#include "Layer.hpp" #include "ClipperUtils.hpp" #include "Geometry.hpp" #include "Print.hpp" namespace Slic3r { Layer::Layer(size_t id, PrintObject *object, coordf_t height, coordf_t print_z, coordf_t slice_z) : upper_layer(NULL), lower_layer(NULL), regions(), slicing_errors(false), slice_z(slice_z), print_z(print_z), height(height), slices(), _id(id), _object(object) { } Layer::~Layer() { // remove references to self if (NULL != this->upper_layer) { this->upper_layer->lower_layer = NULL; } if (NULL != this->lower_layer) { this->lower_layer->upper_layer = NULL; } this->clear_regions(); } size_t Layer::id() const { return this->_id; } void Layer::set_id(size_t id) { this->_id = id; } PrintObject* Layer::object() { return this->_object; } const PrintObject* Layer::object() const { return this->_object; } size_t Layer::region_count() const { return this->regions.size(); } void Layer::clear_regions() { for (int i = this->regions.size()-1; i >= 0; --i) this->delete_region(i); } LayerRegion* Layer::get_region(int idx) { return this->regions.at(idx); } LayerRegion* Layer::add_region(PrintRegion* print_region) { LayerRegion* region = new LayerRegion(this, print_region); this->regions.push_back(region); return region; } void Layer::delete_region(int idx) { LayerRegionPtrs::iterator i = this->regions.begin() + idx; LayerRegion* item = *i; this->regions.erase(i); delete item; } // merge all regions' slices to get islands void Layer::make_slices() { ExPolygons slices; if (this->regions.size() == 1) { // optimization: if we only have one region, take its slices slices = this->regions.front()->slices; } else { Polygons slices_p; FOREACH_LAYERREGION(this, layerm) { Polygons region_slices_p = (*layerm)->slices; slices_p.insert(slices_p.end(), region_slices_p.begin(), region_slices_p.end()); } union_(slices_p, &slices); } this->slices.expolygons.clear(); this->slices.expolygons.reserve(slices.size()); // prepare ordering points Points ordering_points; ordering_points.reserve(slices.size()); for (ExPolygons::const_iterator ex = slices.begin(); ex != slices.end(); ++ex) ordering_points.push_back(ex->contour.first_point()); // sort slices std::vector order; Slic3r::Geometry::chained_path(ordering_points, order); // populate slices vector for (std::vector::const_iterator it = order.begin(); it != order.end(); ++it) { this->slices.expolygons.push_back(slices[*it]); } } void Layer::merge_slices() { FOREACH_LAYERREGION(this, layerm) { (*layerm)->merge_slices(); } } template bool Layer::any_internal_region_slice_contains(const T &item) const { FOREACH_LAYERREGION(this, layerm) { if ((*layerm)->slices.any_internal_contains(item)) return true; } return false; } template bool Layer::any_internal_region_slice_contains(const Polyline &item) const; template bool Layer::any_bottom_region_slice_contains(const T &item) const { FOREACH_LAYERREGION(this, layerm) { if ((*layerm)->slices.any_bottom_contains(item)) return true; } return false; } template bool Layer::any_bottom_region_slice_contains(const Polyline &item) const; void Layer::make_perimeters() { #ifdef SLIC3R_DEBUG printf("Making perimeters for layer %zu\n", this->id()); #endif // keep track of regions whose perimeters we have already generated std::set done; FOREACH_LAYERREGION(this, layerm) { size_t region_id = layerm - this->regions.begin(); if (done.find(region_id) != done.end()) continue; done.insert(region_id); const PrintRegionConfig &config = (*layerm)->region()->config; // find compatible regions LayerRegionPtrs layerms; layerms.push_back(*layerm); for (LayerRegionPtrs::const_iterator it = layerm + 1; it != this->regions.end(); ++it) { LayerRegion* other_layerm = *it; const PrintRegionConfig &other_config = other_layerm->region()->config; if (config.perimeter_extruder == other_config.perimeter_extruder && config.perimeters == other_config.perimeters && config.perimeter_speed == other_config.perimeter_speed && config.gap_fill_speed == other_config.gap_fill_speed && config.overhangs == other_config.overhangs && config.serialize("perimeter_extrusion_width").compare(other_config.serialize("perimeter_extrusion_width")) == 0 && config.thin_walls == other_config.thin_walls && config.external_perimeters_first == other_config.external_perimeters_first) { layerms.push_back(other_layerm); done.insert(it - this->regions.begin()); } } if (layerms.size() == 1) { // optimization (*layerm)->fill_surfaces.surfaces.clear(); (*layerm)->make_perimeters((*layerm)->slices, &(*layerm)->fill_surfaces); } else { // group slices (surfaces) according to number of extra perimeters std::map slices; // extra_perimeters => [ surface, surface... ] for (LayerRegionPtrs::iterator l = layerms.begin(); l != layerms.end(); ++l) { for (Surfaces::iterator s = (*l)->slices.surfaces.begin(); s != (*l)->slices.surfaces.end(); ++s) { slices[s->extra_perimeters].push_back(*s); } } // merge the surfaces assigned to each group SurfaceCollection new_slices; for (std::map::const_iterator it = slices.begin(); it != slices.end(); ++it) { ExPolygons expp = union_ex(it->second, true); for (ExPolygons::iterator ex = expp.begin(); ex != expp.end(); ++ex) { Surface s = it->second.front(); // clone type and extra_perimeters s.expolygon = *ex; new_slices.surfaces.push_back(s); } } // make perimeters SurfaceCollection fill_surfaces; (*layerm)->make_perimeters(new_slices, &fill_surfaces); // assign fill_surfaces to each layer if (!fill_surfaces.surfaces.empty()) { for (LayerRegionPtrs::iterator l = layerms.begin(); l != layerms.end(); ++l) { ExPolygons expp = intersection_ex( fill_surfaces, (*l)->slices ); (*l)->fill_surfaces.surfaces.clear(); for (ExPolygons::iterator ex = expp.begin(); ex != expp.end(); ++ex) { Surface s = fill_surfaces.surfaces.front(); // clone type and extra_perimeters s.expolygon = *ex; (*l)->fill_surfaces.surfaces.push_back(s); } } } } } } SupportLayer::SupportLayer(size_t id, PrintObject *object, coordf_t height, coordf_t print_z, coordf_t slice_z) : Layer(id, object, height, print_z, slice_z) { } SupportLayer::~SupportLayer() { } }