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QOJ
| ID | Problem | Submitter | Result | Time | Memory | Language | File size | Submit time | Judge time |
|---|---|---|---|---|---|---|---|---|---|
| #497359 | #7734. Intersection over Union | lonelywolf | TL | 2ms | 3980kb | C++17 | 8.4kb | 2024-07-29 02:50:20 | 2024-07-29 02:50:20 |
Judging History
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 * (const db &k1) const { return (point){x*k1,y*k1}; }
point operator / (const 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 {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);
}
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));}
db area(auto &A) {
db ans = 0;
for (int i = 0; i < A.size(); i++) {
ans += cross(A[i], A[(i + 1) % A.size()]);
}
return ans / 2;
}
db 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]);
vector<point> a;
for (int i = 0; i < q.size(); i++) {
a.push_back(getLL(q[i], q[(i + 1) % q.size()]));
}
return area(a);
}
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;
}
db rp = (sqrt(5) - 1) / 2;
void solve() {
vector<point> P(4);
for (auto &[x, y] : P) {
cin >> x >> y;
// x = eng() % 100;
// y = eng() % 100;
}
if (cross(P[1] - P[0], P[2] - P[0]) < 0) {
reverse(P.begin(), P.end());
}
if (P[0].x == P[1].x || P[0].y == P[1].y) {
cout << 1 << "\n";
return;
}
auto o = (P[0] + P[2]) / 2;
for (auto &p : P) {
p = p - o;
p = p.unit();
}
db s = area(P);
vector<line> L(8);
for (int i = 0; i < 4; i++) {
L[i * 2] = {P[i], P[(i + 1) % 4]};
}
auto calc2 = [&] (db l, db d) {
// cnt++;
L[1] = line(point{0, d}, point{-1, d});
L[3] = line(point{0, -d}, point{1, -d});
L[5] = line(point{l, 0}, point{l, 1});
L[7] = line(point{-l, 0}, point{-l, -1});
db s1 = getHL(L);
db s2 = l * d * 4;
return s1 / (s + s2 - s1);
};
auto calc = [&] (db d) {
db lo = 0, hi = 1, lv = -1, hv = -1;
for (int t = 1; t <= 30; t++) {
db b = (hi - lo) * rp;
db rm = lo + b;
db lm = hi - b;
if (lv == -1) {
lv = calc2(lm, d);
}
if (hv == -1) {
hv = calc2(rm, d);
}
if (hv < lv) {
hv = lv;
lv = -1;
hi = rm;
} else {
lv = hv;
hv = -1;
lo = lm;
}
}
return lv == -1 ? hv : lv;
};
db lo = 0, hi = 1, lv = -1, hv = -1;
for (int t = 1; t <= 30; t++) {
db b = (hi - lo) * rp;
db rm = lo + b;
db lm = hi - b;
if (lv == -1) {
lv = calc(lm);
}
if (hv == -1) {
hv = calc(rm);
}
if (hv < lv) {
hv = lv;
lv = -1;
hi = rm;
} else {
lv = hv;
hv = -1;
lo = lm;
}
}
db ans = lv == -1 ? hv : lv;
cout << ans << "\n";
}
signed main () {
ios::sync_with_stdio(false);
cin.tie(nullptr);
cout << fixed << setprecision(10);
int t = 10000;
cin >> t;
while (t--) {
solve();
}
return 0;
}
Details
Tip: Click on the bar to expand more detailed information
Test #1:
score: 100
Accepted
time: 2ms
memory: 3980kb
input:
3 0 2 2 0 0 -2 -2 0 7 -2 9 -2 9 2 7 2 7 13 11 10 5 2 1 5
output:
0.7071067812 1 0.6238432248
result:
ok 3 numbers
Test #2:
score: -100
Time Limit Exceeded
input:
10000 -568767734 379152673 -565681345 -54946093 -131582579 -51859704 -134668968 382239062 -194884120 -559906233 -194884142 -158042604 -998611400 -158042648 -998611378 -559906277 459335966 -945199065 478030260 -934243779 450535683 -887326546 431841389 -898281832 -483567491 491964356 -523827401 408140...
output:
0.9929654125 0.3647450844 0.5908698157 0.6217704849 0.5788323841 1 0.4999999974 0.6852345806 0.4559617198 0.5002873939 0.9802961106 0.3266228799 0.5440373887 0.3804801071 0.9231183318 0.8925587009 0.6176803196 0.9456769702 0.4998743766 0.9999561738 0.6474214765 0.7778122048 0.5000000000 0.9560555504...