Fixed Layer::sort_perimeters_into_islands() for fuzzy skin:
1) An extrusion sample is taken for sorting extrusions into island so that a sample deep inside its island is taken with high probability. 2) With fuzzy skin active, the inexact search is done with bounding boxes inflated with the fuzzying distance.
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@ -568,19 +568,33 @@ void Layer::sort_perimeters_into_islands(
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const std::pair<ExtrusionRange, ExtrusionRange> &extrusions = perimeter_and_gapfill_ranges[islice];
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Point sample;
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bool sample_set = false;
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if (! extrusions.first.empty()) {
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sample = this_layer_region.perimeters().entities[*extrusions.first.begin()]->first_point();
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sample_set = true;
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} else if (! extrusions.second.empty()) {
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sample = this_layer_region.thin_fills().entities[*extrusions.second.begin()]->first_point();
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sample_set = true;
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} else {
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// Take a sample deep inside its island if available. Infills are usually quite far from the island boundary.
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for (uint32_t iexpoly : fill_expolygons_ranges[islice])
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if (const ExPolygon &expoly = fill_expolygons[iexpoly]; ! expoly.empty()) {
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sample = expoly.contour.points.front();
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sample_set = true;
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break;
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}
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if (! sample_set) {
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// If there is no infill, take a sample of some inner perimeter.
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for (uint32_t iperimeter : extrusions.first)
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if (const ExtrusionEntity &ee = *this_layer_region.perimeters().entities[iperimeter]; ! ee.role().is_external()) {
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sample = ee.first_point();
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sample_set = true;
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break;
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}
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if (! sample_set) {
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if (! extrusions.second.empty()) {
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// If there is no inner perimeter, take a sample of some gap fill extrusion.
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sample = this_layer_region.thin_fills().entities[*extrusions.second.begin()]->first_point();
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sample_set = true;
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}
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if (! sample_set && ! extrusions.first.empty()) {
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// As a last resort, take a sample of some external perimeter.
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sample = this_layer_region.perimeters().entities[*extrusions.first.begin()]->first_point();
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sample_set = true;
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}
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}
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}
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// There may be a valid empty island.
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// assert(sample_set);
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@ -729,9 +743,18 @@ void Layer::sort_perimeters_into_islands(
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perimeter_slices_queue.pop_back();
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break;
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}
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// If anything fails to be sorted in using exact fit, try to find a closest island.
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if (! perimeter_slices_queue.empty()) {
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// If the slice sample was not fitted into any slice using exact fit, try to find a closest island as a last resort.
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// This should be a rare event especially if the sample point was taken from infill or inner perimeter,
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// however we may land here for external perimeter only islands with fuzzy skin applied.
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// Check whether fuzzy skin was enabled and adjust the bounding box accordingly.
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const PrintConfig &print_config = this->object()->print()->config();
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const PrintRegionConfig ®ion_config = this_layer_region.region().config();
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const auto bbox_eps = scaled<coord_t>(
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EPSILON + print_config.gcode_resolution.value +
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(region_config.fuzzy_skin.value == FuzzySkinType::None ? 0. : region_config.fuzzy_skin_thickness.value));
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auto point_inside_surface_dist2 =
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[&lslices = this->lslices, &lslices_ex = this->lslices_ex, bbox_eps = scaled<coord_t>(this->object()->print()->config().gcode_resolution.value) + SCALED_EPSILON]
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[&lslices = this->lslices, &lslices_ex = this->lslices_ex, bbox_eps]
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(const size_t lslice_idx, const Point &point) {
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const BoundingBox &bbox = lslices_ex[lslice_idx].bbox;
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return
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@ -752,6 +775,7 @@ void Layer::sort_perimeters_into_islands(
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insert_into_island(lslice_idx_min, it_source_slice->first);
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}
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}
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}
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void Layer::export_region_slices_to_svg(const char *path) const
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{
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