//----------------------------------------------------------- // legacy code from Clipper documentation void AddOuterPolyNodeToExPolygons(ClipperLib::PolyNode& polynode, Slic3r::ExPolygons& expolygons) { size_t cnt = expolygons.size(); expolygons.resize(cnt + 1); ClipperPath_to_Slic3rMultiPoint(polynode.Contour, expolygons[cnt].contour); expolygons[cnt].holes.resize(polynode.ChildCount()); for (int i = 0; i < polynode.ChildCount(); ++i) { ClipperPath_to_Slic3rMultiPoint(polynode.Childs[i]->Contour, expolygons[cnt].holes[i]); //Add outer polygons contained by (nested within) holes ... for (int j = 0; j < polynode.Childs[i]->ChildCount(); ++j) AddOuterPolyNodeToExPolygons(*polynode.Childs[i]->Childs[j], expolygons); } }
void offset(const Slic3r::Surface &surface, Slic3r::Surfaces &retval, const float delta, double scale, ClipperLib::JoinType joinType, double miterLimit) { // perform offset Slic3r::ExPolygons expp; offset_ex(surface.expolygon, expp, delta, scale, joinType, miterLimit); // clone the input surface for each expolygon we got retval.clear(); retval.reserve(expp.size()); for (ExPolygons::iterator it = expp.begin(); it != expp.end(); ++it) { Surface s = surface; // clone s.expolygon = *it; retval.push_back(s); } }
// This is a safe variant of the polygon offset, tailored for a single ExPolygon: // a single polygon with multiple non-overlapping holes. // Each contour and hole is offsetted separately, then the holes are subtracted from the outer contours. void offset(const Slic3r::ExPolygons &expolygons, ClipperLib::Paths* retval, const float delta, ClipperLib::JoinType joinType, double miterLimit) { // printf("new ExPolygon offset\n"); const float delta_scaled = delta * float(CLIPPER_OFFSET_SCALE); ClipperLib::Paths contours; ClipperLib::Paths holes; contours.reserve(expolygons.size()); { size_t n_holes = 0; for (size_t i = 0; i < expolygons.size(); ++ i) n_holes += expolygons[i].holes.size(); holes.reserve(n_holes); } for (Slic3r::ExPolygons::const_iterator it_expoly = expolygons.begin(); it_expoly != expolygons.end(); ++ it_expoly) { // 1) Offset the outer contour. { ClipperLib::Path input; Slic3rMultiPoint_to_ClipperPath(it_expoly->contour, &input); scaleClipperPolygon(input); ClipperLib::ClipperOffset co; if (joinType == jtRound) co.ArcTolerance = miterLimit * double(CLIPPER_OFFSET_SCALE); else co.MiterLimit = miterLimit; co.AddPath(input, joinType, ClipperLib::etClosedPolygon); ClipperLib::Paths out; co.Execute(out, delta_scaled); contours.insert(contours.end(), out.begin(), out.end()); } // 2) Offset the holes one by one, collect the results. { for (Polygons::const_iterator it_hole = it_expoly->holes.begin(); it_hole != it_expoly->holes.end(); ++ it_hole) { ClipperLib::Path input; Slic3rMultiPoint_to_ClipperPath_reversed(*it_hole, &input); scaleClipperPolygon(input); ClipperLib::ClipperOffset co; if (joinType == jtRound) co.ArcTolerance = miterLimit * double(CLIPPER_OFFSET_SCALE); else co.MiterLimit = miterLimit; co.AddPath(input, joinType, ClipperLib::etClosedPolygon); ClipperLib::Paths out; co.Execute(out, - delta_scaled); holes.insert(holes.end(), out.begin(), out.end()); } } } // 3) Subtract holes from the contours. ClipperLib::Paths output; { ClipperLib::Clipper clipper; clipper.Clear(); clipper.AddPaths(contours, ClipperLib::ptSubject, true); clipper.AddPaths(holes, ClipperLib::ptClip, true); clipper.Execute(ClipperLib::ctDifference, *retval, ClipperLib::pftNonZero, ClipperLib::pftNonZero); } // 4) Unscale the output. unscaleClipperPolygons(*retval); }
// This is a safe variant of the polygons offset, tailored for multiple ExPolygons. // It is required, that the input expolygons do not overlap and that the holes of each ExPolygon don't intersect with their respective outer contours. // Each ExPolygon is offsetted separately, then the offsetted ExPolygons are united. ClipperLib::Paths _offset(const Slic3r::ExPolygons &expolygons, const float delta, ClipperLib::JoinType joinType, double miterLimit) { const float delta_scaled = delta * float(CLIPPER_OFFSET_SCALE); // Offsetted ExPolygons before they are united. ClipperLib::Paths contours_cummulative; contours_cummulative.reserve(expolygons.size()); // How many non-empty offsetted expolygons were actually collected into contours_cummulative? // If only one, then there is no need to do a final union. size_t expolygons_collected = 0; for (Slic3r::ExPolygons::const_iterator it_expoly = expolygons.begin(); it_expoly != expolygons.end(); ++ it_expoly) { // 1) Offset the outer contour. ClipperLib::Paths contours; { ClipperLib::Path input = Slic3rMultiPoint_to_ClipperPath(it_expoly->contour); scaleClipperPolygon(input); ClipperLib::ClipperOffset co; if (joinType == jtRound) co.ArcTolerance = miterLimit * double(CLIPPER_OFFSET_SCALE); else co.MiterLimit = miterLimit; co.ShortestEdgeLength = double(std::abs(delta_scaled * CLIPPER_OFFSET_SHORTEST_EDGE_FACTOR)); co.AddPath(input, joinType, ClipperLib::etClosedPolygon); co.Execute(contours, delta_scaled); } if (contours.empty()) // No need to try to offset the holes. continue; if (it_expoly->holes.empty()) { // No need to subtract holes from the offsetted expolygon, we are done. contours_cummulative.insert(contours_cummulative.end(), contours.begin(), contours.end()); ++ expolygons_collected; } else { // 2) Offset the holes one by one, collect the offsetted holes. ClipperLib::Paths holes; { for (Polygons::const_iterator it_hole = it_expoly->holes.begin(); it_hole != it_expoly->holes.end(); ++ it_hole) { ClipperLib::Path input = Slic3rMultiPoint_to_ClipperPath_reversed(*it_hole); scaleClipperPolygon(input); ClipperLib::ClipperOffset co; if (joinType == jtRound) co.ArcTolerance = miterLimit * double(CLIPPER_OFFSET_SCALE); else co.MiterLimit = miterLimit; co.ShortestEdgeLength = double(std::abs(delta_scaled * CLIPPER_OFFSET_SHORTEST_EDGE_FACTOR)); co.AddPath(input, joinType, ClipperLib::etClosedPolygon); ClipperLib::Paths out; co.Execute(out, - delta_scaled); holes.insert(holes.end(), out.begin(), out.end()); } } // 3) Subtract holes from the contours. if (holes.empty()) { // No hole remaining after an offset. Just copy the outer contour. contours_cummulative.insert(contours_cummulative.end(), contours.begin(), contours.end()); ++ expolygons_collected; } else if (delta < 0) { // Negative offset. There is a chance, that the offsetted hole intersects the outer contour. // Subtract the offsetted holes from the offsetted contours. ClipperLib::Clipper clipper; clipper.Clear(); clipper.AddPaths(contours, ClipperLib::ptSubject, true); clipper.AddPaths(holes, ClipperLib::ptClip, true); ClipperLib::Paths output; clipper.Execute(ClipperLib::ctDifference, output, ClipperLib::pftNonZero, ClipperLib::pftNonZero); if (! output.empty()) { contours_cummulative.insert(contours_cummulative.end(), output.begin(), output.end()); ++ expolygons_collected; } else { // The offsetted holes have eaten up the offsetted outer contour. } } else { // Positive offset. As long as the Clipper offset does what one expects it to do, the offsetted hole will have a smaller // area than the original hole or even disappear, therefore there will be no new intersections. // Just collect the reversed holes. contours_cummulative.reserve(contours.size() + holes.size()); contours_cummulative.insert(contours_cummulative.end(), contours.begin(), contours.end()); // Reverse the holes in place. for (size_t i = 0; i < holes.size(); ++ i) std::reverse(holes[i].begin(), holes[i].end()); contours_cummulative.insert(contours_cummulative.end(), holes.begin(), holes.end()); ++ expolygons_collected; } } } // 4) Unite the offsetted expolygons. ClipperLib::Paths output; if (expolygons_collected > 1 && delta > 0) { // There is a chance that the outwards offsetted expolygons may intersect. Perform a union. ClipperLib::Clipper clipper; clipper.Clear(); clipper.AddPaths(contours_cummulative, ClipperLib::ptSubject, true); clipper.Execute(ClipperLib::ctUnion, output, ClipperLib::pftNonZero, ClipperLib::pftNonZero); } else { // Negative offset. The shrunk expolygons shall not mutually intersect. Just copy the output. output = std::move(contours_cummulative); } // 4) Unscale the output. unscaleClipperPolygons(output); return output; }