mirror of
https://github.com/SoftFever/OrcaSlicer.git
synced 2025-07-11 08:47:52 -06:00
Implemented clipping of parts of multi-part objects in the order
they are presented in the UI. Parallelized the slice stealing when splitting regions with modifier meshes. Rewrote Layer::make_perimeters() to C++11 loops.
This commit is contained in:
parent
c1a24d2fbb
commit
e399cf6d3d
3 changed files with 177 additions and 51 deletions
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@ -105,13 +105,14 @@ void Layer::make_perimeters()
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BOOST_LOG_TRIVIAL(trace) << "Generating perimeters for layer " << this->id();
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// keep track of regions whose perimeters we have already generated
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std::set<size_t> done;
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std::vector<unsigned char> done(m_regions.size(), false);
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for (LayerRegionPtrs::iterator layerm = m_regions.begin(); layerm != m_regions.end(); ++ layerm) {
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size_t region_id = layerm - m_regions.begin();
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if (done.find(region_id) != done.end()) continue;
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if (done[region_id])
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continue;
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BOOST_LOG_TRIVIAL(trace) << "Generating perimeters for layer " << this->id() << ", region " << region_id;
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done.insert(region_id);
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done[region_id] = true;
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const PrintRegionConfig &config = (*layerm)->region()->config();
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// find compatible regions
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@ -131,7 +132,7 @@ void Layer::make_perimeters()
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&& config.thin_walls == other_config.thin_walls
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&& config.external_perimeters_first == other_config.external_perimeters_first) {
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layerms.push_back(other_layerm);
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done.insert(it - m_regions.begin());
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done[it - m_regions.begin()] = true;
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}
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}
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@ -143,15 +144,13 @@ void Layer::make_perimeters()
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SurfaceCollection new_slices;
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{
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// group slices (surfaces) according to number of extra perimeters
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std::map<unsigned short,Surfaces> slices; // extra_perimeters => [ surface, surface... ]
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for (LayerRegionPtrs::iterator l = layerms.begin(); l != layerms.end(); ++l) {
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for (Surfaces::iterator s = (*l)->slices.surfaces.begin(); s != (*l)->slices.surfaces.end(); ++s) {
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slices[s->extra_perimeters].push_back(*s);
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}
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}
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std::map<unsigned short, Surfaces> slices; // extra_perimeters => [ surface, surface... ]
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for (LayerRegion *layerm : layerms)
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for (Surface &surface : layerm->slices.surfaces)
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slices[surface.extra_perimeters].emplace_back(surface);
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// merge the surfaces assigned to each group
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for (std::map<unsigned short,Surfaces>::const_iterator it = slices.begin(); it != slices.end(); ++it)
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new_slices.append(union_ex(it->second, true), it->second.front());
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for (std::pair<const unsigned short,Surfaces> &surfaces_with_extra_perimeters : slices)
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new_slices.append(union_ex(surfaces_with_extra_perimeters.second, true), surfaces_with_extra_perimeters.second.front());
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}
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// make perimeters
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@ -203,6 +203,7 @@ private:
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std::vector<ExPolygons> _slice_region(size_t region_id, const std::vector<float> &z, bool modifier);
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std::vector<ExPolygons> _slice_volumes(const std::vector<float> &z, const std::vector<const ModelVolume*> &volumes) const;
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std::vector<ExPolygons> _slice_volume(const std::vector<float> &z, const ModelVolume &volume) const;
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};
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struct WipeTowerData
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@ -810,7 +810,7 @@ void PrintObject::process_external_surfaces()
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for (size_t layer_idx = range.begin(); layer_idx < range.end(); ++ layer_idx) {
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m_print->throw_if_canceled();
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// BOOST_LOG_TRIVIAL(trace) << "Processing external surface, layer" << m_layers[layer_idx]->print_z;
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m_layers[layer_idx]->get_region(region_id)->process_external_surfaces((layer_idx == 0) ? NULL : m_layers[layer_idx - 1]);
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m_layers[layer_idx]->get_region((int)region_id)->process_external_surfaces((layer_idx == 0) ? NULL : m_layers[layer_idx - 1]);
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}
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}
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);
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@ -1481,9 +1481,38 @@ void PrintObject::_slice(const std::vector<coordf_t> &layer_height_profile)
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}
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}
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// Count model parts and modifier meshes, check whether the model parts are of the same region.
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int single_volume_region = -2; // not set yet
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size_t num_volumes = 0;
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size_t num_modifiers = 0;
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std::vector<int> map_volume_to_region(this->model_object()->volumes.size());
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for (int region_id = 0; region_id < (int)this->region_volumes.size(); ++ region_id) {
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for (int volume_id : this->region_volumes[region_id]) {
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const ModelVolume *model_volume = this->model_object()->volumes[volume_id];
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if (model_volume->is_model_part()) {
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map_volume_to_region[volume_id] = region_id;
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if (single_volume_region == -2)
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// first model volume met
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single_volume_region = region_id;
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else if (single_volume_region != region_id)
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// multiple volumes met and they are not equal
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single_volume_region = -1;
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++ num_volumes;
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} else if (model_volume->is_modifier())
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++ num_modifiers;
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}
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}
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assert(num_volumes > 0);
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// Slice all non-modifier volumes.
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bool clipped = false;
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bool upscaled = false;
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if (! m_config.clip_multipart_objects.value || single_volume_region >= 0) {
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// Cheap path: Slice regions without mutual clipping.
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// The cheap path is possible if no clipping is allowed or if slicing volumes of just a single region.
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for (size_t region_id = 0; region_id < this->region_volumes.size(); ++ region_id) {
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - region " << region_id;
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// slicing in parallel
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std::vector<ExPolygons> expolygons_by_layer = this->_slice_region(region_id, slice_zs, false);
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m_print->throw_if_canceled();
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - append slices " << region_id << " start";
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@ -1492,19 +1521,94 @@ void PrintObject::_slice(const std::vector<coordf_t> &layer_height_profile)
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m_print->throw_if_canceled();
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - append slices " << region_id << " end";
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}
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} else {
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// Expensive path: Slice one volume after the other in the order they are presented at the user interface,
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// clip the last volumes with the first.
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// First slice the volumes.
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struct SlicedVolume {
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SlicedVolume(int volume_id, int region_id, std::vector<ExPolygons> &&expolygons_by_layer) :
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volume_id(volume_id), region_id(region_id), expolygons_by_layer(std::move(expolygons_by_layer)) {}
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int volume_id;
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int region_id;
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std::vector<ExPolygons> expolygons_by_layer;
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};
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std::vector<SlicedVolume> sliced_volumes;
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sliced_volumes.reserve(num_volumes);
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for (size_t region_id = 0; region_id < this->region_volumes.size(); ++ region_id)
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for (int volume_id : this->region_volumes[region_id]) {
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const ModelVolume *model_volume = this->model_object()->volumes[volume_id];
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if (model_volume->is_model_part()) {
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - volume " << volume_id;
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// slicing in parallel
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sliced_volumes.emplace_back(volume_id, map_volume_to_region[volume_id], this->_slice_volume(slice_zs, *model_volume));
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}
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}
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// Second clip the volumes in the order they are presented at the user interface.
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - parallel clipping - start";
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tbb::parallel_for(
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tbb::blocked_range<size_t>(0, slice_zs.size()),
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[this, &sliced_volumes, num_modifiers](const tbb::blocked_range<size_t>& range) {
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float delta = float(scale_(m_config.xy_size_compensation.value));
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// Only upscale together with clipping if there are no modifiers, as the modifiers shall be applied before upscaling
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// (upscaling may grow the object outside of the modifier mesh).
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bool upscale = delta > 0 && num_modifiers == 0;
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for (size_t layer_id = range.begin(); layer_id < range.end(); ++ layer_id) {
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m_print->throw_if_canceled();
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// Trim volumes in a single layer, one by the other, possibly apply upscaling.
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{
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Polygons processed;
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for (SlicedVolume &sliced_volume : sliced_volumes) {
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ExPolygons slices = std::move(sliced_volume.expolygons_by_layer[layer_id]);
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if (upscale)
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slices = offset_ex(std::move(slices), delta);
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if (! processed.empty())
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// Trim by the slices of already processed regions.
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slices = diff_ex(to_polygons(std::move(slices)), processed);
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if (size_t(&sliced_volume - &sliced_volumes.front()) + 1 < sliced_volumes.size())
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// Collect the already processed regions to trim the to be processed regions.
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polygons_append(processed, slices);
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sliced_volume.expolygons_by_layer[layer_id] = std::move(slices);
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}
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}
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// Collect and union volumes of a single region.
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for (int region_id = 0; region_id < (int)this->region_volumes.size(); ++ region_id) {
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ExPolygons expolygons;
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size_t num_volumes = 0;
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for (SlicedVolume &sliced_volume : sliced_volumes)
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if (sliced_volume.region_id == region_id && ! sliced_volume.expolygons_by_layer[layer_id].empty()) {
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++ num_volumes;
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append(expolygons, std::move(sliced_volume.expolygons_by_layer[layer_id]));
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}
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if (num_volumes > 1)
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// Merge the islands using a positive / negative offset.
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expolygons = offset_ex(offset_ex(expolygons, float(scale_(EPSILON))), -float(scale_(EPSILON)));
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m_layers[layer_id]->regions()[region_id]->slices.append(std::move(expolygons), stInternal);
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}
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}
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});
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - parallel clipping - end";
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clipped = true;
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upscaled = m_config.xy_size_compensation.value > 0 && num_modifiers == 0;
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}
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// Slice all modifier volumes.
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if (this->region_volumes.size() > 1) {
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for (size_t region_id = 0; region_id < this->region_volumes.size(); ++ region_id) {
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BOOST_LOG_TRIVIAL(debug) << "Slicing modifier volumes - region " << region_id;
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// slicing in parallel
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std::vector<ExPolygons> expolygons_by_layer = this->_slice_region(region_id, slice_zs, true);
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m_print->throw_if_canceled();
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if (expolygons_by_layer.empty())
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continue;
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// loop through the other regions and 'steal' the slices belonging to this one
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BOOST_LOG_TRIVIAL(debug) << "Slicing modifier volumes - stealing " << region_id << " start";
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tbb::parallel_for(
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tbb::blocked_range<size_t>(0, m_layers.size()),
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[this, &expolygons_by_layer, region_id](const tbb::blocked_range<size_t>& range) {
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for (size_t layer_id = range.begin(); layer_id < range.end(); ++ layer_id) {
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for (size_t other_region_id = 0; other_region_id < this->region_volumes.size(); ++ other_region_id) {
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if (region_id == other_region_id)
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continue;
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for (size_t layer_id = 0; layer_id < expolygons_by_layer.size(); ++ layer_id) {
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Layer *layer = m_layers[layer_id];
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LayerRegion *layerm = layer->m_regions[region_id];
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LayerRegion *other_layerm = layer->m_regions[other_region_id];
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@ -1520,6 +1624,7 @@ void PrintObject::_slice(const std::vector<coordf_t> &layer_height_profile)
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layerm->slices.append(std::move(my_parts), stInternal);
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}
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}
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});
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m_print->throw_if_canceled();
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BOOST_LOG_TRIVIAL(debug) << "Slicing modifier volumes - stealing " << region_id << " end";
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}
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@ -1542,7 +1647,7 @@ end:
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BOOST_LOG_TRIVIAL(debug) << "Slicing objects - make_slices in parallel - begin";
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tbb::parallel_for(
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tbb::blocked_range<size_t>(0, m_layers.size()),
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[this](const tbb::blocked_range<size_t>& range) {
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[this, upscaled, clipped](const tbb::blocked_range<size_t>& range) {
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for (size_t layer_id = range.begin(); layer_id < range.end(); ++ layer_id) {
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m_print->throw_if_canceled();
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Layer *layer = m_layers[layer_id];
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@ -1569,8 +1674,8 @@ end:
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offset_ex(to_expolygons(std::move(layerm->slices.surfaces)), delta);
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// Apply the elephant foot compensation.
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if (elephant_foot_compensation > 0) {
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float elephant_foot_spacing = layerm->flow(frExternalPerimeter).scaled_elephant_foot_spacing();
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float external_perimeter_nozzle = scale_(this->print()->config().nozzle_diameter.get_at(layerm->region()->config().perimeter_extruder.value - 1));
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float elephant_foot_spacing = float(layerm->flow(frExternalPerimeter).scaled_elephant_foot_spacing());
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float external_perimeter_nozzle = float(scale_(this->print()->config().nozzle_diameter.get_at(layerm->region()->config().perimeter_extruder.value - 1)));
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// Apply the elephant foot compensation by steps of 1/10 nozzle diameter.
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float steps = std::ceil(elephant_foot_compensation / (0.1f * external_perimeter_nozzle));
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size_t nsteps = size_t(steps);
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@ -1584,9 +1689,8 @@ end:
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layerm->slices.set(std::move(expolygons), stInternal);
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}
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} else {
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bool upscale = delta > 0.f;
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bool downscale = delta < 0.f || elephant_foot_compensation > 0.f;
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bool clip = m_config.clip_multipart_objects.value;
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bool upscale = ! upscaled && delta > 0.f;
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bool clip = ! clipped && m_config.clip_multipart_objects.value;
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if (upscale || clip) {
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// Multiple regions, growing or just clipping one region by the other.
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// When clipping the regions, priority is given to the first regions.
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@ -1607,7 +1711,7 @@ end:
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}
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if (delta < 0.f) {
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// Apply the negative XY compensation.
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Polygons trimming = offset(layer->merged(EPSILON), delta - EPSILON);
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Polygons trimming = offset(layer->merged(float(EPSILON)), delta - float(EPSILON));
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for (size_t region_id = 0; region_id < layer->m_regions.size(); ++ region_id)
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layer->m_regions[region_id]->trim_surfaces(trimming);
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}
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@ -1618,8 +1722,8 @@ end:
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float external_perimeter_nozzle = 0.f;
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for (size_t region_id = 0; region_id < layer->m_regions.size(); ++ region_id) {
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LayerRegion *layerm = layer->m_regions[region_id];
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elephant_foot_spacing.emplace_back(layerm->flow(frExternalPerimeter).scaled_elephant_foot_spacing());
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external_perimeter_nozzle += scale_(this->print()->config().nozzle_diameter.get_at(layerm->region()->config().perimeter_extruder.value - 1));
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elephant_foot_spacing.emplace_back(float(layerm->flow(frExternalPerimeter).scaled_elephant_foot_spacing()));
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external_perimeter_nozzle += float(scale_(this->print()->config().nozzle_diameter.get_at(layerm->region()->config().perimeter_extruder.value - 1)));
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}
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external_perimeter_nozzle /= (float)layer->m_regions.size();
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// Apply the elephant foot compensation by steps of 1/10 nozzle diameter.
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@ -1627,7 +1731,7 @@ end:
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size_t nsteps = size_t(steps);
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float step = elephant_foot_compensation / steps;
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for (size_t i = 0; i < nsteps; ++ i) {
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Polygons trimming_polygons = offset(layer->merged(EPSILON), - step - EPSILON);
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Polygons trimming_polygons = offset(layer->merged(float(EPSILON)), - step - float(EPSILON));
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for (size_t region_id = 0; region_id < layer->m_regions.size(); ++ region_id)
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layer->m_regions[region_id]->elephant_foot_compensation_step(elephant_foot_spacing[region_id] + step, trimming_polygons);
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}
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@ -1709,6 +1813,28 @@ std::vector<ExPolygons> PrintObject::_slice_volumes(const std::vector<float> &z,
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return layers;
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}
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std::vector<ExPolygons> PrintObject::_slice_volume(const std::vector<float> &z, const ModelVolume &volume) const
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{
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std::vector<ExPolygons> layers;
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// Compose mesh.
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//FIXME better to perform slicing over each volume separately and then to use a Boolean operation to merge them.
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TriangleMesh mesh(volume.mesh);
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mesh.transform(volume.get_matrix());
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if (mesh.stl.stats.number_of_facets > 0) {
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mesh.transform(m_trafo);
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// apply XY shift
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mesh.translate(- unscale<float>(m_copies_shift(0)), - unscale<float>(m_copies_shift(1)), 0);
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// perform actual slicing
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TriangleMeshSlicer mslicer;
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const Print *print = this->print();
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auto callback = TriangleMeshSlicer::throw_on_cancel_callback_type([print](){print->throw_if_canceled();});
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mslicer.init(&mesh, callback);
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mslicer.slice(z, float(m_config.slice_closing_radius.value), &layers, callback);
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m_print->throw_if_canceled();
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}
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return layers;
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}
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std::string PrintObject::_fix_slicing_errors()
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{
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// Collect layers with slicing errors.
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