PrusaSlicer-NonPlainar/src/libslic3r/Fill/FillBase.hpp

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#ifndef slic3r_FillBase_hpp_
#define slic3r_FillBase_hpp_
#include <assert.h>
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#include <memory.h>
#include <float.h>
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#include <stdint.h>
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#include <type_traits>
#include "../libslic3r.h"
#include "../BoundingBox.hpp"
#include "../PrintConfig.hpp"
#include "../Utils.hpp"
namespace Slic3r {
class ExPolygon;
class Surface;
struct FillParams
{
FillParams() {
memset(this, 0, sizeof(FillParams));
// Adjustment does not work.
dont_adjust = true;
}
bool full_infill() const { return density > 0.9999f; }
// Fill density, fraction in <0, 1>
float density;
// 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;
};
static_assert(IsTriviallyCopyable<FillParams>::value, "FillParams class is not POD (and it should be - see constructor).");
class Fill
{
public:
// Index of the layer.
size_t layer_id;
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// Z coordinate of the top print surface, in unscaled coordinates
coordf_t z;
// in unscaled coordinates
coordf_t spacing;
// infill / perimeter overlap, in unscaled coordinates
coordf_t overlap;
// in radians, ccw, 0 = East
float angle;
// In scaled coordinates. Maximum lenght of a perimeter segment connecting two infill lines.
// Used by the FillRectilinear2, FillGrid2, FillTriangles, FillStars and FillCubic.
// If left to zero, the links will not be limited.
coord_t link_max_length;
// In scaled coordinates. Used by the concentric infill pattern to clip the loops to create extrusion paths.
coord_t loop_clipping;
// In scaled coordinates. Bounding box of the 2D projection of the object.
BoundingBox bounding_box;
public:
virtual ~Fill() {}
static Fill* new_from_type(const InfillPattern type);
static Fill* new_from_type(const std::string &type);
static bool use_bridge_flow(const InfillPattern 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.
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virtual Polylines fill_surface(const Surface *surface, const FillParams &params);
protected:
Fill() :
layer_id(size_t(-1)),
z(0.),
spacing(0.),
// Infill / perimeter overlap.
overlap(0.),
// Initial angle is undefined.
angle(FLT_MAX),
link_max_length(0),
loop_clipping(0),
// The initial bounding box is empty, therefore undefined.
bounding_box(Point(0, 0), Point(-1, -1))
{}
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// The expolygon may be modified by the method to avoid a copy.
virtual void _fill_surface_single(
const FillParams & /* params */,
unsigned int /* thickness_layers */,
const std::pair<float, Point> & /* direction */,
ExPolygon & /* expolygon */,
Polylines & /* polylines_out */) {};
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virtual float _layer_angle(size_t idx) const { return (idx & 1) ? float(M_PI/2.) : 0; }
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virtual std::pair<float, Point> _infill_direction(const Surface *surface) const;
public:
static coord_t _adjust_solid_spacing(const coord_t width, const coord_t distance);
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// 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(0), spacing(0)), _align_to_grid(coord(1), spacing(1))); }
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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(0), spacing(0), base(0)), _align_to_grid(coord(1), spacing(1), base(1))); }
};
} // namespace Slic3r
#endif // slic3r_FillBase_hpp_