#ifndef slic3r_Line_hpp_ #define slic3r_Line_hpp_ #include #include "Point.hpp" namespace Slic3r { class Line; class Linef3; class Polyline; typedef std::vector Lines; class Line { public: Point a; Point b; Line() {}; explicit Line(Point _a, Point _b): a(_a), b(_b) {}; std::string wkt() const; operator Lines() const; operator Polyline() const; void scale(double factor); void translate(double x, double y); void rotate(double angle, const Point ¢er); void reverse(); double length() const; Point* midpoint() const; void point_at(double distance, Point* point) const; Point point_at(double distance) const; bool intersection_infinite(const Line &other, Point* point) const; bool coincides_with(const Line &line) const; double distance_to(const Point &point) const; bool parallel_to(double angle) const; bool parallel_to(const Line &line) const; double atan2_() const; double orientation() const; double direction() const; Vector vector() const; Vector normal() const; #ifdef SLIC3RXS void from_SV(SV* line_sv); void from_SV_check(SV* line_sv); SV* to_AV(); SV* to_SV_pureperl() const; #endif }; class Linef { public: Pointf a; Pointf b; Linef() {}; explicit Linef(Pointf _a, Pointf _b): a(_a), b(_b) {}; }; class Linef3 { public: Pointf3 a; Pointf3 b; Linef3() {}; explicit Linef3(Pointf3 _a, Pointf3 _b): a(_a), b(_b) {}; Pointf3 intersect_plane(double z) const; void scale(double factor); #ifdef SLIC3RXS void from_SV(SV* line_sv); void from_SV_check(SV* line_sv); SV* to_SV_pureperl() const; #endif }; } // start Boost #include namespace boost { namespace polygon { template <> struct geometry_concept { typedef segment_concept type; }; template <> struct segment_traits { typedef coord_t coordinate_type; typedef Point point_type; static inline point_type get(const Line& line, direction_1d dir) { return dir.to_int() ? line.b : line.a; } }; } } // end Boost #endif