Triathlon

【题目链接】Triathlon

【题目类型】半平面交

&题解：

做了2道了,感觉好像套路,都是二分答案,判断半平面交是否为空.

还有刘汝佳的代码总是写const +& 但是我今天试了6次,3次const +& 和3次直接参数传值,发现时间只差了5ms左右,所以我觉得以后不用总是写const +&,因为写的代码长了,但又没有加快多少.

&代码：

#include <cstdio>

#include <cmath>

#include <algorithm>

#include <vector>

using namespace std;

struct Point {

	double x, y;

	Point(double x = 0, double y = 0): x(x) , y(y) {}

};

typedef Point Vector;

Vector operator + (const Vector& A, const Vector& B) { return Vector(A.x + B.x, A.y + B.y); }

Vector operator - (const Vector& A, const Vector& B) { return Vector(A.x - B.x, A.y - B.y); }

Vector operator * (const Vector& A, double p) { return Vector(A.x * p, A.y * p); }

double Dot(const Vector& A, const Vector& B) { return A.x * B.x + A.y * B.y; }

double Cross(const Vector& A, const Vector& B) { return A.x * B.y - A.y * B.x; }

double Length(const Vector& A) { return sqrt(Dot(A, A)); }

Vector Normal(const Vector& A) { double l = Length(A) ; return Vector(-A.y / l , A.x / l); }

double PolygonArea(vector<Point> p) {

	int n = p.size();

	double ans = 0;

	for(int i = 1; i < n - 1; i++) {

		ans += Cross(p[i] - p[0], p[i + 1] - p[0]);

	}

	return ans / 2;

}

struct Line {

	Point p, v;

	double ang;

	Line() {}

	Line(Point p, Vector v): p(p), v(v) { ang = atan2(v.y, v.x);}

	bool operator < (const Line& l) const {

		return ang < l.ang;

	}

};

bool OnLeft(const Line& l, const Point& p) {

	return Cross(l.v, p - l.p) > 0;

}

Point GetLineIntersection(const Line& a, const Line& b) {

	Vector u = a.p - b.p;

	double t = Cross(b.v, u) / Cross(a.v, b.v);

	return a.p + a.v * t;

}

const double eps = 1e-6;

vector<Point> HalfplaneIntersection(vector<Line> L) {

	int n = L.size();

	sort(L.begin(), L.end());

	int first, last;

	vector<Point> p(n), ans;

	vector<Line> que(n);

	que[first = last = 0] = L[0];

	for(int i = 1; i < n; i++) {

		while(first < last && !OnLeft(L[i], p[last - 1])) last--;

		while(first < last && !OnLeft(L[i], p[first])) first++;

		que[++last] = L[i];

		if(fabs(Cross(que[last].v, que[last - 1].v)) < eps) {

			last--;

			//This is que[last] not que[i]

			if(OnLeft(que[last], L[i].p)) que[last] = L[i];

		}

		if(first < last) {

			p[last - 1] = GetLineIntersection(que[last - 1], que[last]);

		}

	}

	while(first < last && !OnLeft(que[first], p[last - 1])) last--;

	if(last - first <= 1) return ans;

	p[last] = GetLineIntersection(que[last], que[first]);

	for(int i = first; i <= last; i++)

		ans.push_back(p[i]);

	return ans;

}

const int maxn = 110;

int V[maxn], U[maxn], W[maxn];

int main() {

	//("E:1.in", "r", stdin);

	int n;

	while(scanf("%d", &n) == 1 && n) {

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

			scanf("%d%d%d", &V[i], &U[i], &W[i]);

		}

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

			int ok = 1;

			double k = 10000;

			vector<Line> L;

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

					if(V[i] <= V[j] && U[i] <= U[j] && W[i] <= W[j]) { ok = 0; break; }

					if(V[i] >= V[j] && U[i] >= U[j] && W[i] >= W[j]) { continue; }

					double a = (k / V[j] - k / W[j]) - (k / V[i] - k / W[i]);

					double b = (k / U[j] - k / W[j]) - (k / U[i] - k / W[i]);

					double c = k / W[j] - k / W[i];

					Point p;

					Vector v(b, -a);

					if(fabs(a) > fabs(b)) p = Point(-c / a , 0);

					else p = Point(0 , -c / b);

					L.push_back(Line(p, v));

				}

			if(ok) {

				// x>0, y>0, x+y<1 ==> -x-y+1>0

				L.push_back(Line(Point(0, 0), Vector(0, -1)));

				L.push_back(Line(Point(0, 0), Vector(1, 0)));

				L.push_back(Line(Point(0, 1), Vector(-1, 1)));

				vector<Point> poly = HalfplaneIntersection(L);

				if(poly.empty()) ok = 0;

			}

			puts(ok ? "Yes" : "No");

		}

	}

	return 0;

}