Merge remote-tracking branch 'origin/lh_brim_offset'
This commit is contained in:
Lukas Matena
commit
82373334bc
@ -45,16 +45,38 @@ static float max_brim_width(const ConstPrintObjectPtrsAdaptor &objects)
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}));
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}
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static ConstPrintObjectPtrs get_top_level_objects_with_brim(const Print &print)
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// Returns ExPolygons of the bottom layer of the print object after elephant foot compensation.
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static ExPolygons get_print_object_bottom_layer_expolygons(const PrintObject &print_object)
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{
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ExPolygons ex_polygons;
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for (LayerRegion *region : print_object.layers().front()->regions())
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Slic3r::append(ex_polygons, offset_ex(offset_ex(region->slices.surfaces, float(SCALED_EPSILON)), -float(SCALED_EPSILON)));
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return ex_polygons;
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}
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// Returns ExPolygons of bottom layer for every print object in Print after elephant foot compensation.
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static std::vector<ExPolygons> get_print_bottom_layers_expolygons(const Print &print)
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{
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std::vector<ExPolygons> bottom_layers_expolygons;
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bottom_layers_expolygons.reserve(print.objects().size());
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for (const PrintObject *object : print.objects())
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bottom_layers_expolygons.emplace_back(get_print_object_bottom_layer_expolygons(*object));
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return bottom_layers_expolygons;
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}
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static ConstPrintObjectPtrs get_top_level_objects_with_brim(const Print &print, const std::vector<ExPolygons> &bottom_layers_expolygons)
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{
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assert(print.objects().size() == bottom_layers_expolygons.size());
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Polygons islands;
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ConstPrintObjectPtrs island_to_object;
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for (const PrintObject *object : print.objects()) {
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for(size_t print_object_idx = 0; print_object_idx < print.objects().size(); ++print_object_idx) {
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Polygons islands_object;
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islands_object.reserve(object->layers().front()->lslices.size());
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for (const ExPolygon &ex_poly : object->layers().front()->lslices)
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islands_object.reserve(bottom_layers_expolygons[print_object_idx].size());
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for (const ExPolygon &ex_poly : bottom_layers_expolygons[print_object_idx])
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islands_object.emplace_back(ex_poly.contour);
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const PrintObject *object = print.objects()[print_object_idx];
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islands.reserve(islands.size() + object->instances().size() * islands_object.size());
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for (const PrintInstance &instance : object->instances())
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for (Polygon &poly : islands_object) {
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@ -110,7 +132,7 @@ static Polygons top_level_outer_brim_islands(const ConstPrintObjectPtrs &top_lev
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//FIXME how about the brim type?
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auto brim_offset = float(scale_(object->config().brim_offset.value));
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Polygons islands_object;
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for (const ExPolygon &ex_poly : object->layers().front()->lslices) {
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for (const ExPolygon &ex_poly : get_print_object_bottom_layer_expolygons(*object)) {
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Polygons contour_offset = offset(ex_poly.contour, brim_offset);
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for (Polygon &poly : contour_offset)
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poly.douglas_peucker(SCALED_RESOLUTION);
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@ -124,8 +146,12 @@ static Polygons top_level_outer_brim_islands(const ConstPrintObjectPtrs &top_lev
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return islands;
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}
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static ExPolygons top_level_outer_brim_area(const Print &print, const ConstPrintObjectPtrs &top_level_objects_with_brim, const float no_brim_offset)
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static ExPolygons top_level_outer_brim_area(const Print &print,
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const ConstPrintObjectPtrs &top_level_objects_with_brim,
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const std::vector<ExPolygons> &bottom_layers_expolygons,
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const float no_brim_offset)
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{
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assert(print.objects().size() == bottom_layers_expolygons.size());
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std::unordered_set<size_t> top_level_objects_idx;
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top_level_objects_idx.reserve(top_level_objects_with_brim.size());
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for (const PrintObject *object : top_level_objects_with_brim)
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@ -133,15 +159,16 @@ static ExPolygons top_level_outer_brim_area(const Print &print, const ConstPrint
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ExPolygons brim_area;
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ExPolygons no_brim_area;
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for (const PrintObject *object : print.objects()) {
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const BrimType brim_type = object->config().brim_type.value;
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const float brim_offset = scale_(object->config().brim_offset.value);
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const float brim_width = scale_(object->config().brim_width.value);
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const bool is_top_outer_brim = top_level_objects_idx.find(object->id().id) != top_level_objects_idx.end();
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for(size_t print_object_idx = 0; print_object_idx < print.objects().size(); ++print_object_idx) {
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const PrintObject *object = print.objects()[print_object_idx];
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const BrimType brim_type = object->config().brim_type.value;
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const float brim_offset = scale_(object->config().brim_offset.value);
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const float brim_width = scale_(object->config().brim_width.value);
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const bool is_top_outer_brim = top_level_objects_idx.find(object->id().id) != top_level_objects_idx.end();
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ExPolygons brim_area_object;
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ExPolygons no_brim_area_object;
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for (const ExPolygon &ex_poly : object->layers().front()->lslices) {
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for (const ExPolygon &ex_poly : bottom_layers_expolygons[print_object_idx]) {
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if ((brim_type == BrimType::btOuterOnly || brim_type == BrimType::btOuterAndInner) && is_top_outer_brim)
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append(brim_area_object, diff_ex(offset(ex_poly.contour, brim_width + brim_offset), offset(ex_poly.contour, brim_offset)));
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@ -166,8 +193,12 @@ static ExPolygons top_level_outer_brim_area(const Print &print, const ConstPrint
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return diff_ex(brim_area, no_brim_area);
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}
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static ExPolygons inner_brim_area(const Print &print, const ConstPrintObjectPtrs &top_level_objects_with_brim, const float no_brim_offset)
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static ExPolygons inner_brim_area(const Print &print,
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const ConstPrintObjectPtrs &top_level_objects_with_brim,
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const std::vector<ExPolygons> &bottom_layers_expolygons,
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const float no_brim_offset)
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{
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assert(print.objects().size() == bottom_layers_expolygons.size());
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std::unordered_set<size_t> top_level_objects_idx;
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top_level_objects_idx.reserve(top_level_objects_with_brim.size());
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for (const PrintObject *object : top_level_objects_with_brim)
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@ -176,16 +207,17 @@ static ExPolygons inner_brim_area(const Print &print, const ConstPrintObjectPtrs
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ExPolygons brim_area;
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ExPolygons no_brim_area;
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Polygons holes;
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for (const PrintObject *object : print.objects()) {
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const BrimType brim_type = object->config().brim_type.value;
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const float brim_offset = scale_(object->config().brim_offset.value);
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const float brim_width = scale_(object->config().brim_width.value);
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const bool top_outer_brim = top_level_objects_idx.find(object->id().id) != top_level_objects_idx.end();
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for(size_t print_object_idx = 0; print_object_idx < print.objects().size(); ++print_object_idx) {
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const PrintObject *object = print.objects()[print_object_idx];
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const BrimType brim_type = object->config().brim_type.value;
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const float brim_offset = scale_(object->config().brim_offset.value);
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const float brim_width = scale_(object->config().brim_width.value);
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const bool top_outer_brim = top_level_objects_idx.find(object->id().id) != top_level_objects_idx.end();
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ExPolygons brim_area_object;
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ExPolygons no_brim_area_object;
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Polygons holes_object;
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for (const ExPolygon &ex_poly : object->layers().front()->lslices) {
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for (const ExPolygon &ex_poly : bottom_layers_expolygons[print_object_idx]) {
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if (brim_type == BrimType::btOuterOnly || brim_type == BrimType::btOuterAndInner) {
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if (top_outer_brim)
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no_brim_area_object.emplace_back(ex_poly);
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@ -204,7 +236,7 @@ static ExPolygons inner_brim_area(const Print &print, const ConstPrintObjectPtrs
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append(holes_object, ex_poly.holes);
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}
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append(no_brim_area_object, offset_ex(object->layers().front()->lslices, brim_offset));
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append(no_brim_area_object, offset_ex(bottom_layers_expolygons[print_object_idx], brim_offset));
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for (const PrintInstance &instance : object->instances()) {
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append_and_translate(brim_area, brim_area_object, instance);
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@ -236,7 +268,7 @@ static void optimize_polylines_by_reversing(Polylines *polylines)
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static Polylines connect_brim_lines(Polylines &&polylines, const Polygons &brim_area, float max_connection_length)
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{
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if (polylines.empty())
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return Polylines();
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return {};
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BoundingBox bbox = get_extents(polylines);
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bbox.merge(get_extents(brim_area));
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@ -305,16 +337,20 @@ static Polylines connect_brim_lines(Polylines &&polylines, const Polygons &brim_
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}
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}
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if (end < polylines.size())
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polylines.erase(polylines.begin() + end, polylines.end());
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polylines.erase(polylines.begin() + int(end), polylines.end());
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}
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return std::move(polylines);
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}
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static void make_inner_brim(const Print &print, const ConstPrintObjectPtrs &top_level_objects_with_brim, ExtrusionEntityCollection &brim)
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static void make_inner_brim(const Print &print,
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const ConstPrintObjectPtrs &top_level_objects_with_brim,
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const std::vector<ExPolygons> &bottom_layers_expolygons,
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ExtrusionEntityCollection &brim)
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{
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assert(print.objects().size() == bottom_layers_expolygons.size());
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Flow flow = print.brim_flow();
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ExPolygons islands_ex = inner_brim_area(print, top_level_objects_with_brim, float(flow.scaled_spacing()));
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ExPolygons islands_ex = inner_brim_area(print, top_level_objects_with_brim, bottom_layers_expolygons, float(flow.scaled_spacing()));
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Polygons loops;
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islands_ex = offset_ex(islands_ex, -0.5f * float(flow.scaled_spacing()), jtSquare);
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for (size_t i = 0; !islands_ex.empty(); ++i) {
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@ -334,11 +370,12 @@ static void make_inner_brim(const Print &print, const ConstPrintObjectPtrs &top_
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// Collect islands_area to be merged into the final 1st layer convex hull.
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ExtrusionEntityCollection make_brim(const Print &print, PrintTryCancel try_cancel, Polygons &islands_area)
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{
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Flow flow = print.brim_flow();
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ConstPrintObjectPtrs top_level_objects_with_brim = get_top_level_objects_with_brim(print);
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Polygons islands = top_level_outer_brim_islands(top_level_objects_with_brim);
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ExPolygons islands_area_ex = top_level_outer_brim_area(print, top_level_objects_with_brim, float(flow.scaled_spacing()));
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islands_area = to_polygons(islands_area_ex);
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Flow flow = print.brim_flow();
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std::vector<ExPolygons> bottom_layers_expolygons = get_print_bottom_layers_expolygons(print);
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ConstPrintObjectPtrs top_level_objects_with_brim = get_top_level_objects_with_brim(print, bottom_layers_expolygons);
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Polygons islands = top_level_outer_brim_islands(top_level_objects_with_brim);
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ExPolygons islands_area_ex = top_level_outer_brim_area(print, top_level_objects_with_brim, bottom_layers_expolygons, float(flow.scaled_spacing()));
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islands_area = to_polygons(islands_area_ex);
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Polygons loops;
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size_t num_loops = size_t(floor(max_brim_width(print.objects()) / flow.spacing()));
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@ -536,7 +573,7 @@ ExtrusionEntityCollection make_brim(const Print &print, PrintTryCancel try_cance
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extrusion_entities_append_loops_and_paths(brim.entities, std::move(all_loops), erSkirt, float(flow.mm3_per_mm()), float(flow.width()), float(print.skirt_first_layer_height()));
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}
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make_inner_brim(print, top_level_objects_with_brim, brim);
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make_inner_brim(print, top_level_objects_with_brim, bottom_layers_expolygons, brim);
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return brim;
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}
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@ -491,10 +491,11 @@ void PrintConfigDef::init_fff_params()
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def = this->add("brim_offset", coFloat);
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def->label = L("Brim offset");
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def->category = L("Skirt and brim");
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def->tooltip = L("The offset of the brim from the printed object.");
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def->tooltip = L("The offset of the brim from the printed object. The offset is applied after the elephant foot compensation.");
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def->sidetext = L("mm");
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def->min = 0;
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def->mode = comAdvanced;
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def->set_default_value(new ConfigOptionFloat(0));
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def->set_default_value(new ConfigOptionFloat(0.1f));
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def = this->add("clip_multipart_objects", coBool);
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def->label = L("Clip multi-part objects");
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