%module{Slic3r::XS}; %{ #include #include "libslic3r/ExPolygonCollection.hpp" %} %name{Slic3r::ExPolygon::Collection} class ExPolygonCollection { ~ExPolygonCollection(); Clone clone() %code{% RETVAL = THIS; %}; void clear() %code{% THIS->expolygons.clear(); %}; void scale(double factor); void translate(double x, double y); void rotate(double angle, Point* center) %code{% THIS->rotate(angle, *center); %}; int count() %code{% RETVAL = THIS->expolygons.size(); %}; bool contains_point(Point* point) %code{% RETVAL = THIS->contains(*point); %}; bool contains_line(Line* line) %code{% RETVAL = THIS->contains(*line); %}; bool contains_polyline(Polyline* polyline) %code{% RETVAL = THIS->contains(*polyline); %}; void simplify(double tolerance); Polygons polygons() %code{% RETVAL = *THIS; %}; Clone convex_hull(); %{ ExPolygonCollection* ExPolygonCollection::new(...) CODE: RETVAL = new ExPolygonCollection (); // ST(0) is class name, others are expolygons RETVAL->expolygons.resize(items-1); for (unsigned int i = 1; i < items; i++) { // Note: a COPY of the input is stored from_SV_check(ST(i), &RETVAL->expolygons[i-1]); } OUTPUT: RETVAL SV* ExPolygonCollection::arrayref() CODE: AV* av = newAV(); av_fill(av, THIS->expolygons.size()-1); int i = 0; for (ExPolygons::iterator it = THIS->expolygons.begin(); it != THIS->expolygons.end(); ++it) { av_store(av, i++, perl_to_SV_ref(*it)); } RETVAL = newRV_noinc((SV*)av); OUTPUT: RETVAL SV* ExPolygonCollection::pp() CODE: AV* av = newAV(); av_fill(av, THIS->expolygons.size()-1); int i = 0; for (ExPolygons::iterator it = THIS->expolygons.begin(); it != THIS->expolygons.end(); ++it) { av_store(av, i++, to_SV_pureperl(&*it)); } RETVAL = newRV_noinc((SV*)av); OUTPUT: RETVAL void ExPolygonCollection::append(...) CODE: for (unsigned int i = 1; i < items; i++) { ExPolygon expolygon; from_SV_check(ST(i), &expolygon); THIS->expolygons.push_back(expolygon); } %} };