void AreaSupport::generateSupportAreas(SliceDataStorage& storage, unsigned int layer_count, CommandSocket* commandSocket) { // initialization of supportAreasPerLayer for (unsigned int layer_idx = 0; layer_idx < layer_count ; layer_idx++) storage.support.supportLayers.emplace_back(); for(unsigned int mesh_idx = 0; mesh_idx < storage.meshes.size(); mesh_idx++) { SliceMeshStorage& mesh = storage.meshes[mesh_idx]; std::vector<Polygons> supportAreas; supportAreas.resize(layer_count, Polygons()); generateSupportAreas(storage, mesh_idx, layer_count, supportAreas, commandSocket); if (mesh.getSettingBoolean("support_roof_enable")) { generateSupportRoofs(storage, supportAreas, layer_count, mesh.getSettingInMicrons("layer_height"), mesh.getSettingInMicrons("support_roof_height"), commandSocket); } else { for (unsigned int layer_idx = 0; layer_idx < layer_count ; layer_idx++) { storage.support.supportLayers[layer_idx].supportAreas.add(supportAreas[layer_idx]); } } } for (unsigned int layer_idx = 0; layer_idx < layer_count ; layer_idx++) { storage.support.supportLayers[layer_idx].supportAreas = storage.support.supportLayers[layer_idx].supportAreas.unionPolygons(); } storage.support.generated = true; }
void FffPolygonGenerator::slices2polygons(SliceDataStorage& storage, TimeKeeper& time_keeper) { if (commandSocket) commandSocket->beginSendSlicedObject(); // const unsigned int total_layers = storage.meshes.at(0).layers.size(); //layerparts2HTML(storage, "output/output.html"); for(unsigned int layer_number = 0; layer_number < total_layers; layer_number++) { processInsets(storage, layer_number); Progress::messageProgress(Progress::Stage::INSET, layer_number+1, total_layers, commandSocket); } removeEmptyFirstLayers(storage, getSettingInMicrons("layer_height"), total_layers); if (total_layers < 1) { log("Stopping process because there are no layers.\n"); return; } processOozeShield(storage, total_layers); Progress::messageProgressStage(Progress::Stage::SUPPORT, &time_keeper, commandSocket); for(SliceMeshStorage& mesh : storage.meshes) { generateSupportAreas(storage, &mesh, total_layers, commandSocket); for (unsigned int layer_idx = 0; layer_idx < total_layers; layer_idx++) { Polygons& support = storage.support.supportLayers[layer_idx].supportAreas; sendPolygons(SupportType, layer_idx, support, getSettingInMicrons("support_line_width")); } } if (getSettingBoolean("support_roof_enable")) { generateSupportRoofs(storage, commandSocket, getSettingInMicrons("layer_height"), getSettingInMicrons("support_roof_height")); } Progress::messageProgressStage(Progress::Stage::SKIN, &time_keeper, commandSocket); for(unsigned int layer_number = 0; layer_number < total_layers; layer_number++) { if (!getSettingBoolean("magic_spiralize") || static_cast<int>(layer_number) < getSettingAsCount("bottom_layers")) //Only generate up/downskin and infill for the first X layers when spiralize is choosen. { processSkins(storage, layer_number); } Progress::messageProgress(Progress::Stage::SKIN, layer_number+1, total_layers, commandSocket); } for(unsigned int layer_number = total_layers-1; layer_number > 0; layer_number--) { for(SliceMeshStorage& mesh : storage.meshes) combineSparseLayers(layer_number, mesh, mesh.settings->getSettingAsCount("fill_sparse_combine")); } processWipeTower(storage, total_layers); processDraftShield(storage, total_layers); processPlatformAdhesion(storage); }