#include "PolygonTrimmer.hpp" #include "EdgeGrid.hpp" #include "Geometry.hpp" namespace Slic3r { TrimmedLoop trim_loop(const Polygon &loop, const EdgeGrid::Grid &grid) { assert(! loop.empty()); assert(loop.size() >= 2); TrimmedLoop out; if (loop.size() >= 2) { struct Visitor { Visitor(const EdgeGrid::Grid &grid, const Slic3r::Point *pt_prev, const Slic3r::Point *pt_this) : grid(grid), pt_prev(pt_prev), pt_this(pt_this) {} void operator()(coord_t iy, coord_t ix) { // Called with a row and colum of the grid cell, which is intersected by a line. auto cell_data_range = grid.cell_data_range(iy, ix); for (auto it_contour_and_segment = cell_data_range.first; it_contour_and_segment != cell_data_range.second; ++ it_contour_and_segment) { // End points of the line segment and their vector. auto segment = grid.segment(*it_contour_and_segment); if (Geometry::segments_intersect(segment.first, segment.second, *pt_prev, *pt_this)) { // The two segments intersect. Add them to the output. } } } const EdgeGrid::Grid &grid; const Slic3r::Point *pt_this; const Slic3r::Point *pt_prev; } visitor(grid, &loop.points.back(), nullptr); for (const Point &pt_this : loop.points) { visitor.pt_this = &pt_this; grid.visit_cells_intersecting_line(*visitor.pt_prev, pt_this, visitor); visitor.pt_prev = &pt_this; } } return out; } std::vector trim_loops(const Polygons &loops, const EdgeGrid::Grid &grid) { std::vector out; out.reserve(loops.size()); for (const Polygon &loop : loops) out.emplace_back(trim_loop(loop, grid)); return out; } }