#define _CRT_SECURE_NO_WARNINGS
#include <iostream>
#include <algorithm>
#include <cmath>
#include <cstring>
#include <cassert>
#include <vector>
#include <deque>
typedef long long ll;
typedef double ld;
//typedef long double ld;
const ld INF = 1e17;
const ld TOL = 1e-10;
const ld PI = acos(-1);
const int LEN = 25;
int N, M, T, Q;
bool zero(const ld& x) { return std::abs(x) < TOL; }
int sign(const ld& x) { return x < -TOL ? -1 : x > TOL; }
ll sqr(const ll& x) { return x * x; }
ld norm(ld th) {
while (th < 0) th += PI * 2;
while (th > PI * 2 - TOL) th -= PI * 2;
return th;
}
//#define DEBUG
//#define ASSERT
struct Pii {
int x, y;
Pii(int X = 0, int Y = 0) : x(X), y(Y) {}
bool operator == (const Pii& p) const { return x == p.x && y == p.y; }
bool operator != (const Pii& p) const { return x != p.x || y != p.y; }
bool operator < (const Pii& p) const { return x == p.x ? y < p.y : x < p.x; }
bool operator <= (const Pii& p) const { return x == p.x ? y <= p.y : x <= p.x; }
Pii operator + (const Pii& p) const { return { x + p.x, y + p.y }; }
Pii operator - (const Pii& p) const { return { x - p.x, y - p.y }; }
Pii operator * (const int& n) const { return { x * n, y * n }; }
Pii operator / (const int& n) const { return { x / n, y / n }; }
ll operator * (const Pii& p) const { return { (ll)x * p.x + (ll)y * p.y }; }
ll operator / (const Pii& p) const { return { (ll)x * p.y - (ll)y * p.x }; }
Pii& operator += (const Pii& p) { x += p.x; y += p.y; return *this; }
Pii& operator -= (const Pii& p) { x -= p.x; y -= p.y; return *this; }
Pii& operator *= (const int& scale) { x *= scale; y *= scale; return *this; }
Pii& operator /= (const int& scale) { x /= scale; y /= scale; return *this; }
Pii operator ~ () const { return { -y, x }; }
Pii operator ! () const { return { -x, -y }; }
ll xy() const { return (ll)x * y; }
ll Euc() const { return (ll)x * x + (ll)y * y; }
ld rad() const { return norm(atan2(y, x)); }
int Man() const { return std::abs(x) + std::abs(y); }
ld mag() const { return hypot(x, y); }
friend std::istream& operator >> (std::istream& is, Pii& p) { is >> p.x >> p.y; return is; }
friend std::ostream& operator << (std::ostream& os, const Pii& p) { os << p.x << " " << p.y; return os; }
};
const Pii Oii = { 0, 0 };
const Pii INF_PT = { (int)INF, (int)INF };
ll cross(const Pii& d1, const Pii& d2, const Pii& d3) { return (d2 - d1) / (d3 - d2); }
ll cross(const Pii& d1, const Pii& d2, const Pii& d3, const Pii& d4) { return (d2 - d1) / (d4 - d3); }
ll dot(const Pii& d1, const Pii& d2, const Pii& d3) { return (d2 - d1) * (d3 - d2); }
ll dot(const Pii& d1, const Pii& d2, const Pii& d3, const Pii& d4) { return (d2 - d1) * (d4 - d3); }
int ccw(const Pii& d1, const Pii& d2, const Pii& d3) {
ll ret = cross(d1, d2, d3);
return !ret ? 0 : ret > 0 ? 1 : -1;
}
struct Pos {
ld x, y;
Pos(ld X = 0, ld Y = 0) : x(X), y(Y) {}
bool operator == (const Pos& p) const { return zero(x - p.x) && zero(y - p.y); }
bool operator != (const Pos& p) const { return !zero(x - p.x) || !zero(y - p.y); }
bool operator < (const Pos& p) const { return zero(x - p.x) ? y < p.y : x < p.x; }
Pos operator + (const Pos& p) const { return { x + p.x, y + p.y }; }
Pos operator - (const Pos& p) const { return { x - p.x, y - p.y }; }
Pos operator * (const ld& scalar) const { return { x * scalar, y * scalar }; }
Pos operator / (const ld& scalar) const { return { x / scalar, y / scalar }; }
ld operator * (const Pos& p) const { return x * p.x + y * p.y; }
ld operator / (const Pos& p) const { return x * p.y - y * p.x; }
Pos operator ^ (const Pos& p) const { return { x * p.x, y * p.y }; }
Pos operator - () const { return { -x, -y }; }
Pos operator ~ () const { return { -y, x }; }
Pos operator ! () const { return { y, x }; }
Pos& operator += (const Pos& p) { x += p.x; y += p.y; return *this; }
Pos& operator -= (const Pos& p) { x -= p.x; y -= p.y; return *this; }
Pos& operator *= (const ld& scale) { x *= scale; y *= scale; return *this; }
Pos& operator /= (const ld& scale) { x /= scale; y /= scale; return *this; }
ld xy() const { return x * y; }
Pos rot(ld the) const { return Pos(x * cos(the) - y * sin(the), x * sin(the) + y * cos(the)); }
ld Euc() const { return x * x + y * y; }
ld mag() const { return sqrt(Euc()); }
//ld mag() const { return hypotl(x, y); }
Pos unit() const { return *this / mag(); }
ld rad() const { return norm(atan2(y, x)); }
friend ld rad(const Pos& p1, const Pos& p2) { return norm(atan2(p1 / p2, p1 * p2)); }
int quad() const { return sign(y) == 1 || (sign(y) == 0 && sign(x) >= 0); }
friend bool cmpq(const Pos& a, const Pos& b) { return (a.quad() != b.quad()) ? a.quad() < b.quad() : a / b > 0; }
bool close(const Pos& p) const { return zero((*this - p).Euc()); }
friend std::istream& operator >> (std::istream& is, Pos& p) { is >> p.x >> p.y; return is; }
friend std::ostream& operator << (std::ostream& os, const Pos& p) { os << p.x << " " << p.y; return os; }
};
const Pos O = Pos(0, 0);
typedef std::vector<Pos> Polygon;
ld cross(const Pos& d1, const Pos& d2, const Pos& d3) { return (d2 - d1) / (d3 - d2); }
int ccw(const Pos& d1, const Pos& d2, const Pos& d3) {
ld ret = cross(d1, d2, d3);
return zero(ret) ? 0 : ret > 0 ? 1 : -1;
}
Pos intersection(const Pos& p1, const Pos& p2, const Pos& q1, const Pos& q2) {
ld a1 = cross(q1, q2, p1), a2 = -cross(q1, q2, p2);
return (p1 * a2 + p2 * a1) / (a1 + a2);
}
struct Circle {
Pii c;
int r;
Circle(Pii C = Pii(0, 0), int R = 0) : c(C), r(R) {}
bool operator == (const Circle& C) const { return c == C.c && r == C.r; }
bool operator != (const Circle& C) const { return !(*this == C); }
bool operator < (const Circle& q) const {
ll dist = sqr((ll)r - q.r);
return r < q.r && dist >= (c - q.c).Euc();
}
bool operator > (const Pii& p) const { return r > (c - p).mag(); }
bool operator >= (const Pii& p) const { return r + TOL > (c - p).mag(); }
bool operator < (const Pii& p) const { return r < (c - p).mag(); }
Circle operator + (const Circle& C) const { return { c + C.c, r + C.r }; }
Circle operator - (const Circle& C) const { return { c - C.c, r - C.r }; }
ld H(const ld& th) const { return sin(th) * c.x + cos(th) * c.y + r; }//coord trans | check right
ld A() const { return r * r * PI; }
friend std::istream& operator >> (std::istream& is, Circle& c) { is >> c.c >> c.r; return is; }
friend std::ostream& operator << (std::ostream& os, const Circle& c) { os << c.c << " " << c.r; return os; }
};
bool cmpr(const Circle& p, const Circle& q) { return p.r > q.r; }//sort descending order
typedef std::vector<Circle> Disks;
struct Arc {
ld lo, hi;// [lo, hi] - radian range of arc, 0 ~ 2pi
Circle cen;
Arc(ld LO = 0, ld HI = 0, Circle CEN = Circle(Pii(0, 0), 0)) : lo(LO), hi(HI), cen(CEN) {}
bool operator < (const Arc& a) const { return zero(lo - a.lo) ? hi < a.hi : lo < a.lo; }
ld area() const { return (hi - lo) * cen.r * cen.r; }
ld green() const {
Pos LO = -Pos(1, 0).rot(lo) * cen.r / 1;
Pos HI = Pos(1, 0).rot(hi) * cen.r / 1;
Pos vec = Pos(cen.c.x, cen.c.y);
int x = cen.c.x, y = cen.c.y, r = cen.r;
ld b = x * r * (sin(hi) - sin(lo));
ld d = y * r * (cos(lo) - cos(hi));
return (area() + b + d) * .5;
}
friend std::ostream& operator << (std::ostream& os, const Arc& l) { os << l.lo << " " << l.hi << " " << l.cen.r; return os; }
};
typedef std::vector<Arc> Arcs;
std::vector<Pos> intersection(const Circle& a, const Circle& b) {
Pii ca = a.c, cb = b.c;
Pii vec = cb - ca;
ll ra = a.r, rb = b.r;
ld distance = vec.mag();
ld rd = vec.rad();
if (vec.Euc() > sqr(ra + rb) + TOL) return {};
if (vec.Euc() < sqr(ra - rb) - TOL) return {};
//2nd hyprblc law of cos
ld X = (ra * ra - rb * rb + vec.Euc()) / (2 * distance * ra);
//if (X < -1 + TOL || X > 1 - TOL) return {};
if (X < -1) X = -1;
if (X > 1) X = 1;
ld h = acos(X);
return { Pos(norm(rd - h), norm(rd + h)) };
}
ld union_except_x(const int& x, std::vector<Circle>& VC) {
ld union_area = 0;
int sz = VC.size();
for (int i = 0; i < sz; i++) {
if (i == x) continue;
Circle& disk = VC[i];
Arcs arcs;
for (int j = 0; j < sz; j++) {
if (j == x || j == i) continue;
Pii vec = VC[i].c - VC[j].c;
ll ra = VC[i].r, rb = VC[j].r;
assert(vec.Euc() >= sqr(ra + rb));
if (vec.Euc() >= sqr(ra + rb)) continue;
if (vec.Euc() <= sqr(ra - rb)) continue;
auto inx = intersection(VC[i], VC[j]);
//std::cout << inx.size() << "\n";
if (!inx.size()) continue;
ld lo = inx[0].x;
ld hi = inx[0].y;
Arc a1, a2;
if (lo > hi) {
a1 = Arc(lo, PI * 2, disk);
a2 = Arc(0, hi, disk);
arcs.push_back(a1);
arcs.push_back(a2);
}
else {
a1 = Arc(lo, hi, disk);
arcs.push_back(a1);
}
}
if (!arcs.size()) {
//std::cout << "i : " << i << "\n";
union_area += disk.A();
continue;
}
std::sort(arcs.begin(), arcs.end());
arcs.push_back(Arc(2 * PI, 2 * PI, disk));
ld hi = 0;
for (const Arc& a : arcs) {
//std::cout << "arc[" << i << "] : " << a << "\n";
if (a.lo > hi) union_area += Arc(hi, a.lo, disk).green(), hi = a.hi;
else hi = std::max(hi, a.hi);
}
}
return union_area;
}
void solve() {
std::cin.tie(0)->sync_with_stdio(0);
std::cout.tie(0);
std::cout << std::fixed;
std::cout.precision(3);
int ret = 0;
std::cin >> N;
std::vector<Circle> tmp(N);
std::vector<bool> V(N, 0);
for (Circle& c : tmp) std::cin >> c;
std::sort(tmp.begin(), tmp.end(), cmpr);
for (int i = 0; i < N; i++) {//remove
if (V[i]) continue;
for (int j = 0; j < N; j++) {
if (i < j && tmp[i] == tmp[j]) V[i] = 1;
if (tmp[i] < tmp[j]) V[i] = 1;
if (tmp[j] < tmp[i]) V[j] = 1;
}
}
Disks VC;
for (int i = 0; i < N; i++) {
if (!V[i]) VC.push_back(tmp[i]);
if (V[i]) ret++;
}
int sz = VC.size();
ld U = union_except_x(-1, VC);
for (int x = 0; x < sz; x++) {
ld A = union_except_x(x, VC);
ret += zero(U - A);//no-dabwon
}
std::cout << ret << "\n";
}
int main() { solve(); return 0; }//boj10900 lonely mdic
/*
3
3 0 4
-3 0 4
0 0 2
5
0 0 1
1 1 1
-1 1 1
-1 -1 1
1 -1 1
9
3 0 4
-3 0 4
0 0 2
9 0 4
6 0 2
15 0 4
12 0 2
21 0 4
18 0 2
5
1000 1000 1415
1000 -1000 1415
-1000 -1000 1415
-1000 1000 1415
0 0 1
5
1000 1000 1414
1000 -1000 1414
-1000 -1000 1414
-1000 1000 1414
0 0 1
*/
Compilation message
L.cpp: In member function 'ld Arc::green() const':
L.cpp:139:7: warning: variable 'LO' set but not used [-Wunused-but-set-variable]
139 | Pos LO = -Pos(1, 0).rot(lo) * cen.r / 1;
| ^~
L.cpp:140:7: warning: variable 'HI' set but not used [-Wunused-but-set-variable]
140 | Pos HI = Pos(1, 0).rot(hi) * cen.r / 1;
| ^~
L.cpp:141:7: warning: variable 'vec' set but not used [-Wunused-but-set-variable]
141 | Pos vec = Pos(cen.c.x, cen.c.y);
| ^~~
# |
Verdict |
Execution time |
Memory |
Grader output |
1 |
Runtime error |
1 ms |
600 KB |
Execution killed with signal 6 |
2 |
Halted |
0 ms |
0 KB |
- |