#ifndef slic3r_ExPolygon_hpp_ #define slic3r_ExPolygon_hpp_ #include "Polygon.hpp" #include namespace Slic3r { class ExPolygon; typedef std::vector ExPolygons; class ExPolygon { public: Polygon contour; Polygons holes; operator Points() const; operator Polygons() const; void scale(double factor); void translate(double x, double y); void rotate(double angle, const Point ¢er); double area() const; bool is_valid() const; bool contains_line(const Line &line) const; bool contains_point(const Point &point) const; Polygons simplify_p(double tolerance) const; ExPolygons simplify(double tolerance) const; void simplify(double tolerance, ExPolygons &expolygons) const; void medial_axis(double max_width, double min_width, Polylines* polylines) const; void get_trapezoids(Polygons* polygons) const; void get_trapezoids(Polygons* polygons, double angle) const; void get_trapezoids2(Polygons* polygons) const; void get_trapezoids2(Polygons* polygons, double angle) const; void triangulate(Polygons* polygons) const; void triangulate_pp(Polygons* polygons) const; void triangulate_p2t(Polygons* polygons) const; #ifdef SLIC3RXS void from_SV(SV* poly_sv); void from_SV_check(SV* poly_sv); SV* to_AV(); SV* to_SV_pureperl() const; #endif }; } // start Boost #include namespace boost { namespace polygon { template <> struct polygon_traits { typedef coord_t coordinate_type; typedef Points::const_iterator iterator_type; typedef Point point_type; // Get the begin iterator static inline iterator_type begin_points(const ExPolygon& t) { return t.contour.points.begin(); } // Get the end iterator static inline iterator_type end_points(const ExPolygon& t) { return t.contour.points.end(); } // Get the number of sides of the polygon static inline std::size_t size(const ExPolygon& t) { return t.contour.points.size(); } // Get the winding direction of the polygon static inline winding_direction winding(const ExPolygon& t) { return unknown_winding; } }; template <> struct polygon_mutable_traits { //expects stl style iterators template static inline ExPolygon& set_points(ExPolygon& expolygon, iT input_begin, iT input_end) { expolygon.contour.points.assign(input_begin, input_end); // skip last point since Boost will set last point = first point expolygon.contour.points.pop_back(); return expolygon; } }; template <> struct geometry_concept { typedef polygon_with_holes_concept type; }; template <> struct polygon_with_holes_traits { typedef Polygons::const_iterator iterator_holes_type; typedef Polygon hole_type; static inline iterator_holes_type begin_holes(const ExPolygon& t) { return t.holes.begin(); } static inline iterator_holes_type end_holes(const ExPolygon& t) { return t.holes.end(); } static inline unsigned int size_holes(const ExPolygon& t) { return t.holes.size(); } }; template <> struct polygon_with_holes_mutable_traits { template static inline ExPolygon& set_holes(ExPolygon& t, iT inputBegin, iT inputEnd) { t.holes.assign(inputBegin, inputEnd); return t; } }; //first we register CPolygonSet as a polygon set template <> struct geometry_concept { typedef polygon_set_concept type; }; //next we map to the concept through traits template <> struct polygon_set_traits { typedef coord_t coordinate_type; typedef ExPolygons::const_iterator iterator_type; typedef ExPolygons operator_arg_type; static inline iterator_type begin(const ExPolygons& polygon_set) { return polygon_set.begin(); } static inline iterator_type end(const ExPolygons& polygon_set) { return polygon_set.end(); } //don't worry about these, just return false from them static inline bool clean(const ExPolygons& polygon_set) { return false; } static inline bool sorted(const ExPolygons& polygon_set) { return false; } }; template <> struct polygon_set_mutable_traits { template static inline void set(ExPolygons& expolygons, input_iterator_type input_begin, input_iterator_type input_end) { expolygons.assign(input_begin, input_end); } }; } } // end Boost #endif