PrusaSlicer-NonPlainar/xs/src/libslic3r/Layer.hpp

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#ifndef slic3r_Layer_hpp_
#define slic3r_Layer_hpp_
#include "libslic3r.h"
#include "Flow.hpp"
#include "SurfaceCollection.hpp"
#include "ExtrusionEntityCollection.hpp"
#include "ExPolygonCollection.hpp"
#include "PolylineCollection.hpp"
namespace Slic3r {
class Layer;
class PrintRegion;
class PrintObject;
// TODO: make stuff private
class LayerRegion
{
friend class Layer;
public:
Layer* layer() { return this->_layer; }
const Layer* layer() const { return this->_layer; }
PrintRegion* region() { return this->_region; }
const PrintRegion* region() const { return this->_region; }
// collection of surfaces generated by slicing the original geometry
// divided by type top/bottom/internal
SurfaceCollection slices;
// collection of extrusion paths/loops filling gaps
// These fills are generated by the perimeter generator.
// They are not printed on their own, but they are copied to this->fills during infill generation.
ExtrusionEntityCollection thin_fills;
// Unspecified fill polygons, used for overhang detection ("ensure vertical wall thickness feature")
// and for re-starting of infills.
ExPolygons fill_expolygons;
// collection of surfaces for infill generation
SurfaceCollection fill_surfaces;
// Collection of perimeter surfaces. This is a cached result of diff(slices, fill_surfaces).
// While not necessary, the memory consumption is meager and it speeds up calculation.
// The perimeter_surfaces keep the IDs of the slices (top/bottom/)
SurfaceCollection perimeter_surfaces;
// collection of expolygons representing the bridged areas (thus not
// needing support material)
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Polygons bridged;
// collection of polylines representing the unsupported bridge edges
PolylineCollection unsupported_bridge_edges;
// ordered collection of extrusion paths/loops to build all perimeters
// (this collection contains only ExtrusionEntityCollection objects)
ExtrusionEntityCollection perimeters;
// ordered collection of extrusion paths to fill surfaces
// (this collection contains only ExtrusionEntityCollection objects)
ExtrusionEntityCollection fills;
Flow flow(FlowRole role, bool bridge = false, double width = -1) const;
void slices_to_fill_surfaces_clipped();
void prepare_fill_surfaces();
void make_perimeters(const SurfaceCollection &slices, SurfaceCollection* fill_surfaces);
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void process_external_surfaces(const Layer* lower_layer);
double infill_area_threshold() const;
void export_region_slices_to_svg(const char *path);
void export_region_fill_surfaces_to_svg(const char *path);
// Export to "out/LayerRegion-name-%d.svg" with an increasing index with every export.
void export_region_slices_to_svg_debug(const char *name);
void export_region_fill_surfaces_to_svg_debug(const char *name);
private:
Layer *_layer;
PrintRegion *_region;
LayerRegion(Layer *layer, PrintRegion *region) : _layer(layer), _region(region) {}
~LayerRegion() {}
};
typedef std::vector<LayerRegion*> LayerRegionPtrs;
class Layer {
friend class PrintObject;
public:
size_t id() const { return this->_id; }
void set_id(size_t id) { this->_id = id; }
PrintObject* object() { return this->_object; }
const PrintObject* object() const { return this->_object; }
Layer *upper_layer;
Layer *lower_layer;
LayerRegionPtrs regions;
bool slicing_errors;
coordf_t slice_z; // Z used for slicing in unscaled coordinates
coordf_t print_z; // Z used for printing in unscaled coordinates
coordf_t height; // layer height in unscaled coordinates
// collection of expolygons generated by slicing the original geometry;
// also known as 'islands' (all regions and surface types are merged here)
// The slices are chained by the shortest traverse distance and this traversal
// order will be recovered by the G-code generator.
ExPolygonCollection slices;
size_t region_count() const { return this->regions.size(); }
const LayerRegion* get_region(int idx) const { return this->regions.at(idx); }
LayerRegion* get_region(int idx) { return this->regions.at(idx); }
LayerRegion* add_region(PrintRegion* print_region);
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void make_slices();
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void merge_slices();
template <class T> bool any_internal_region_slice_contains(const T &item) const {
for (const LayerRegion *layerm : this->regions) if (layerm->slices.any_internal_contains(item)) return true;
return false;
}
template <class T> bool any_bottom_region_slice_contains(const T &item) const {
for (const LayerRegion *layerm : this->regions) if (layerm->slices.any_bottom_contains(item)) return true;
return false;
}
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void make_perimeters();
void make_fills();
void export_region_slices_to_svg(const char *path);
void export_region_fill_surfaces_to_svg(const char *path);
// Export to "out/LayerRegion-name-%d.svg" with an increasing index with every export.
void export_region_slices_to_svg_debug(const char *name);
void export_region_fill_surfaces_to_svg_debug(const char *name);
protected:
size_t _id; // sequential number of layer, 0-based
PrintObject *_object;
Layer(size_t id, PrintObject *object, coordf_t height, coordf_t print_z, coordf_t slice_z) :
upper_layer(nullptr), lower_layer(nullptr), slicing_errors(false),
slice_z(slice_z), print_z(print_z), height(height),
_id(id), _object(object) {}
virtual ~Layer();
};
class SupportLayer : public Layer {
friend class PrintObject;
public:
// Polygons covered by the supports: base, interface and contact areas.
ExPolygonCollection support_islands;
// Extrusion paths for the support base and for the support interface and contacts.
ExtrusionEntityCollection support_fills;
protected:
SupportLayer(size_t id, PrintObject *object, coordf_t height, coordf_t print_z, coordf_t slice_z) :
Layer(id, object, height, print_z, slice_z) {}
virtual ~SupportLayer() {}
};
}
#endif