(k1.dir(),k2.dir());
}
// k3 (半平面) 包含 k1,k2 的交点, 用于半平面交
int checkpos(line k1,line k2,line k3) {return k3.include(getLL(k1,k2));}
// 求半平面交, 半平面是逆时针方向, 输出按照逆时针
vector<line> getHL(vector<line> L) {
    sort(L.begin(),L.end()); deque<line> q;
    for (int i = 0; i < (int)L.size(); i++) {
        if (i&&sameDir(L[i],L[i-1])) continue;
        while (q.size()>1&&!checkpos(q[q.size()-2],q[q.size()-1],L[i])) q.pop_back();
        while (q.size()>1&&!checkpos(q[1],q[0],L[i])) q.pop_front();
        q.push_back(L[i]);
    }
    while (q.size()>2&&!checkpos(q[q.size()-2],q[q.size()-1],q[0])) q.pop_back();
    while (q.size()>2&&!checkpos(q[1],q[0],q[q.size()-1])) q.pop_front();
    vector<line>ans; for (int i=0;i<q.size();i++) ans.push_back(q[i]);
    return ans;
}
db closepoint(vector<point>&A,int l,int r){ // 最近点对 , 先要按照 x 坐标排序 
    if (r-l<=5){
        db ans=1e20;
        for (int i=l;i<=r;i++) for (int j=i+1;j<=r;j++) ans=min(ans,A[i].dis(A[j]));
        return ans;
    }
    int mid=l+r>>1; db ans=min(closepoint(A,l,mid),closepoint(A,mid+1,r));
    vector<point>B; for (int i=l;i<=r;i++) if (abs(A[i].x-A[mid].x)<=ans) B.push_back(A[i]);
    sort(B.begin(),B.end(),[](point k1,point k2){return k1.y<k2.y;});
    for (int i=0;i<B.size();i++) for (int j=i+1;j<B.size()&&B[j].y-B[i].y<ans;j++) ans=min(ans,B[i].dis(B[j]));
    return ans;
}

/* 圆基础操作 */

// 圆 (o, r)
struct circle{
    point o; db r;
    void scan(){o.scan(); scanf("%lf",&r);}
    int inside(point k){return cmp(r,o.dis(k));}
};

// 两圆位置关系(两圆公切线数量)
int checkposCC(circle k1,circle k2) {
    if (cmp(k1.r,k2.r)==-1) swap(k1,k2);
    db dis=k1.o.dis(k2.o);  int w1=cmp(dis,k1.r+k2.r),w2=cmp(dis,k1.r-k2.r);
    if (w1>0) return 4; else if (w1==0) return 3; else if (w2>0) return 2; 
    else if (w2==0) return 1; else return 0;
}
// 直线与圆交点,沿 k2->k3 方向给出, 相切给出两个 
vector<point> getCL(circle k1,point k2,point k3){
    point k=proj(k2,k3,k1.o); db d=k1.r*k1.r-(k-k1.o).abs2();
    if (sgn(d)==-1) return {};
    point del=(k3-k2).unit()*sqrt(max((db)0.0,d)); return {k-del,k+del};
}
// 两圆交点,沿圆 k1 逆时针给出, 相切给出两个 
vector<point> getCC(circle k1,circle k2){
    int pd=checkposCC(k1,k2); if (pd==0||pd==4) return {};
    db a=(k2.o-k1.o).abs2(),cosA=(k1.r*k1.r+a-k2.r*k2.r)/(2*k1.r*sqrt(max(a,(db)0.0)));
    db b=k1.r*cosA,c=sqrt(max((db)0.0,k1.r*k1.r-b*b));
    point k=(k2.o-k1.o).unit(),m=k1.o+k*b,del=k.rotleft()*c;
    return {m-del,m+del};
} 
// 点到圆的切点,沿圆 k1 逆时针给出, 注意未判位置关系!! 
vector<point> TangentCP(circle k1,point k2){
    db a=(k2-k1.o).abs(), b=k1.r*k1.r/a, c=sqrt(max((db)0.0,k1.r*k1.r-b*b));
    point k=(k2-k1.o).unit(), m=k1.o+k*b, del=k.rotleft()*c;
    return {m-del, m+del};
} 
// 外公切线
vector<line> TangentoutCC(circle k1,circle k2){
    int pd=checkposCC(k1,k2); if (pd==0) return {}; 
    if (pd==1){point k=getCC(k1,k2)[0]; return {(line){k,k}};}
    if (cmp(k1.r,k2.r)==0){
        point del=(k2.o-k1.o).unit().rotleft().getdel();
        return {(line){k1.o-del*k1.r,k2.o-del*k2.r},(line){k1.o+del*k1.r,k2.o+del*k2.r}};
    } else {
        point p=(k2.o*k1.r-k1.o*k2.r)/(k1.r-k2.r);
        vector<point>A=TangentCP(k1,p),B=TangentCP(k2,p);
        vector<line>ans; for (int i=0;i<A.size();i++) ans.push_back((line){A[i],B[i]}); 
        return ans;
    }
}
// 内公切线
vector<line> TangentinCC(circle k1,circle k2){
    int pd=checkposCC(k1,k2); if (pd<=2) return {};
    if (pd==3){point k=getCC(k1,k2)[0]; return {(line){k,k}};} 
    point p=(k2.o*k1.r+k1.o*k2.r)/(k1.r+k2.r);
    vector<point>A=TangentCP(k1,p),B=TangentCP(k2,p);
    vector<line>ans; for (int i=0;i<A.size();i++) ans.push_back((line){A[i],B[i]}); 
    return ans;
}
// 所有公切线
vector<line> TangentCC(circle k1,circle k2){
    int flag=0; if (k1.r<k2.r) swap(k1,k2),flag=1;
    vector<line>A=TangentoutCC(k1,k2),B=TangentinCC(k1,k2);
    for (line k:B) A.push_back(k); 
    if (flag) for (line &k:A) swap(k[0],k[1]);
    return A;
}
// 圆 k1 与三角形 k2 k3 k1.o 的有向面积交
db getarea(circle k1,point k2,point k3){
    point k=k1.o; k1.o=k1.o-k; k2=k2-k; k3=k3-k;
    int pd1=k1.inside(k2),pd2=k1.inside(k3); 
    vector<point>A=getCL(k1,k2,k3);
    if (pd1>=0){
        if (pd2>=0) return cross(k2,k3)/2;
        return k1.r*k1.r*rad(A[1],k3)/2+cross(k2,A[1])/2;
    } else if (pd2>=0){ 
        return k1.r*k1.r*rad(k2,A[0])/2+cross(A[0],k3)/2;
    }else {
        int pd=cmp(k1.r,disSP(k2,k3,k1.o));
        if (pd<=0) return k1.r*k1.r*rad(k2,k3)/2;
        return cross(A[0],A[1])/2+k1.r*k1.r*(rad(k2,A[0])+rad(A[1],k3))/2;
    }
}
// 多边形与圆面积交
db getarea(vector<point> A, circle c) {
    int n = A.size(); 
    if(n <= 2) return 0.0;
    A.push_back(A[0]);
    db res = 0.0;
    for(int i = 0; i < n; i++) {
        point k1 = A[i], k2 = A[i+1];
        res += getarea(c, k1, k2);
    }
    return fabs(res);
}
// 三角形外接圆
circle getcircle(point k1,point k2,point k3){
    db a1=k2.x-k1.x,b1=k2.y-k1.y,c1=(a1*a1+b1*b1)/2;
    db a2=k3.x-k1.x,b2=k3.y-k1.y,c2=(a2*a2+b2*b2)/2;
    db d=a1*b2-a2*b1;
    point o=(point){k1.x+(c1*b2-c2*b1)/d,k1.y+(a1*c2-a2*c1)/d};
    return (circle){o,k1.dis(o)};
}
// 最小圆覆盖
circle getScircle(vector<point> A){
    shuffle(A.begin(), A.end(), eng);
    circle ans=(circle){A[0],0};
    for (int i=1;i<A.size();i++)
        if (ans.inside(A[i])==-1){
            ans=(circle){A[i],0};
            for (int j=0;j<i;j++)
                if (ans.inside(A[j])==-1){
                    ans.o=(A[i]+A[j])/2; ans.r=ans.o.dis(A[i]);
                    for (int k=0;k<j;k++)
                        if (ans.inside(A[k])==-1)
                            ans=getcircle(A[i],A[j],A[k]);
                }
        }
    return ans;
}

/* 多边形 */

// 多边形有向面积
db area(vector<point> A){
    db ans=0;
    for (int i=0;i<A.size();i++) ans+=cross(A[i],A[(i+1)%A.size()]);
    return ans/2;
}
// 判断是否为逆时针凸包
int checkconvex(vector<point>A) {
    int n=A.size(); A.push_back(A[0]); A.push_back(A[1]);
    for (int i=0;i<n;i++) if (sgn(cross(A[i+1]-A[i],A[i+2]-A[i]))==-1) return 0;
    return 1;
}
// 点与简单多边形位置关系:2 内部 1 边界 0 外部
int contain(vector<point>A,point q) {
    int pd=0; A.push_back(A[0]);
    for (int i=1;i<A.size();i++){
        point u=A[i-1],v=A[i];
        if (onS(u,v,q)) return 1; if (cmp(u.y,v.y)>0) swap(u,v);
        if (cmp(u.y,q.y)>=0||cmp(v.y,q.y)<0) continue;
        if (sgn(cross(u-v,q-v))<0) pd^=1;
    }
    return pd<<1;
}
// flag=0 不严格 flag=1 严格 
vector<point> ConvexHull(vector<point> A, int flag = 1) {
    int n = A.size();
    if(n == 1) return A;
    if(n == 2) {
        if(A[0] == A[1]) return {A[0]};
        else return A;
    }
    vector<point> ans(n * 2);
    sort(A.begin(), A.end()); int now = -1;
    for(int i = 0; i < A.size(); i++) {
        while (now > 0 && sgn(cross(ans[now]-ans[now-1], A[i]-ans[now-1])) < flag) now--;
        ans[++now] = A[i];
    } int pre = now;
    for(int i = n - 2; i >= 0; i--) {
        while (now > pre && sgn(cross(ans[now]-ans[now-1], A[i]-ans[now-1])) < flag) now--;
        ans[++now] = A[i];
    }
    ans.resize(now);
    return ans;
}
// 凸包直径
db convexDiameter(vector<point>A){
    int now=0,n=A.size(); db ans=0;
    for (int i=0;i<A.size();i++){
        now=max(now,i);
        while (1){
            db k1=A[i].dis(A[now%n]),k2=A[i].dis(A[(now+1)%n]);
            ans=max(ans,max(k1,k2)); if (k2>k1) now++; else break;
        }
    }
    return ans;
}
// 直线切凸包,保留 k1,k2,p 逆时针的所有点
vector<point> convexcut(vector<point>A,point k1,point k2){
    int n=A.size(); A.push_back(A[0]); vector<point>ans;
    for (int i=0;i<n;i++){
        int w1=clockwise(k1,k2,A[i]),w2=clockwise(k1,k2,A[i+1]);
        if (w1>=0) ans.push_back(A[i]);
        if (w1*w2<0) ans.push_back(getLL(k1,k2,A[i],A[i+1]));
    }
    return ans;
}
// 多边形 A 和 直线 (线段) k1->k2 严格相交, 注释部分为线段
int checkPoS(vector<point>A,point k1,point k2) {
    struct ins{
        point m,u,v;
        int operator < (const ins& k) const {return m<k.m;}
    }; vector<ins>B;
    //if (contain(A,k1)==2||contain(A,k2)==2) return 1;
    vector<point>poly=A; A.push_back(A[0]); 
    for (int i=1;i<A.size();i++) if (checkLL(A[i-1],A[i],k1,k2)){
        point m=getLL(A[i-1],A[i],k1,k2); 
        if (inmid(A[i-1],A[i],m)/*&&inmid(k1,k2,m)*/) B.push_back((ins){m,A[i-1],A[i]});
    }
    if (B.size()==0) return 0; sort(B.begin(),B.end()); 
    int now=1; while (now<B.size()&&B[now].m==B[0].m) now++; 
    if (now==B.size()) return 0;
    int flag=contain(poly,(B[0].m+B[now].m)/2);
    if (flag==2) return 1;
    point d=B[now].m-B[0].m;
    for (int i=now;i<B.size();i++){
        if (!(B[i].m==B[i-1].m)&&flag==2) return 1;
        int tag=sgn(cross(B[i].v-B[i].u,B[i].m+d-B[i].u));
        if (B[i].m==B[i].u||B[i].m==B[i].v) flag+=tag; else flag+=tag*2;
    }
    //return 0;
    return flag==2;
}
int checkinp(point r,point l,point m){
	if (cmpangle(l,r)){return cmpangle(l,m)&&cmpangle(m,r);}
	return cmpangle(l,m)||cmpangle(m,r);
}
// 快速检查线段是否和多边形严格相交
int checkPosFast(vector<point>A,point k1,point k2){
	if (contain(A,k1)==2||contain(A,k2)==2) return 1; if (k1==k2) return 0;
	A.push_back(A[0]); A.push_back(A[1]);
	for (int i=1;i+1<A.size();i++)
		if (checkLL(A[i-1],A[i],k1,k2)){
			point now=getLL(A[i-1],A[i],k1,k2);
			if (inmid(A[i-1],A[i],now)==0||inmid(k1,k2,now)==0) continue;
			if (now==A[i]){
				if (A[i]==k2) continue;
				point pre=A[i-1],ne=A[i+1];
				if (checkinp(pre-now,ne-now,k2-now)) return 1;
			} else if (now==k1){
				if (k1==A[i-1]||k1==A[i]) continue;
				if (checkinp(A[i-1]-k1,A[i]-k1,k2-k1)) return 1;
			} else if (now==k2||now==A[i-1]) continue;
			else return 1;
		}
	return 0;
}

/* 普通凸包中的二分 */

// 求经过点 x 切凸包 A 的两个切点,返回下标。方向:A 上 [fi, se] 为点 x 能看到的区域。
// 需要保证 x 严格在凸包 A 外侧,A 的点数 >= 3
// 需要保证 A 是严格凸包,即无三点共线
pair<int, int> getTangentCoP(const vector<point>& A, point x) {
    int sz = A.size(); assert(sz >= 3);
    int res[2];
    int flag = 1;
    if(clockwise(A[sz - 1], A[0], x) == -1) flag = -1;
    int l = 0, r = sz - 1, ans = 0;
    while(l < r) {
        int mid = ((l + r) >> 1);
        if(clockwise(A[mid], A[mid + 1], x) == flag && clockwise(A[0], A[mid + 1], x) == flag)
            ans = mid + 1, l = mid + 1;
        else r = mid;
    } res[0] = ans;
    l = ans, r = sz - 1, ans = sz - 1;
    while(l < r) {
        int mid = ((l + r) >> 1);
        if(clockwise(A[mid], A[mid + 1], x) == flag)
            ans = mid, r = mid;
        else l = mid + 1;
    } res[1] = ans;
    if(flag == -1) swap(res[0], res[1]);
    return {res[0], res[1]};
}

// 判断点是否在凸多边形 A 内部,flag = 1 严格,0 不严格
bool containCoP(const vector<point>& A, point x, int flag = 1) {
    int sz = A.size(); assert(sz >= 3);
    if(!flag && (onS(A[0], A[1], x) || onS(A[sz-1], A[0], x))) return 1;
    if(!(clockwise(A[0],A[1],x)==1 && clockwise(A[sz-1],A[0],x)==1)) return 0;
    int l = 1, r = sz - 1, ans = 1;
    while(l < r) {
        int mid = l + r >> 1;
        if(clockwise(A[0], A[mid], x) == 1) ans = mid, l = mid + 1;
        else r = mid;
    }
    return clockwise(A[ans], A[ans + 1], x) >= flag;
}

/* 上下凸包中的二分 */

// 拆分凸包成上下凸壳 凸包尽量都随机旋转一个角度来避免出现相同横坐标 
// 尽量特判只有一个点的情况 凸包逆时针
void getUDP(vector<point>A,vector<point>&U,vector<point>&D){
    db l=1e100,r=-1e100;
    for (int i=0;i<A.size();i++) l=min(l,A[i].x),r=max(r,A[i].x);
    int wherel,wherer;
    for (int i=0;i<A.size();i++) if (cmp(A[i].x,l)==0) wherel=i;
    for (int i=A.size();i;i--) if (cmp(A[i-1].x,r)==0) wherer=i-1;
    U.clear(); D.clear(); int now=wherel;
    while (1){D.push_back(A[now]); if (now==wherer) break; now++; if (now>=A.size()) now=0;}
    now=wherel;
    while (1){U.push_back(A[now]); if (now==wherer) break; now--; if (now<0) now=A.size()-1;}
}
// 需要保证凸包点数大于等于 3, 2 内部 ,1 边界 ,0 外部
int containCoP(const vector<point>&U,const vector<point>&D,point k){
    db lx=U[0].x,rx=U[U.size()-1].x;
    if (k==U[0]||k==U[U.size()-1]) return 1;
    if (cmp(k.x,lx)==-1||cmp(k.x,rx)==1) return 0;
    int where1=lower_bound(U.begin(),U.end(),(point){k.x,-1e100})-U.begin();
    int where2=lower_bound(D.begin(),D.end(),(point){k.x,-1e100})-D.begin();
    int w1=clockwise(U[where1-1],U[where1],k),w2=clockwise(D[where2-1],D[where2],k);
    if (w1==1||w2==-1) return 0; else if (w1==0||w2==0) return 1; return 2;
}
// d 是方向 , 输出上方切点和下方切点
pair<point,point> getTangentCow(const vector<point> &U,const vector<point> &D,point d){
    if (sgn(d.x)<0||(sgn(d.x)==0&&sgn(d.y)<0)) d=d*(-1);
    point whereU,whereD;
    if (sgn(d.x)==0) return {U[0],U[U.size()-1]};
    int l=0,r=U.size()-1,ans=0;
    while (l<r){int mid=l+r>>1; if (sgn(cross(U[mid+1]-U[mid],d))<=0) l=mid+1,ans=mid+1; else r=mid;}
    whereU=U[ans]; l=0,r=D.size()-1,ans=0;
    while (l<r){int mid=l+r>>1; if (sgn(cross(D[mid+1]-D[mid],d))>=0) l=mid+1,ans=mid+1; else r=mid;}
    whereD=D[ans]; return {whereU,whereD};
}
// 先检查 contain, 逆时针给出
pair<point,point> getTangentCoP(const vector<point>&U,const vector<point>&D,point k){
    db lx=U[0].x,rx=U[U.size()-1].x;
    if (k.x<lx){
        int l=0,r=U.size()-1,ans=U.size()-1;
        while (l<r){int mid=l+r>>1; if (clockwise(k,U[mid],U[mid+1])==1) l=mid+1; else ans=mid,r=mid;}
        point w1=U[ans]; l=0,r=D.size()-1,ans=D.size()-1;
        while (l<r){int mid=l+r>>1; if (clockwise(k,D[mid],D[mid+1])==-1) l=mid+1; else ans=mid,r=mid;}
        point w2=D[ans]; return {w1,w2};
    } else if (k.x>rx){
        int l=1,r=U.size(),ans=0;
        while (l<r){int mid=l+r>>1; if (clockwise(k,U[mid],U[mid-1])==-1) r=mid; else ans=mid,l=mid+1;}
        point w1=U[ans]; l=1,r=D.size(),ans=0;
        while (l<r){int mid=l+r>>1; if (clockwise(k,D[mid],D[mid-1])==1) r=mid; else ans=mid,l=mid+1;}
        point w2=D[ans]; return {w2,w1};
    } else {
        int where1=lower_bound(U.begin(),U.end(),(point){k.x,-1e100})-U.begin();
        int where2=lower_bound(D.begin(),D.end(),(point){k.x,-1e100})-D.begin();
        if ((k.x==lx&&k.y>U[0].y)||(where1&&clockwise(U[where1-1],U[where1],k)==1)){
            int l=1,r=where1+1,ans=0;
            while (l<r){int mid=l+r>>1; if (clockwise(k,U[mid],U[mid-1])==1) ans=mid,l=mid+1; else r=mid;}
            point w1=U[ans]; l=where1,r=U.size()-1,ans=U.size()-1;
            while (l<r){int mid=l+r>>1; if (clockwise(k,U[mid],U[mid+1])==1) l=mid+1; else ans=mid,r=mid;}
            point w2=U[ans]; return {w2,w1};
        } else {
            int l=1,r=where2+1,ans=0;
            while (l<r){int mid=l+r>>1; if (clockwise(k,D[mid],D[mid-1])==-1) ans=mid,l=mid+1; else r=mid;}
            point w1=D[ans]; l=where2,r=D.size()-1,ans=D.size()-1;
            while (l<r){int mid=l+r>>1; if (clockwise(k,D[mid],D[mid+1])==-1) l=mid+1; else ans=mid,r=mid;}
            point w2=D[ans]; return {w1,w2};
        }
    }
}


// 三维计算几何
struct P3{
    db x,y,z;
    P3 operator + (P3 k1){return (P3){x+k1.x,y+k1.y,z+k1.z};}
    P3 operator - (P3 k1){return (P3){x-k1.x,y-k1.y,z-k1.z};}
    P3 operator * (db k1){return (P3){x*k1,y*k1,z*k1};}
    P3 operator / (db k1){return (P3){x/k1,y/k1,z/k1};}
    db abs2(){return x*x+y*y+z*z;}
    db abs(){return sqrt(x*x+y*y+z*z);}
    P3 unit(){return (*this)/abs();}
    int operator < (const P3 k1) const{
        if (cmp(x,k1.x)!=0) return x<k1.x;
        if (cmp(y,k1.y)!=0) return y<k1.y;
        return cmp(z,k1.z)==-1;
    }
    int operator == (const P3 k1){
        return cmp(x,k1.x)==0&&cmp(y,k1.y)==0&&cmp(z,k1.z)==0;
    }
    void scan(){
        double k1,k2,k3; scanf("%lf%lf%lf",&k1,&k2,&k3);
        x=k1; y=k2; z=k3;
    }
};
P3 cross(P3 k1,P3 k2){return (P3){k1.y*k2.z-k1.z*k2.y,k1.z*k2.x-k1.x*k2.z,k1.x*k2.y-k1.y*k2.x};}
db dot(P3 k1,P3 k2){return k1.x*k2.x+k1.y*k2.y+k1.z*k2.z;}
//p=(3,4,5),l=(13,19,21),theta=85 ans=(2.83,4.62,1.77)
P3 turn3D(db k1,P3 l,P3 p){
    l=l.unit(); P3 ans; db c=cos(k1),s=sin(k1);
    ans.x=p.x*(l.x*l.x*(1-c)+c)+p.y*(l.x*l.y*(1-c)-l.z*s)+p.z*(l.x*l.z*(1-c)+l.y*s);
    ans.y=p.x*(l.x*l.y*(1-c)+l.z*s)+p.y*(l.y*l.y*(1-c)+c)+p.z*(l.y*l.z*(1-c)-l.x*s);
    ans.z=p.x*(l.x*l.z*(1-c)-l.y*s)+p.y*(l.y*l.z*(1-c)+l.x*s)+p.z*(l.x*l.x*(1-c)+c);
    return ans;
}
typedef vector<P3> VP;
typedef vector<VP> VVP;
db Acos(db x){return acos(max(-(db)1,min(x,(db)1)));}
// 球面距离 , 圆心原点 , 半径 1
db Odist(P3 a,P3 b){db r=Acos(dot(a,b)); return r;}
db r; P3 rnd;
vector<db> solve(db a,db b,db c){
    db r=sqrt(a*a+b*b),th=atan2(b,a);
    if (cmp(c,-r)==-1) return {0};
    else if (cmp(r,c)<=0) return {1};
    else {
        db tr=pi-Acos(c/r); return {th+pi-tr,th+pi+tr};
    }
}
vector<db> jiao(P3 a,P3 b){
    // dot(rd+x*cos(t)+y*sin(t),b) >= cos(r)
    if (cmp(Odist(a,b),2*r)>0) return {0};
    P3 rd=a*cos(r),z=a.unit(),y=cross(z,rnd).unit(),x=cross(y,z).unit();
    vector<db> ret = solve(-(dot(x,b)*sin(r)),-(dot(y,b)*sin(r)),-(cos(r)-dot(rd,b))); 
    return ret;
}
db norm(db x,db l=0,db r=2*pi){ // change x into [l,r)
    while (cmp(x,l)==-1) x+=(r-l); while (cmp(x,r)>=0) x-=(r-l);
    return x;
}
db disLP(P3 k1,P3 k2,P3 q){
    return (cross(k2-k1,q-k1)).abs()/(k2-k1).abs();
}
db disLL(P3 k1,P3 k2,P3 k3,P3 k4){
    P3 dir=cross(k2-k1,k4-k3); if (sgn(dir.abs())==0) return disLP(k1,k2,k3);
    return fabs(dot(dir.unit(),k1-k2));
}
VP getFL(P3 p,P3 dir,P3 k1,P3 k2){
    db a=dot(k2-p,dir),b=dot(k1-p,dir),d=a-b;
    if (sgn(fabs(d))==0) return {};
    return {(k1*a-k2*b)/d};
}
VP getFF(P3 p1,P3 dir1,P3 p2,P3 dir2){// 返回一条线
    P3 e=cross(dir1,dir2),v=cross(dir1,e);
    db d=dot(dir2,v); if (sgn(abs(d))==0) return {};
    P3 q=p1+v*dot(dir2,p2-p1)/d; return {q,q+e};
}
// 3D Covex Hull Template
db getV(P3 k1,P3 k2,P3 k3,P3 k4){ // get the Volume
    return dot(cross(k2-k1,k3-k1),k4-k1);
}
db rand_db(){return 1.0*rand()/RAND_MAX;}
VP convexHull2D(VP A,P3 dir){
    P3 x={(db)rand(),(db)rand(),(db)rand()}; x=x.unit();
    x=cross(x,dir).unit(); P3 y=cross(x,dir).unit();
    P3 vec=dir.unit()*dot(A[0],dir);
    vector<point>B;
    for (int i=0;i<A.size();i++) B.push_back((point){dot(A[i],x),dot(A[i],y)});
    B=ConvexHull(B); A.clear();
    for (int i=0;i<B.size();i++) A.push_back(x*B[i].x+y*B[i].y+vec);
    return A;
}
namespace CH3{
    VVP ret; set<pair<int,int> >e;
    int n; VP p,q;
    void wrap(int a,int b){
        if (e.find({a,b})==e.end()){
            int c=-1;
            for (int i=0;i<n;i++) if (i!=a&&i!=b){
                if (c==-1||sgn(getV(q[c],q[a],q[b],q[i]))>0) c=i;
            }
            if (c!=-1){
                ret.push_back({p[a],p[b],p[c]});
                e.insert({a,b}); e.insert({b,c}); e.insert({c,a});
                wrap(c,b); wrap(a,c);
            }
        }
    }
    VVP ConvexHull3D(VP _p){
        p=q=_p; n=p.size();
        ret.clear(); e.clear();
        for (auto &i:q) i=i+(P3){rand_db()*1e-4,rand_db()*1e-4,rand_db()*1e-4};
        for (int i=1;i<n;i++) if (q[i].x<q[0].x) swap(p[0],p[i]),swap(q[0],q[i]);
        for (int i=2;i<n;i++) if ((q[i].x-q[0].x)*(q[1].y-q[0].y)>(q[i].y-q[0].y)*(q[1].x-q[0].x)) swap(q[1],q[i]),swap(p[1],p[i]);
        wrap(0,1);
        return ret;
    }
}
VVP reduceCH(VVP A){
    VVP ret; map<P3,VP> M;
    for (VP nowF:A){
        P3 dir=cross(nowF[1]-nowF[0],nowF[2]-nowF[0]).unit();
        for (P3 k1:nowF) M[dir].push_back(k1);
    }
    for (pair<P3,VP> nowF:M) ret.push_back(convexHull2D(nowF.second,nowF.first));
    return ret;
}
//  把一个面变成 ( 点 , 法向量 ) 的形式
pair<P3,P3> getF(VP F){
    return {F[0],cross(F[1]-F[0],F[2]-F[0]).unit()};
}
// 3D Cut 保留 dot(dir,x-p)>=0 的部分
VVP ConvexCut3D(VVP A,P3 p,P3 dir){
    VVP ret; VP sec;
    for (VP nowF: A){
        int n=nowF.size(); VP ans; int dif=0;
        for (int i=0;i<n;i++){
            int d1=sgn(dot(dir,nowF[i]-p));
            int d2=sgn(dot(dir,nowF[(i+1)%n]-p));
            if (d1>=0) ans.push_back(nowF[i]);
            if (d1*d2<0){
                P3 q=getFL(p,dir,nowF[i],nowF[(i+1)%n])[0];
                ans.push_back(q); sec.push_back(q);
            }
            if (d1==0) sec.push_back(nowF[i]); else dif=1;
            dif|=(sgn(dot(dir,cross(nowF[(i+1)%n]-nowF[i],nowF[(i+1)%n]-nowF[i])))==-1);
        }
        if (ans.size()>0&&dif) ret.push_back(ans);
    }
    if (sec.size()>0) ret.push_back(convexHull2D(sec,dir));
    return ret;
}
db vol(VVP A){
    if (A.size()==0) return 0; P3 p=A[0][0]; db ans=0;
    for (VP nowF:A)
        for (int i=2;i<nowF.size();i++)
            ans+=abs(getV(p,nowF[0],nowF[i-1],nowF[i]));
    return ans/6;
}
VVP init(db INF) {
    VVP pss(6,VP(4));
    pss[0][0] = pss[1][0] = pss[2][0] = {-INF, -INF, -INF};
    pss[0][3] = pss[1][1] = pss[5][2] = {-INF, -INF, INF};
    pss[0][1] = pss[2][3] = pss[4][2] = {-INF, INF, -INF};
    pss[0][2] = pss[5][3] = pss[4][1] = {-INF, INF, INF};
    pss[1][3] = pss[2][1] = pss[3][2] = {INF, -INF, -INF};
    pss[1][2] = pss[5][1] = pss[3][3] = {INF, -INF, INF};
    pss[2][2] = pss[4][3] = pss[3][1] = {INF, INF, -INF};
    pss[5][0] = pss[4][0] = pss[3][0] = {INF, INF, INF};
    return pss;
}

signed main() {  
    ios::sync_with_stdio(false);
    cin.tie(nullptr);  

	int n;
	cin >> n;

    vector<point> a(n + 1);
    for (int i = 1; i <= n; i++) {
        cin >> a[i].x >> a[i].y;
    }

	vector<db> dp(n + 1);
    for (int i = 1; i <= n; i++) {
        for (int j = 1; j <= i; j++) {
            dp[i] = max(dp[i], dp[j - 1] + (a[j] - a[i]).abs());
        }
    }

	cout << fixed << setprecision(10);
	cout << dp[n] << "\n";

    return 0;
}  
  

这程序好像有点Bug,我给组数据试试?

詳細信息

Test #1:

score: 100
Accepted
time: 1ms
memory: 4000kb

input:

7
1 0
0 1
0 0
1 1
1 2
3 2
3 3

output:

5.6568542495

result:

ok found '5.6568542', expected '5.6568542', error '0.0000000'

Test #2:

score: 0
Accepted
time: 21ms
memory: 4036kb

input:

4741
583042625 -288151442
901234470 -999760464
-974135773 -819820344
562644007 892707743
-120734580 -288167839
-14369253 88358276
-150949453 -39424771
-947214734 -826830020
578141361 443534304
-783950948 394211236
861595911 -751206580
570425640 624990919
484450011 -470115909
-417437663 22205205
-278...

output:

2798587991989.8886718750

result:

ok found '2798587991989.8886719', expected '2798587991989.8847656', error '0.0000000'

Test #3:

score: 0
Accepted
time: 10ms
memory: 3996kb

input:

3213
522199909 514991717
-232609361 652684240
279847038 136749526
-736646400 628493330
-94229099 39044538
-309386930 -566589012
-743178071 977659303
331655367 709620221
819648050 -137222273
-483906372 -718154516
289043195 250752012
-411924666 177871816
398984540 805195900
703931330 342254199
-856530...

output:

1901931022047.7792968750

result:

ok found '1901931022047.7792969', expected '1901931022047.7783203', error '0.0000000'

Test #4:

score: 0
Accepted
time: 1ms
memory: 4020kb

input:

968
-385563683 -522813287
209254780 602611305
-135909694 -189263722
-560221149 430227148
418701856 300906413
142373383 -917649276
-660279103 -422510383
250385700 -352334214
-985948308 243315304
799743397 -952922578
812232051 936938663
-90803222 792720350
-471673653 862670783
7848186 -382327569
92478...

output:

578491625641.7517089844

result:

ok found '578491625641.7517090', expected '578491625641.7514648', error '0.0000000'

Test #5:

score: 0
Accepted
time: 1ms
memory: 4032kb

input:

953
-478762162 556782215
-449686486 216328565
-44170762 669873691
842648553 921608634
881686869 -879142568
-310705987 -181489994
830441179 -110797482
975426657 191561809
82154355 -747749350
119879969 -758174233
205946922 -841205703
891282338 -293121292
-291513482 -926248534
-259415843 314744581
3087...

output:

548515721178.3259277344

result:

ok found '548515721178.3259277', expected '548515721178.3260498', error '0.0000000'

Test #6:

score: 0
Accepted
time: 14ms
memory: 4080kb

input:

3759
676737194 -980777589
217638142 6869120
-125418314 123963171
-204688896 541552947
561865563 -55462182
-80455900 430710337
340645278 -696579669
-661503371 -541055133
657844506 925334877
-489646017 70483090
-318494961 -564680191
-435702114 715003944
-923874337 999952827
58509157 -824102071
9650985...

output:

2206491871737.3510742188

result:

ok found '2206491871737.3510742', expected '2206491871737.3500977', error '0.0000000'

Test #7:

score: 0
Accepted
time: 4ms
memory: 4044kb

input:

1756
-794562341 189757398
613043582 723208622
-995430439 -983183746
-535180678 -268843337
683710261 474028965
-174478855 -923623466
452080293 -168429630
-313866124 -797744543
-708963290 -458862788
-848064376 -580578604
-698772531 -480867166
-740904810 993663858
-257651595 -845175149
-899827563 -9812...

output:

1036498275809.2386474609

result:

ok found '1036498275809.2386475', expected '1036498275809.2416992', error '0.0000000'

Test #8:

score: 0
Accepted
time: 1ms
memory: 3952kb

input:

787
-7090150 526856296
983585064 864606987
791966318 -932273401
790414531 -962590263
-298101553 -750297443
-864851403 961707825
-645715752 242258574
-483808865 31609614
63153566 875139392
718544175 497170780
300611334 -673086931
295953448 -659892820
-332147467 -908330117
604437152 -278539108
-177244...

output:

462688629311.4662475586

result:

ok found '462688629311.4662476', expected '462688629311.4662476', error '0.0000000'

Test #9:

score: 0
Accepted
time: 0ms
memory: 4076kb

input:

76
511351388 148937608
-765051015 -436970176
723116524 762293974
290499914 -661458121
-191417042 623970973
960822261 485952766
447507820 400688682
982713215 -633842708
-563958099 -645550204
712420915 515241338
-472445700 615252228
-855194394 -847734315
676479200 -957203437
-929157866 -35201369
29763...

output:

47060424949.1604080200

result:

ok found '47060424949.1604080', expected '47060424949.1604080', error '0.0000000'

Test #10:

score: 0
Accepted
time: 7ms
memory: 3992kb

input:

2509
429840249 87593961
-781144839 -367765668
-319100136 175507520
463740161 532062477
428212053 -868971808
61501828 -545909867
-519549565 -244091284
486389381 656285616
776861744 -111829692
-320014746 -596760388
-211217331 -796722466
-291157077 -954656509
-498870218 875167125
-956272747 745584318
-...

output:

1488779644671.2143554688

result:

ok found '1488779644671.2143555', expected '1488779644671.2136230', error '0.0000000'

Test #11:

score: 0
Accepted
time: 21ms
memory: 4036kb

input:

4731
828324934 -115821941
675339843 -390622205
374490228 -604641993
85274428 -930782926
716769527 77537703
-574045032 741753635
112560584 -500472256
-157434361 641494473
-223609765 528249214
-321457473 -430476260
-2160243 867435391
669146114 -913381923
92191218 895944136
237650254 -912799227
-540384...

output:

2771456417007.1083984375

result:

ok found '2771456417007.1083984', expected '2771456417007.1044922', error '0.0000000'

Test #12:

score: 0
Accepted
time: 8ms
memory: 4004kb

input:

2760
931337814 119511454
-683347917 427882185
-845680099 875219814
910511178 497271414
-833608505 482037885
229853403 577013667
-967753092 772130182
-905618087 -641860421
-198207627 653599444
111134339 979416572
48472787 -645149240
326126778 85163773
-975853866 -895943279
862569427 478859966
7644324...

output:

1641981837161.2351074219

result:

ok found '1641981837161.2351074', expected '1641981837161.2368164', error '0.0000000'

Test #13:

score: 0
Accepted
time: 15ms
memory: 4016kb

input:

4003
983856092 962653762
-169717046 290127957
214476265 604057342
-116309577 -929446895
759766456 -655349372
-595770198 -900469809
-994470686 -679537359
-993120731 -838206636
617489925 728379838
-898230109 -131869360
855913649 333137607
-539802443 630567246
-675704464 -730433814
54881080 178614628
9...

output:

2391581010099.9155273438

result:

ok found '2391581010099.9155273', expected '2391581010099.9208984', error '0.0000000'

Test #14:

score: 0
Accepted
time: 23ms
memory: 4052kb

input:

4920
458810846 768039107
-973153299 -975967643
620026181 105318199
-884989267 -935367768
-794733144 -816152705
852418155 -54565141
536602110 578446188
526335127 12333718
818975064 -742380096
-362961964 -480086991
718783650 -718763047
-123356688 -474099282
767340203 512795977
208913084 -64359025
-551...

output:

2909986192315.9829101562

result:

ok found '2909986192315.9829102', expected '2909986192315.9892578', error '0.0000000'

Test #15:

score: 0
Accepted
time: 2ms
memory: 3980kb

input:

1046
-483174906 743758038
270841702 -357341440
301435128 -626986752
-250629309 -896040099
-519419913 576584022
745499607 -360035440
779733802 442199952
-189533140 122145670
-312698604 484253998
128579649 -136096115
-137667474 349635592
631315914 -626501353
-23143982 -877863376
724371001 328904162
-4...

output:

625073963650.6860351562

result:

ok found '625073963650.6860352', expected '625073963650.6859131', error '0.0000000'

Test #16:

score: 0
Accepted
time: 3ms
memory: 4120kb

input:

1673
-58998695 -877506047
-550919131 355648990
56181074 263557853
879381988 162999407
-852744941 -400470924
419415386 755724169
-217894954 -590650944
536947380 380279126
942725019 -478245969
-295346374 735788196
81372161 33933949
-762951402 -640855171
378338763 440745243
-212678146 -652416425
686472...

output:

999411208969.8660888672

result:

ok found '999411208969.8660889', expected '999411208969.8656006', error '0.0000000'

Test #17:

score: 0
Accepted
time: 19ms
memory: 4140kb

input:

5000
34688642 -851839419
395784949 -667081997
-155389155 -624068418
-758711821 119194510
-812775173 -992436155
-592596572 851861070
-179673992 974613003
520596304 -485749861
-265233646 -115838823
-222234500 -573799007
-887109945 608830643
-906910755 483106217
384264657 -597593284
476657007 940783
-9...

output:

2958177763313.7758789062

result:

ok found '2958177763313.7758789', expected '2958177763313.7758789', error '0.0000000'

Test #18:

score: 0
Accepted
time: 23ms
memory: 4056kb

input:

5000
-492673762 -496405053
764822338 111401587
774345046 -588077735
-972693439 959995351
-573156496 -729349041
645305810 326664422
-561855978 -477016787
461011057 697257071
377733217 -416669921
-204150537 784674141
-642123788 695471214
801626277 -968584097
68483816 -329331824
982358552 945230774
818...

output:

2981535748184.3906250000

result:

ok found '2981535748184.3906250', expected '2981535748184.3950195', error '0.0000000'

Test #19:

score: 0
Accepted
time: 23ms
memory: 4132kb

input:

5000
390029247 153996608
-918017777 838007668
-244043252 -257119758
813324945 390730779
-38570526 -761229221
-116791808 634492154
760994742 19475923
991360398 -119735998
-632455126 -665623518
-481033868 -394909798
140919454 -974798424
510163308 -715241704
-542264319 -61070363
-511939904 -353569028
-...

output:

2961773410701.6196289062

result:

ok found '2961773410701.6196289', expected '2961773410701.6206055', error '0.0000000'

Test #20:

score: 0
Accepted
time: 23ms
memory: 4200kb

input:

5000
-432300451 509430974
-600857890 -140418957
442601156 -464218867
61286241 -768468380
201048150 -203174812
826143280 404262799
673780049 567846134
983652653 525213848
600446325 -671487323
-462949905 963563350
628995403 -888157854
218700340 -166932017
898865049 207191097
288728935 590720963
-50838...

output:

2959320564556.7397460938

result:

ok found '2959320564556.7397461', expected '2959320564556.7426758', error '0.0000000'

Test #21:

score: 0
Accepted
time: 23ms
memory: 4116kb

input:

5000
450402558 -840167367
-231820501 586187125
-627664644 -428228185
142271917 367299755
735634121 59912302
64045662 469000739
291598063 -935661158
-780965301 -291779221
-409742018 -920440920
965199471 -216020590
-587961356 -801517283
465294457 -156679415
583084208 423575055
794430480 -759956341
-19...

output:

2944171196056.3139648438

result:

ok found '2944171196056.3139648', expected '2944171196056.3115234', error '0.0000000'

Test #22:

score: 0
Accepted
time: 24ms
memory: 4120kb

input:

5000
-76959846 -779700294
380306679 -340361999
58979764 -392237502
-314799493 -201964817
-729779910 28032122
-454962165 -56195909
-142461426 -387290947
-493705752 891227711
823159433 778727982
983283434 899362766
-48007905 -471786920
173831488 391630272
-322631221 691836515
-699867976 236211152
-130...

output:

2940327848374.5527343750

result:

ok found '2940327848374.5527344', expected '2940327848374.5571289', error '0.0000000'

Test #23:

score: 0
Accepted
time: 23ms
memory: 4136kb

input:

5000
805743163 -181176136
454376774 681211377
988713965 -599336611
-823748404 638836024
-490161233 586086531
782940218 251631822
-524643413 -133888029
-553290999 74234642
-533873706 529774386
-998632604 -332098675
735035338 -385146349
-412598775 350005371
-638412062 960097976
-194166431 -819498858
-...

output:

2966669430514.9433593750

result:

ok found '2966669430514.9433594', expected '2966669430514.9365234', error '0.0000000'

Test #24:

score: 0
Accepted
time: 23ms
memory: 4120kb

input:

5000
-311553829 469225525
-933496047 -592182543
-29674334 -268378634
-985852520 -225395842
44424737 849173645
20842600 21402468
-906825400 657571974
-266031450 -742758427
455937953 228943287
724484066 783284681
-776888715 -593473073
-460971951 603347764
-954192903 -528550773
68445323 -170176161
2475...

output:

2988672312355.4711914062

result:

ok found '2988672312355.4711914', expected '2988672312355.4750977', error '0.0000000'

Test #25:

score: 0
Accepted
time: 21ms
memory: 4116kb

input:

5000
866116474 824659891
-564458658 429390833
656970075 -232387951
505198569 910372293
579010708 817293465
963777688 86140408
416025321 616007597
-325616697 440248505
-311160598 -20010310
742568030 -101331964
-236935264 -506832502
-752434920 -848342550
435058963 -850223901
574146868 825991332
314947...

output:

2970856061325.5483398438

result:

ok found '2970856061325.5483398', expected '2970856061325.5502930', error '0.0000000'

Test #26:

score: 0
Accepted
time: 17ms
memory: 4104kb

input:

5000
-196228170 -181402541
328251238 624722764
682518931 783857631
969228879 547715844
-149364638 823684584
833196798 -913952210
-554264004 62726516
426420047 664711179
986117749 -418659204
-692340474 725195722
206423874 963934566
-850621504 688322091
-92095128 -259681786
220754482 52318280
-1634237...

output:

2958713299148.4448242188

result:

ok found '2958713299148.4448242', expected '2958713299148.4531250', error '0.0000000'

Test #27:

score: 0
Accepted
time: 0ms
memory: 4000kb

input:

1
127346 9458760

output:

0.0000000000

result:

ok found '0.0000000', expected '0.0000000', error '-0.0000000'

Test #28:

score: 0
Accepted
time: 0ms
memory: 4004kb

input:

2
438580 2370872
28759 -23894729

output:

26268798.0148167796

result:

ok found '26268798.0148168', expected '26268798.0148168', error '0.0000000'

Test #29:

score: 0
Accepted
time: 0ms
memory: 4004kb

input:

1
-1000000000 -1000000000

output:

0.0000000000

result:

ok found '0.0000000', expected '0.0000000', error '-0.0000000'

Test #30:

score: 0
Accepted
time: 0ms
memory: 4016kb

input:

2
1000000000 1000000000
-1000000000 1000000000

output:

2000000000.0000000000

result:

ok found '2000000000.0000000', expected '2000000000.0000000', error '0.0000000'

Test #31:

score: 0
Accepted
time: 0ms
memory: 4012kb

input:

3
0 0
1000000000 0
0 -1000000000

output:

1414213562.3730950356

result:

ok found '1414213562.3730950', expected '1414213562.3730950', error '0.0000000'

Test #32:

score: 0
Accepted
time: 0ms
memory: 4000kb

input:

4
1000000000 -1000000000
-1000000000 1000000000
0 0
1 -1

output:

2828427126.1604037285

result:

ok found '2828427126.1604037', expected '2828427126.1604037', error '0.0000000'

Test #33:

score: 0
Accepted
time: 0ms
memory: 4016kb

input:

5
-1000000000 -1000000000
1000000000 1000000000
-999999999 -1000000000
1000000000 999999999
-1000000000 -999999999

output:

5656854248.0781669617

result:

ok found '5656854248.0781670', expected '5656854248.0781670', error '0.0000000'

Test #34:

score: 0
Accepted
time: 0ms
memory: 4008kb

input:

10
273241060 -360748081
471537720 -647375704
-621925837 -22138471
904859645 820290727
-957530763 778258426
-370148620 -907251774
-188377660 -769041435
-987499732 546366365
-383619133 527915296
979817147 -791689541

output:

7313810466.4649772644

result:

ok found '7313810466.4649773', expected '7313810466.4649782', error '0.0000000'

Test #35:

score: 0
Accepted
time: 23ms
memory: 4200kb

input:

4999
1000000000 -1000000000
-1000000000 1000000000
1000000000 -999999999
-999999999 999999999
999999999 -1000000000
-1000000000 999999999
1000000000 -999999998
-999999998 999999998
999999999 -999999998
-999999999 1000000000
999999998 -999999997
-999999999 999999997
1000000000 -999999997
-999999998 1...

output:

7068239218923.5156250000

result:

ok found '7068239218923.5156250', expected '7068239218923.4824219', error '0.0000000'

Test #36:

score: 0
Accepted
time: 17ms
memory: 4052kb

input:

5000
513113832 317022344
-195627208 -861058397
-701102409 683872039
-232916858 -895311518
-709902748 -699035285
-101259535 -574097202
-441586520 -975050457
-932883145 -160150630
942128621 -594109340
-995714416 343225158
836636759 -111350445
237289348 -92696394
-246927599 -109448224
-215232650 -15016...

output:

2931001916139.3344726562

result:

ok found '2931001916139.3344727', expected '2931001916139.3334961', error '0.0000000'

Test #37:

score: 0
Accepted
time: 0ms
memory: 3920kb

input:

4
0 0
1 0
0 1
1 1

output:

2.0000000000

result:

ok found '2.0000000', expected '2.0000000', error '0.0000000'

Extra Test:

score: 0
Extra Test Passed