#ifndef slic3r_Point_hpp_ #define slic3r_Point_hpp_ #include #include #include #include namespace Slic3r { class Line; class Point; class Pointf; typedef Point Vector; typedef std::vector Points; typedef std::vector PointPtrs; typedef std::vector Pointfs; class Point { public: coord_t x; coord_t y; explicit Point(coord_t _x = 0, coord_t _y = 0): x(_x), y(_y) {}; bool operator==(const Point& rhs) const; std::string wkt() const; void scale(double factor); void translate(double x, double y); void rotate(double angle, const Point ¢er); bool coincides_with(const Point &point) const; bool coincides_with(const Point* point) const; int nearest_point_index(Points &points) const; int nearest_point_index(PointPtrs &points) const; Point* nearest_point(Points points) const; double distance_to(const Point* point) const; double distance_to(const Line* line) const; double distance_to(const Line &line) const; double ccw(const Point &p1, const Point &p2) const; double ccw(const Point* p1, const Point* p2) const; double ccw(const Line &line) const; #ifdef SLIC3RXS void from_SV(SV* point_sv); void from_SV_check(SV* point_sv); SV* to_SV_ref(); SV* to_SV_clone_ref() const; SV* to_SV_pureperl() const; #endif }; class Point3 : public Point { public: coord_t z; explicit Point3(coord_t _x = 0, coord_t _y = 0, coord_t _z = 0): Point(_x, _y), z(_z) {}; }; class Pointf { public: coordf_t x; coordf_t y; explicit Pointf(coordf_t _x = 0, coordf_t _y = 0): x(_x), y(_y) {}; void scale(double factor); void translate(double x, double y); #ifdef SLIC3RXS bool from_SV(SV* point_sv); SV* to_SV_pureperl() const; #endif }; class Pointf3 : public Pointf { public: coordf_t z; explicit Pointf3(coordf_t _x = 0, coordf_t _y = 0, coordf_t _z = 0): Pointf(_x, _y), z(_z) {}; void scale(double factor); void translate(double x, double y, double z); }; } // start Boost #include namespace boost { namespace polygon { template <> struct geometry_concept { typedef coordinate_concept type; }; template <> struct coordinate_traits { typedef coord_t coordinate_type; typedef long double area_type; typedef long long manhattan_area_type; typedef unsigned long long unsigned_area_type; typedef long long coordinate_difference; typedef long double coordinate_distance; }; template <> struct geometry_concept { typedef point_concept type; }; template <> struct point_traits { typedef coord_t coordinate_type; static inline coordinate_type get(const Point& point, orientation_2d orient) { return (orient == HORIZONTAL) ? point.x : point.y; } }; template <> struct point_mutable_traits { typedef coord_t coordinate_type; static inline void set(Point& point, orientation_2d orient, coord_t value) { if (orient == HORIZONTAL) point.x = value; else point.y = value; } static inline Point construct(coord_t x_value, coord_t y_value) { Point retval; retval.x = x_value; retval.y = y_value; return retval; } }; } } // end Boost #endif