#pragma once #include struct vec { double x, y; vec(double xx, double yy) : x(xx), y(yy) {} double norm() const { return sqrt(x*x + y*y); } double angle() const { double xx = x / norm(); double a = acos(x); return (y > 0 ? a : -a); } vec normalize() const { double n = norm(); return vec(x / n, y / n); } bool is_nil() const { return x == 0 && y == 0; } vec operator+ (const vec& o) const { return vec(x + o.x, y + o.y); } vec operator- (const vec& o) const { return vec(x - o.x, y - o.y); } vec operator* (double m) const { return vec(m * x, m * y); } vec operator/ (double m) const { return vec(m / x, m / y); } static vec from_polar(double r, double theta) { return vec(r * cos(theta), r * sin(theta)); } static vec dot(vec a, vec b) { // dot product (produit scalaire) return a.x * b.x + a.y * b.y; } static vec cross(vec a, vec b) { // cross product (déterminant 2x2) return a.x * b.y - a.y * b.x; } static vec angle(vec a, vec b) { // oriented angle between two vectors if (a.is_nil() || b.is_nil()) return 0; float cos = dot(a.normalize(), b.normalize()); if (cos <= -1) return M_PI; float uangle = acos(cos); if (cross(a, b) > 0) { return uangle; } else { return -uangle; } } }; struct line { // Line defined by ax + by + c = 0 double a, b, c; line(double aa, double bb, double cc) : a(aa), b(bb), c(cc) {} bool on_line(vec p) const { return a * p.x + b * p.y + c == 0; } double dist(vec p) const { // calculate distance from p to the line // TODO return 1; } vec proj(vec p) const { // calculate orthogonal projection of point p on the line // TODO return vec(0, 0); } double angle() const { return vec(-b, a).angle(); } }; struct segment { vec a, b; segment(vec pa, vec pb) : a(pa), b(pb) {} bool on_segment(vec p) const { // TODO // does point intersect segment? return false; } double dist(vec p) const { // TODO return 1; } }; struct circle { vec c; double r; circle(double x, double y, double rr) : c(x, y), r(rr) {} circle(vec cc, double rr) : c(cc), r(rr) {} bool on_circle(vec.p) const { return ((p - c).norm() == r); } double dist(vec p) const { // TODO return 1; } }; struct circpoint { circle c; double theta; circpoint(circle cc, double th) : c(cc), theta(th) {} circpoint(vec cc, double rr, double th : c(cc, rr), theta(th) {} vec pos() const { return c.c + vec(c.r * cos(theta), c.r * sin(theta)); } }; struct circarc { circle c; double theta1, theta2; circarc(circle cc, double tha, double thb) : c(cc), theta1(tha), theta2(thb) {} double dist(vec p) const { // TODO return 1; } }; /* vim: set ts=4 sw=4 tw=0 noet :*/