PrusaSlicer-NonPlainar/src/libslic3r/PerimeterGenerator.hpp

#ifndef slic3r_PerimeterGenerator_hpp_
#define slic3r_PerimeterGenerator_hpp_

#include "libslic3r.h"
#include <vector>
#include "ExPolygonCollection.hpp"
#include "Flow.hpp"
#include "Polygon.hpp"
#include "PrintConfig.hpp"
#include "SurfaceCollection.hpp"

namespace Slic3r {

// Hierarchy of perimeters.
class PerimeterGeneratorLoop {
public:
    // Polygon of this contour.
    Polygon polygon;
    // Is it a contour or a hole?
    // Contours are CCW oriented, holes are CW oriented.
    bool is_contour;
    // Depth in the hierarchy. External perimeter has depth = 0. An external perimeter could be both a contour and a hole.
    unsigned short depth;
    // Children contour, may be both CCW and CW oriented (outer contours or holes).
    std::vector<PerimeterGeneratorLoop> children;
    
    PerimeterGeneratorLoop(Polygon polygon, unsigned short depth, bool is_contour) : 
        polygon(polygon), is_contour(is_contour), depth(depth) {}
    // External perimeter. It may be CCW or CW oriented (outer contour or hole contour).
    bool is_external() const { return this->depth == 0; }
    // An island, which may have holes, but it does not have another internal island.
    bool is_internal_contour() const;
};

typedef std::vector<PerimeterGeneratorLoop> PerimeterGeneratorLoops;

class PerimeterGenerator {
public:
    // Inputs:
    const SurfaceCollection     *slices;
    const ExPolygonCollection   *lower_slices;
    double                       layer_height;
    int                          layer_id;
    Flow                         perimeter_flow;
    Flow                         ext_perimeter_flow;
    Flow                         overhang_flow;
    Flow                         solid_infill_flow;
    const PrintRegionConfig     *config;
    const PrintObjectConfig     *object_config;
    const PrintConfig           *print_config;
    // Outputs:
    ExtrusionEntityCollection   *loops;
    ExtrusionEntityCollection   *gap_fill;
    SurfaceCollection           *fill_surfaces;
    
    PerimeterGenerator(
        // Input:
        const SurfaceCollection*    slices, 
        double                      layer_height,
        Flow                        flow,
        const PrintRegionConfig*    config,
        const PrintObjectConfig*    object_config,
        const PrintConfig*          print_config,
        // Output:
        // Loops with the external thin walls
        ExtrusionEntityCollection*  loops,
        // Gaps without the thin walls
        ExtrusionEntityCollection*  gap_fill,
        // Infills without the gap fills
        SurfaceCollection*          fill_surfaces)
        : slices(slices), lower_slices(NULL), layer_height(layer_height),
            layer_id(-1), perimeter_flow(flow), ext_perimeter_flow(flow),
            overhang_flow(flow), solid_infill_flow(flow),
            config(config), object_config(object_config), print_config(print_config),
            loops(loops), gap_fill(gap_fill), fill_surfaces(fill_surfaces),
            _ext_mm3_per_mm(-1), _mm3_per_mm(-1), _mm3_per_mm_overhang(-1)
        {}
    void process();

private:
    double      _ext_mm3_per_mm;
    double      _mm3_per_mm;
    double      _mm3_per_mm_overhang;
    Polygons    _lower_slices_p;
    
    ExtrusionEntityCollection _traverse_loops(const PerimeterGeneratorLoops &loops, ThickPolylines &thin_walls) const;
    ExtrusionEntityCollection _variable_width(const ThickPolylines &polylines, ExtrusionRole role, Flow flow) const;
};

}

#endif