Fixing missing dense raft layers with number of support top interface
layers set to zero. Fixes #7951, second picture.
This commit is contained in:
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2098ce9cfa
commit
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@ -335,6 +335,7 @@ SupportParameters::SupportParameters(const PrintObject &object)
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this->first_layer_flow = Slic3r::support_material_1st_layer_flow(&object, float(slicing_params.first_print_layer_height));
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this->first_layer_flow = Slic3r::support_material_1st_layer_flow(&object, float(slicing_params.first_print_layer_height));
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this->support_material_flow = Slic3r::support_material_flow(&object, float(slicing_params.layer_height));
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this->support_material_flow = Slic3r::support_material_flow(&object, float(slicing_params.layer_height));
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this->support_material_interface_flow = Slic3r::support_material_interface_flow(&object, float(slicing_params.layer_height));
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this->support_material_interface_flow = Slic3r::support_material_interface_flow(&object, float(slicing_params.layer_height));
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this->raft_interface_flow = support_material_interface_flow;
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// Calculate a minimum support layer height as a minimum over all extruders, but not smaller than 10um.
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// Calculate a minimum support layer height as a minimum over all extruders, but not smaller than 10um.
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this->support_layer_height_min = scaled<coord_t>(0.01);
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this->support_layer_height_min = scaled<coord_t>(0.01);
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@ -377,13 +378,14 @@ SupportParameters::SupportParameters(const PrintObject &object)
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this->base_angle = Geometry::deg2rad(float(object_config.support_material_angle.value));
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this->base_angle = Geometry::deg2rad(float(object_config.support_material_angle.value));
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this->interface_angle = Geometry::deg2rad(float(object_config.support_material_angle.value + 90.));
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this->interface_angle = Geometry::deg2rad(float(object_config.support_material_angle.value + 90.));
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this->interface_spacing = object_config.support_material_interface_spacing.value + this->support_material_interface_flow.spacing();
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double interface_spacing = object_config.support_material_interface_spacing.value + this->support_material_interface_flow.spacing();
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this->interface_density = std::min(1., this->support_material_interface_flow.spacing() / this->interface_spacing);
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this->interface_density = std::min(1., this->support_material_interface_flow.spacing() / interface_spacing);
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this->support_spacing = object_config.support_material_spacing.value + this->support_material_flow.spacing();
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double raft_interface_spacing = object_config.support_material_interface_spacing.value + this->raft_interface_flow.spacing();
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this->support_density = std::min(1., this->support_material_flow.spacing() / this->support_spacing);
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this->raft_interface_density = std::min(1., this->raft_interface_flow.spacing() / raft_interface_spacing);
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double support_spacing = object_config.support_material_spacing.value + this->support_material_flow.spacing();
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this->support_density = std::min(1., this->support_material_flow.spacing() / support_spacing);
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if (object_config.support_material_interface_layers.value == 0) {
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if (object_config.support_material_interface_layers.value == 0) {
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// No interface layers allowed, print everything with the base support pattern.
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// No interface layers allowed, print everything with the base support pattern.
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this->interface_spacing = this->support_spacing;
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this->interface_density = this->support_density;
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this->interface_density = this->support_density;
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}
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}
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@ -393,6 +395,7 @@ SupportParameters::SupportParameters(const PrintObject &object)
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support_pattern == smpHoneycomb ? ipHoneycomb :
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support_pattern == smpHoneycomb ? ipHoneycomb :
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this->support_density > 0.95 || this->with_sheath ? ipRectilinear : ipSupportBase;
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this->support_density > 0.95 || this->with_sheath ? ipRectilinear : ipSupportBase;
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this->interface_fill_pattern = (this->interface_density > 0.95 ? ipRectilinear : ipSupportBase);
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this->interface_fill_pattern = (this->interface_density > 0.95 ? ipRectilinear : ipSupportBase);
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this->raft_interface_fill_pattern = this->raft_interface_density > 0.95 ? ipRectilinear : ipSupportBase;
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this->contact_fill_pattern =
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this->contact_fill_pattern =
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(object_config.support_material_interface_pattern == smipAuto && slicing_params.soluble_interface) ||
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(object_config.support_material_interface_pattern == smipAuto && slicing_params.soluble_interface) ||
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object_config.support_material_interface_pattern == smipConcentric ?
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object_config.support_material_interface_pattern == smipConcentric ?
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@ -4244,7 +4247,7 @@ void generate_support_toolpaths(
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assert(support_layer.support_fills.entities.empty());
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assert(support_layer.support_fills.entities.empty());
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SupportGeneratorLayer &raft_layer = *raft_layers[support_layer_id];
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SupportGeneratorLayer &raft_layer = *raft_layers[support_layer_id];
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std::unique_ptr<Fill> filler_interface = std::unique_ptr<Fill>(Fill::new_from_type(support_params.interface_fill_pattern));
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std::unique_ptr<Fill> filler_interface = std::unique_ptr<Fill>(Fill::new_from_type(support_params.raft_interface_fill_pattern));
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std::unique_ptr<Fill> filler_support = std::unique_ptr<Fill>(Fill::new_from_type(support_params.base_fill_pattern));
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std::unique_ptr<Fill> filler_support = std::unique_ptr<Fill>(Fill::new_from_type(support_params.base_fill_pattern));
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filler_interface->set_bounding_box(bbox_object);
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filler_interface->set_bounding_box(bbox_object);
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filler_support->set_bounding_box(bbox_object);
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filler_support->set_bounding_box(bbox_object);
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@ -4299,8 +4302,8 @@ void generate_support_toolpaths(
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// value that guarantees that all layers are correctly aligned.
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// value that guarantees that all layers are correctly aligned.
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filler->spacing = support_params.support_material_flow.spacing();
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filler->spacing = support_params.support_material_flow.spacing();
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assert(! raft_layer.bridging);
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assert(! raft_layer.bridging);
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flow = Flow(float(support_params.support_material_interface_flow.width()), float(raft_layer.height), support_params.support_material_flow.nozzle_diameter());
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flow = Flow(float(support_params.raft_interface_flow.width()), float(raft_layer.height), support_params.raft_interface_flow.nozzle_diameter());
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density = float(support_params.interface_density);
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density = float(support_params.raft_interface_density);
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} else
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} else
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continue;
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continue;
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filler->link_max_length = coord_t(scale_(filler->spacing * link_max_length_factor / density));
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filler->link_max_length = coord_t(scale_(filler->spacing * link_max_length_factor / density));
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@ -4343,7 +4346,7 @@ void generate_support_toolpaths(
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tbb::parallel_for(tbb::blocked_range<size_t>(n_raft_layers, support_layers.size()),
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tbb::parallel_for(tbb::blocked_range<size_t>(n_raft_layers, support_layers.size()),
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[&config, &support_params, &support_layers, &bottom_contacts, &top_contacts, &intermediate_layers, &interface_layers, &base_interface_layers, &layer_caches, &loop_interface_processor,
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[&config, &support_params, &support_layers, &bottom_contacts, &top_contacts, &intermediate_layers, &interface_layers, &base_interface_layers, &layer_caches, &loop_interface_processor,
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&bbox_object, &angles, link_max_length_factor]
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&bbox_object, &angles, n_raft_layers, link_max_length_factor]
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(const tbb::blocked_range<size_t>& range) {
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(const tbb::blocked_range<size_t>& range) {
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// Indices of the 1st layer in their respective container at the support layer height.
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// Indices of the 1st layer in their respective container at the support layer height.
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size_t idx_layer_bottom_contact = size_t(-1);
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size_t idx_layer_bottom_contact = size_t(-1);
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@ -4357,6 +4360,11 @@ void generate_support_toolpaths(
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auto filler_first_layer_ptr = std::unique_ptr<Fill>(range.begin() == 0 && support_params.contact_fill_pattern != fill_type_first_layer ? Fill::new_from_type(fill_type_first_layer) : nullptr);
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auto filler_first_layer_ptr = std::unique_ptr<Fill>(range.begin() == 0 && support_params.contact_fill_pattern != fill_type_first_layer ? Fill::new_from_type(fill_type_first_layer) : nullptr);
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// Pointer to the 1st layer interface filler.
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// Pointer to the 1st layer interface filler.
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auto filler_first_layer = filler_first_layer_ptr ? filler_first_layer_ptr.get() : filler_interface.get();
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auto filler_first_layer = filler_first_layer_ptr ? filler_first_layer_ptr.get() : filler_interface.get();
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// Filler for the 1st layer interface, if different from filler_interface.
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auto filler_raft_contact_ptr = std::unique_ptr<Fill>(range.begin() == n_raft_layers && config.support_material_interface_layers.value == 0 ?
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Fill::new_from_type(support_params.raft_interface_fill_pattern) : nullptr);
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// Pointer to the 1st layer interface filler.
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auto filler_raft_contact = filler_raft_contact_ptr ? filler_raft_contact_ptr.get() : filler_interface.get();
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// Filler for the base interface (to be used for soluble interface / non soluble base, to produce non soluble interface layer below soluble interface layer).
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// Filler for the base interface (to be used for soluble interface / non soluble base, to produce non soluble interface layer below soluble interface layer).
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auto filler_base_interface = std::unique_ptr<Fill>(base_interface_layers.empty() ? nullptr :
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auto filler_base_interface = std::unique_ptr<Fill>(base_interface_layers.empty() ? nullptr :
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Fill::new_from_type(support_params.interface_density > 0.95 || support_params.with_sheath ? ipRectilinear : ipSupportBase));
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Fill::new_from_type(support_params.interface_density > 0.95 || support_params.with_sheath ? ipRectilinear : ipSupportBase));
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@ -4364,6 +4372,8 @@ void generate_support_toolpaths(
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filler_interface->set_bounding_box(bbox_object);
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filler_interface->set_bounding_box(bbox_object);
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if (filler_first_layer_ptr)
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if (filler_first_layer_ptr)
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filler_first_layer_ptr->set_bounding_box(bbox_object);
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filler_first_layer_ptr->set_bounding_box(bbox_object);
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if (filler_raft_contact_ptr)
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filler_raft_contact_ptr->set_bounding_box(bbox_object);
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if (filler_base_interface)
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if (filler_base_interface)
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filler_base_interface->set_bounding_box(bbox_object);
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filler_base_interface->set_bounding_box(bbox_object);
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filler_support->set_bounding_box(bbox_object);
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filler_support->set_bounding_box(bbox_object);
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@ -4402,9 +4412,11 @@ void generate_support_toolpaths(
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if (idx_layer_intermediate < intermediate_layers.size() && intermediate_layers[idx_layer_intermediate]->print_z < support_layer.print_z + EPSILON)
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if (idx_layer_intermediate < intermediate_layers.size() && intermediate_layers[idx_layer_intermediate]->print_z < support_layer.print_z + EPSILON)
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base_layer.layer = intermediate_layers[idx_layer_intermediate];
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base_layer.layer = intermediate_layers[idx_layer_intermediate];
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bool raft_layer = support_layer_id == n_raft_layers;
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if (config.support_material_interface_layers == 0) {
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if (config.support_material_interface_layers == 0) {
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// If no top interface layers were requested, we treat the contact layer exactly as a generic base layer.
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// If no top interface layers were requested, we treat the contact layer exactly as a generic base layer.
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if (support_params.can_merge_support_regions) {
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// Don't merge the raft contact layer though.
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if (support_params.can_merge_support_regions && ! raft_layer) {
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if (base_layer.could_merge(top_contact_layer))
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if (base_layer.could_merge(top_contact_layer))
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base_layer.merge(std::move(top_contact_layer));
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base_layer.merge(std::move(top_contact_layer));
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else if (base_layer.empty())
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else if (base_layer.empty())
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@ -4415,7 +4427,7 @@ void generate_support_toolpaths(
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// If no loops are allowed, we treat the contact layer exactly as a generic interface layer.
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// If no loops are allowed, we treat the contact layer exactly as a generic interface layer.
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// Merge interface_layer into top_contact_layer, as the top_contact_layer is not synchronized and therefore it will be used
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// Merge interface_layer into top_contact_layer, as the top_contact_layer is not synchronized and therefore it will be used
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// to trim other layers.
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// to trim other layers.
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if (top_contact_layer.could_merge(interface_layer))
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if (top_contact_layer.could_merge(interface_layer) && ! raft_layer)
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top_contact_layer.merge(std::move(interface_layer));
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top_contact_layer.merge(std::move(interface_layer));
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}
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}
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if ((config.support_material_interface_layers == 0 || config.support_material_bottom_interface_layers == 0) && support_params.can_merge_support_regions) {
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if ((config.support_material_interface_layers == 0 || config.support_material_bottom_interface_layers == 0) && support_params.can_merge_support_regions) {
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@ -4423,7 +4435,7 @@ void generate_support_toolpaths(
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base_layer.merge(std::move(bottom_contact_layer));
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base_layer.merge(std::move(bottom_contact_layer));
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else if (base_layer.empty() && ! bottom_contact_layer.empty() && ! bottom_contact_layer.layer->bridging)
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else if (base_layer.empty() && ! bottom_contact_layer.empty() && ! bottom_contact_layer.layer->bridging)
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base_layer = std::move(bottom_contact_layer);
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base_layer = std::move(bottom_contact_layer);
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} else if (bottom_contact_layer.could_merge(top_contact_layer))
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} else if (bottom_contact_layer.could_merge(top_contact_layer) && ! raft_layer)
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top_contact_layer.merge(std::move(bottom_contact_layer));
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top_contact_layer.merge(std::move(bottom_contact_layer));
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else if (bottom_contact_layer.could_merge(interface_layer))
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else if (bottom_contact_layer.could_merge(interface_layer))
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bottom_contact_layer.merge(std::move(interface_layer));
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bottom_contact_layer.merge(std::move(interface_layer));
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@ -4441,35 +4453,44 @@ void generate_support_toolpaths(
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#endif
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#endif
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// Top and bottom contacts, interface layers.
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// Top and bottom contacts, interface layers.
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for (size_t i = 0; i < 3; ++ i) {
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enum class InterfaceLayerType { TopContact, BottomContact, RaftContact, Interface, InterfaceAsBase };
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SupportGeneratorLayerExtruded &layer_ex = (i == 0) ? top_contact_layer : (i == 1 ? bottom_contact_layer : interface_layer);
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auto extrude_interface = [&](SupportGeneratorLayerExtruded &layer_ex, InterfaceLayerType interface_layer_type) {
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if (layer_ex.empty() || layer_ex.polygons_to_extrude().empty())
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if (! layer_ex.empty() && ! layer_ex.polygons_to_extrude().empty()) {
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continue;
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bool interface_as_base = interface_layer_type == InterfaceLayerType::InterfaceAsBase;
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bool interface_as_base = config.support_material_interface_layers.value == 0 ||
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bool raft_contact = interface_layer_type == InterfaceLayerType::RaftContact;
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(config.support_material_bottom_interface_layers == 0 && &layer_ex == &bottom_contact_layer);
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//FIXME Bottom interfaces are extruded with the briding flow. Some bridging layers have its height slightly reduced, therefore
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//FIXME Bottom interfaces are extruded with the briding flow. Some bridging layers have its height slightly reduced, therefore
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// the bridging flow does not quite apply. Reduce the flow to area of an ellipse? (A = pi * a * b)
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// the bridging flow does not quite apply. Reduce the flow to area of an ellipse? (A = pi * a * b)
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auto *filler = raft_contact ? filler_raft_contact : filler_interface.get();
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auto interface_flow = layer_ex.layer->bridging ?
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auto interface_flow = layer_ex.layer->bridging ?
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Flow::bridging_flow(layer_ex.layer->height, support_params.support_material_bottom_interface_flow.nozzle_diameter()) :
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Flow::bridging_flow(layer_ex.layer->height, support_params.support_material_bottom_interface_flow.nozzle_diameter()) :
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(interface_as_base ? &support_params.support_material_flow : &support_params.support_material_interface_flow)->with_height(float(layer_ex.layer->height));
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(raft_contact ? &support_params.raft_interface_flow :
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filler_interface->angle = interface_as_base ?
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interface_as_base ? &support_params.support_material_flow : &support_params.support_material_interface_flow)
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->with_height(float(layer_ex.layer->height));
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filler->angle = interface_as_base ?
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// If zero interface layers are configured, use the same angle as for the base layers.
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// If zero interface layers are configured, use the same angle as for the base layers.
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angles[support_layer_id % angles.size()] :
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angles[support_layer_id % angles.size()] :
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// Use interface angle for the interface layers.
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// Use interface angle for the interface layers.
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support_params.interface_angle + interface_angle_delta;
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support_params.interface_angle + interface_angle_delta;
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double density = interface_as_base ? support_params.support_density : support_params.interface_density;
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double density = raft_contact ? support_params.raft_interface_density : interface_as_base ? support_params.support_density : support_params.interface_density;
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filler_interface->spacing = interface_as_base ? support_params.support_material_flow.spacing() : support_params.support_material_interface_flow.spacing();
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filler->spacing = raft_contact ? support_params.raft_interface_flow.spacing() :
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filler_interface->link_max_length = coord_t(scale_(filler_interface->spacing * link_max_length_factor / density));
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interface_as_base ? support_params.support_material_flow.spacing() : support_params.support_material_interface_flow.spacing();
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filler->link_max_length = coord_t(scale_(filler->spacing * link_max_length_factor / density));
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fill_expolygons_generate_paths(
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fill_expolygons_generate_paths(
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// Destination
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// Destination
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layer_ex.extrusions,
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layer_ex.extrusions,
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// Regions to fill
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// Regions to fill
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union_safety_offset_ex(layer_ex.polygons_to_extrude()),
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union_safety_offset_ex(layer_ex.polygons_to_extrude()),
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// Filler and its parameters
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// Filler and its parameters
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filler_interface.get(), float(density),
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filler, float(density),
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// Extrusion parameters
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// Extrusion parameters
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ExtrusionRole::SupportMaterialInterface, interface_flow);
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ExtrusionRole::SupportMaterialInterface, interface_flow);
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}
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}
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};
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const bool top_interfaces = config.support_material_interface_layers.value != 0;
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const bool bottom_interfaces = top_interfaces && config.support_material_bottom_interface_layers != 0;
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extrude_interface(top_contact_layer, raft_layer ? InterfaceLayerType::RaftContact : top_interfaces ? InterfaceLayerType::TopContact : InterfaceLayerType::InterfaceAsBase);
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extrude_interface(bottom_contact_layer, bottom_interfaces ? InterfaceLayerType::BottomContact : InterfaceLayerType::InterfaceAsBase);
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extrude_interface(interface_layer, top_interfaces ? InterfaceLayerType::Interface : InterfaceLayerType::InterfaceAsBase);
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// Base interface layers under soluble interfaces
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// Base interface layers under soluble interfaces
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if ( ! base_interface_layer.empty() && ! base_interface_layer.polygons_to_extrude().empty()) {
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if ( ! base_interface_layer.empty() && ! base_interface_layer.polygons_to_extrude().empty()) {
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@ -122,10 +122,17 @@ using SupportGeneratorLayersPtr = std::vector<SupportGeneratorLayer*>;
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struct SupportParameters {
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struct SupportParameters {
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SupportParameters(const PrintObject &object);
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SupportParameters(const PrintObject &object);
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// Flow at the 1st print layer.
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Flow first_layer_flow;
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Flow first_layer_flow;
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// Flow at the support base (neither top, nor bottom interface).
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// Also flow at the raft base with the exception of raft interface and contact layers.
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Flow support_material_flow;
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Flow support_material_flow;
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// Flow at the top interface and contact layers.
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Flow support_material_interface_flow;
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Flow support_material_interface_flow;
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// Flow at the bottom interfaces and contacts.
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Flow support_material_bottom_interface_flow;
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Flow support_material_bottom_interface_flow;
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// Flow at raft inteface & contact layers.
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Flow raft_interface_flow;
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// Is merging of regions allowed? Could the interface & base support regions be printed with the same extruder?
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// Is merging of regions allowed? Could the interface & base support regions be printed with the same extruder?
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bool can_merge_support_regions;
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bool can_merge_support_regions;
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@ -136,14 +143,23 @@ struct SupportParameters {
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float base_angle;
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float base_angle;
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float interface_angle;
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float interface_angle;
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coordf_t interface_spacing;
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// Density of the top / bottom interface and contact layers.
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coordf_t interface_density;
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coordf_t interface_density;
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coordf_t support_spacing;
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// Density of the raft interface and contact layers.
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coordf_t raft_interface_density;
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// Density of the base support layers.
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coordf_t support_density;
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coordf_t support_density;
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// Pattern of the sparse infill including sparse raft layers.
|
||||||
InfillPattern base_fill_pattern;
|
InfillPattern base_fill_pattern;
|
||||||
|
// Pattern of the top / bottom interface and contact layers.
|
||||||
InfillPattern interface_fill_pattern;
|
InfillPattern interface_fill_pattern;
|
||||||
|
// Pattern of the raft interface and contact layers.
|
||||||
|
InfillPattern raft_interface_fill_pattern;
|
||||||
|
// Pattern of the contact layers.
|
||||||
InfillPattern contact_fill_pattern;
|
InfillPattern contact_fill_pattern;
|
||||||
|
// Shall the sparse (base) layers be printed with a single perimeter line (sheath) for robustness?
|
||||||
bool with_sheath;
|
bool with_sheath;
|
||||||
};
|
};
|
||||||
|
|
||||||
|
Loading…
Reference in New Issue
Block a user