#include "MultiPoint.hpp" namespace Slic3r { void MultiPoint::scale(double factor) { for (Points::iterator it = points.begin(); it != points.end(); ++it) { (*it).scale(factor); } } void MultiPoint::translate(double x, double y) { for (Points::iterator it = points.begin(); it != points.end(); ++it) { (*it).translate(x, y); } } void MultiPoint::rotate(double angle, const Point ¢er) { for (Points::iterator it = points.begin(); it != points.end(); ++it) { (*it).rotate(angle, center); } } void MultiPoint::reverse() { std::reverse(this->points.begin(), this->points.end()); } Point MultiPoint::first_point() const { return this->points.front(); } double MultiPoint::length() const { Lines lines = this->lines(); double len = 0; for (Lines::iterator it = lines.begin(); it != lines.end(); ++it) { len += it->length(); } return len; } bool MultiPoint::is_valid() const { return this->points.size() >= 2; } int MultiPoint::find_point(const Point &point) const { for (Points::const_iterator it = this->points.begin(); it != this->points.end(); ++it) { if (it->coincides_with(point)) return it - this->points.begin(); } return -1; // not found } Points MultiPoint::_douglas_peucker(const Points &points, const double tolerance) { Points results; double dmax = 0; size_t index = 0; Line full(points.front(), points.back()); for (Points::const_iterator it = points.begin() + 1; it != points.end(); ++it) { double d = it->distance_to(full); if (d > dmax) { index = it - points.begin(); dmax = d; } } if (dmax >= tolerance) { Points dp0; dp0.reserve(index + 1); dp0.insert(dp0.end(), points.begin(), points.begin() + index + 1); Points dp1 = MultiPoint::_douglas_peucker(dp0, tolerance); results.reserve(results.size() + dp1.size() - 1); results.insert(results.end(), dp1.begin(), dp1.end() - 1); dp0.clear(); dp0.reserve(points.size() - index + 1); dp0.insert(dp0.end(), points.begin() + index, points.end()); dp1 = MultiPoint::_douglas_peucker(dp0, tolerance); results.reserve(results.size() + dp1.size()); results.insert(results.end(), dp1.begin(), dp1.end()); } else { results.push_back(points.front()); results.push_back(points.back()); } return results; } #ifdef SLIC3RXS void MultiPoint::from_SV(SV* poly_sv) { AV* poly_av = (AV*)SvRV(poly_sv); const unsigned int num_points = av_len(poly_av)+1; this->points.resize(num_points); for (unsigned int i = 0; i < num_points; i++) { SV** point_sv = av_fetch(poly_av, i, 0); this->points[i].from_SV_check(*point_sv); } } void MultiPoint::from_SV_check(SV* poly_sv) { if (sv_isobject(poly_sv) && (SvTYPE(SvRV(poly_sv)) == SVt_PVMG)) { *this = *(MultiPoint*)SvIV((SV*)SvRV( poly_sv )); } else { this->from_SV(poly_sv); } } SV* MultiPoint::to_AV() { const unsigned int num_points = this->points.size(); AV* av = newAV(); av_extend(av, num_points-1); for (unsigned int i = 0; i < num_points; i++) { av_store(av, i, perl_to_SV_ref(this->points[i])); } return newRV_noinc((SV*)av); } SV* MultiPoint::to_SV_pureperl() const { const unsigned int num_points = this->points.size(); AV* av = newAV(); av_extend(av, num_points-1); for (unsigned int i = 0; i < num_points; i++) { av_store(av, i, this->points[i].to_SV_pureperl()); } return newRV_noinc((SV*)av); } #endif }