#include "Point.hpp" #include namespace Slic3r { void Point::scale(double factor) { this->x *= factor; this->y *= factor; } void Point::translate(double x, double y) { this->x += x; this->y += y; } void Point::rotate(double angle, Point* center) { double cur_x = (double)this->x; double cur_y = (double)this->y; this->x = (long)round( (double)center->x + cos(angle) * (cur_x - (double)center->x) - sin(angle) * (cur_y - (double)center->y) ); this->y = (long)round( (double)center->y + cos(angle) * (cur_y - (double)center->y) + sin(angle) * (cur_x - (double)center->x) ); } bool Point::coincides_with(const Point* point) const { return this->x == point->x && this->y == point->y; } int Point::nearest_point_index(const Points points) const { int idx = -1; long distance = -1; for (Points::const_iterator it = points.begin(); it != points.end(); ++it) { /* If the X distance of the candidate is > than the total distance of the best previous candidate, we know we don't want it */ long d = pow(this->x - (*it).x, 2); if (distance != -1 && d > distance) continue; /* If the Y distance of the candidate is > than the total distance of the best previous candidate, we know we don't want it */ d += pow(this->y - (*it).y, 2); if (distance != -1 && d > distance) continue; idx = it - points.begin(); distance = d; if (distance < EPSILON) break; } return idx; } Point* Point::nearest_point(Points points) const { return &(points.at(this->nearest_point_index(points))); } double Point::distance_to(const Point* point) const { double dx = ((double)point->x - this->x); double dy = ((double)point->y - this->y); return sqrt(dx*dx + dy*dy); } SV* Point::to_SV_ref() { SV* sv = newSV(0); sv_setref_pv( sv, "Slic3r::Point::Ref", (void*)this ); return sv; } SV* Point::to_SV_clone_ref() const { SV* sv = newSV(0); sv_setref_pv( sv, "Slic3r::Point", new Point(*this) ); return sv; } SV* Point::to_SV_pureperl() const { AV* av = newAV(); av_fill(av, 1); av_store(av, 0, newSViv(this->x)); av_store(av, 1, newSViv(this->y)); return newRV_noinc((SV*)av); } void Point::from_SV(SV* point_sv) { AV* point_av = (AV*)SvRV(point_sv); this->x = (long)SvIV(*av_fetch(point_av, 0, 0)); this->y = (long)SvIV(*av_fetch(point_av, 1, 0)); } void Point::from_SV_check(SV* point_sv) { if (sv_isobject(point_sv) && (SvTYPE(SvRV(point_sv)) == SVt_PVMG)) { *this = *(Point*)SvIV((SV*)SvRV( point_sv )); } else { this->from_SV(point_sv); } } }