#ifndef slic3r_FillBase_hpp_ #define slic3r_FillBase_hpp_ #include #include #include #include "../libslic3r.h" #include "../BoundingBox.hpp" namespace Slic3r { class Surface; struct FillParams { FillParams() { memset(this, 0, sizeof(FillParams)); } coordf_t width; // Fraction in <0, 1> float density; coordf_t distance; // Don't connect the fill lines around the inner perimeter. bool dont_connect; // Don't adjust spacing to fill the space evenly. bool dont_adjust; // For Honeycomb. // we were requested to complete each loop; // in this case we don't try to make more continuous paths bool complete; }; class Fill { public: // Index of the layer. size_t layer_id; // Height of the layer, in unscaled coordinates coordf_t z; // in unscaled coordinates coordf_t spacing; // in radians, ccw, 0 = East float angle; // in scaled coordinates coord_t loop_clipping; // in scaled coordinates BoundingBox bounding_box; public: virtual ~Fill() {} static Fill* new_from_type(const std::string &type); void set_bounding_box(const Slic3r::BoundingBox &bbox) { bounding_box = bbox; } // Use bridge flow for the fill? virtual bool use_bridge_flow() const { return false; } // Do not sort the fill lines to optimize the print head path? virtual bool no_sort() const { return false; } // Perform the fill. virtual Polylines fill_surface(const Surface *surface, const FillParams ¶ms); protected: Fill() : layer_id(size_t(-1)), z(0.f), spacing(0.f), // Initial angle is undefined. angle(FLT_MAX), loop_clipping(0), // The initial bounding box is empty, therefore undefined. bounding_box(Point(0, 0), Point(-1, -1)) {} // The expolygon may be modified by the method to avoid a copy. virtual void _fill_surface_single( const FillParams ¶ms, unsigned int thickness_layers, const std::pair &direction, ExPolygon &expolygon, Polylines &polylines_out) {} static coord_t _adjust_solid_spacing(const coord_t width, const coord_t distance); virtual float _layer_angle(size_t idx) const { bool odd = idx & 1; return (idx & 1) ? float(M_PI/2.) : 0; } virtual std::pair _infill_direction(const Surface *surface) const; // Align a coordinate to a grid. The coordinate may be negative, // the aligned value will never be bigger than the original one. static coord_t _align_to_grid(const coord_t coord, const coord_t spacing) { // Current C++ standard defines the result of integer division to be rounded to zero, // for both positive and negative numbers. Here we want to round down for negative // numbers as well. coord_t aligned = (coord < 0) ? ((coord - spacing + 1) / spacing) * spacing : (coord / spacing) * spacing; assert(aligned <= coord); return aligned; } static Point _align_to_grid(Point coord, Point spacing) { return Point(_align_to_grid(coord.x, spacing.x), _align_to_grid(coord.y, spacing.y)); } static coord_t _align_to_grid(coord_t coord, coord_t spacing, coord_t base) { return base + _align_to_grid(coord - base, spacing); } static Point _align_to_grid(Point coord, Point spacing, Point base) { return Point(_align_to_grid(coord.x, spacing.x, base.x), _align_to_grid(coord.y, spacing.y, base.y)); } }; // An interface class to Perl, aggregating an instance of a Fill and a FillData. class Filler { public: Filler() : fill(NULL) {} ~Filler() { delete fill; fill = NULL; } Fill *fill; FillParams params; }; } // namespace Slic3r #endif // slic3r_FillBase_hpp_