288 lines
9.0 KiB
Plaintext
288 lines
9.0 KiB
Plaintext
%module{Slic3r::XS};
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%{
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#include <xsinit.h>
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#include "libslic3r/Print.hpp"
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#include "libslic3r/PlaceholderParser.hpp"
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%}
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%package{Slic3r::Print::State};
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%{
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IV
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_constant()
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ALIAS:
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STEP_SLICE = posSlice
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STEP_PERIMETERS = posPerimeters
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STEP_PREPARE_INFILL = posPrepareInfill
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STEP_INFILL = posInfill
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STEP_SUPPORTMATERIAL = posSupportMaterial
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STEP_SKIRT = psSkirt
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STEP_BRIM = psBrim
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STEP_WIPE_TOWER = psWipeTower
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PROTOTYPE:
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CODE:
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RETVAL = ix;
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OUTPUT: RETVAL
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%}
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%name{Slic3r::Print::Region} class PrintRegion {
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// owned by Print, no constructor/destructor
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Ref<StaticPrintConfig> config()
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%code%{ RETVAL = &THIS->config; %};
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Ref<Print> print();
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Clone<Flow> flow(FlowRole role, double layer_height, bool bridge, bool first_layer, double width, PrintObject* object)
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%code%{ RETVAL = THIS->flow(role, layer_height, bridge, first_layer, width, *object); %};
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};
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%name{Slic3r::Print::Object} class PrintObject {
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// owned by Print, no constructor/destructor
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void add_region_volume(int region_id, int volume_id);
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std::vector<int> get_region_volumes(int region_id)
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%code%{
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if (0 <= region_id && region_id < THIS->region_volumes.size())
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RETVAL = THIS->region_volumes[region_id];
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%};
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int region_count()
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%code%{ RETVAL = THIS->print()->regions.size(); %};
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Ref<Print> print();
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Ref<ModelObject> model_object();
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Ref<StaticPrintConfig> config()
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%code%{ RETVAL = &THIS->config; %};
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Points copies();
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t_layer_height_ranges layer_height_ranges()
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%code%{ RETVAL = THIS->layer_height_ranges; %};
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std::vector<double> layer_height_profile()
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%code%{ RETVAL = THIS->layer_height_profile; %};
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Ref<Point3> size()
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%code%{ RETVAL = &THIS->size; %};
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Clone<BoundingBox> bounding_box();
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Points _shifted_copies()
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%code%{ RETVAL = THIS->_shifted_copies; %};
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void set_shifted_copies(Points value)
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%code%{ THIS->_shifted_copies = value; %};
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bool add_copy(Pointf* point)
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%code%{ RETVAL = THIS->add_copy(*point); %};
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bool delete_last_copy();
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bool delete_all_copies();
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bool set_copies(Points copies);
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bool reload_model_instances();
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void set_layer_height_ranges(t_layer_height_ranges layer_height_ranges)
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%code%{ THIS->layer_height_ranges = layer_height_ranges; %};
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void set_layer_height_profile(std::vector<double> profile)
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%code%{ THIS->layer_height_profile = profile; %};
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size_t total_layer_count();
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size_t layer_count();
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void clear_layers();
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Ref<Layer> get_layer(int idx);
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Ref<Layer> add_layer(int id, coordf_t height, coordf_t print_z,
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coordf_t slice_z);
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size_t support_layer_count();
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void clear_support_layers();
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Ref<SupportLayer> get_support_layer(int idx);
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Ref<SupportLayer> add_support_layer(int id, coordf_t height, coordf_t print_z);
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bool step_done(PrintObjectStep step)
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%code%{ RETVAL = THIS->state.is_done(step); %};
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void set_step_done(PrintObjectStep step)
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%code%{ THIS->state.set_done(step); %};
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void set_step_started(PrintObjectStep step)
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%code%{ THIS->state.set_started(step); %};
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void _slice();
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std::string _fix_slicing_errors();
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void _simplify_slices(double distance);
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void _prepare_infill();
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void detect_surfaces_type();
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void process_external_surfaces();
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void _make_perimeters();
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void _infill();
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void _generate_support_material();
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std::vector<double> get_layer_height_min_max()
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%code%{
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SlicingParameters slicing_params = THIS->slicing_parameters();
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RETVAL.push_back(slicing_params.min_layer_height);
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RETVAL.push_back(slicing_params.max_layer_height);
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RETVAL.push_back(slicing_params.first_print_layer_height);
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RETVAL.push_back(slicing_params.first_object_layer_height);
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RETVAL.push_back(slicing_params.layer_height);
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%};
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void adjust_layer_height_profile(coordf_t z, coordf_t layer_thickness_delta, coordf_t band_width, int action)
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%code%{
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THIS->update_layer_height_profile(THIS->model_object()->layer_height_profile);
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adjust_layer_height_profile(
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THIS->slicing_parameters(), THIS->model_object()->layer_height_profile, z, layer_thickness_delta, band_width, LayerHeightEditActionType(action));
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THIS->model_object()->layer_height_profile_valid = true;
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THIS->layer_height_profile_valid = false;
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%};
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void reset_layer_height_profile();
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int ptr()
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%code%{ RETVAL = (int)(intptr_t)THIS; %};
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};
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%name{Slic3r::Print} class Print {
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Print();
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~Print();
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Ref<StaticPrintConfig> config()
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%code%{ RETVAL = &THIS->config; %};
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Ref<StaticPrintConfig> default_object_config()
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%code%{ RETVAL = &THIS->default_object_config; %};
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Ref<StaticPrintConfig> default_region_config()
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%code%{ RETVAL = &THIS->default_region_config; %};
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Ref<PlaceholderParser> placeholder_parser()
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%code%{ RETVAL = &THIS->placeholder_parser; %};
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// TODO: status_cb
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Ref<ExtrusionEntityCollection> skirt()
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%code%{ RETVAL = &THIS->skirt; %};
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Ref<ExtrusionEntityCollection> brim()
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%code%{ RETVAL = &THIS->brim; %};
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PrintObjectPtrs* objects()
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%code%{ RETVAL = &THIS->objects; %};
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void clear_objects();
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Ref<PrintObject> get_object(int idx);
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void delete_object(int idx);
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void reload_object(int idx);
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bool reload_model_instances();
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size_t object_count()
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%code%{ RETVAL = THIS->objects.size(); %};
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PrintRegionPtrs* regions()
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%code%{ RETVAL = &THIS->regions; %};
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Ref<PrintRegion> get_region(int idx);
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Ref<PrintRegion> add_region();
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size_t region_count()
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%code%{ RETVAL = THIS->regions.size(); %};
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bool step_done(PrintStep step)
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%code%{ RETVAL = THIS->state.is_done(step); %};
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bool object_step_done(PrintObjectStep step)
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%code%{ RETVAL = THIS->step_done(step); %};
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void set_step_done(PrintStep step)
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%code%{ THIS->state.set_done(step); %};
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void set_step_started(PrintStep step)
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%code%{ THIS->state.set_started(step); %};
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void clear_filament_stats()
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%code%{
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THIS->filament_stats.clear();
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%};
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void set_filament_stats(int extruder_id, float length)
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%code%{
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THIS->filament_stats.insert(std::pair<size_t,float>(extruder_id, 0));
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THIS->filament_stats[extruder_id] += length;
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%};
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SV* filament_stats()
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%code%{
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HV* hv = newHV();
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for (std::map<size_t,float>::const_iterator it = THIS->filament_stats.begin(); it != THIS->filament_stats.end(); ++it) {
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// stringify extruder_id
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std::ostringstream ss;
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ss << it->first;
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std::string str = ss.str();
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(void)hv_store( hv, str.c_str(), str.length(), newSViv(it->second), 0 );
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RETVAL = newRV_noinc((SV*)hv);
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}
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%};
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void _simplify_slices(double distance);
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double max_allowed_layer_height() const;
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bool has_support_material() const;
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void auto_assign_extruders(ModelObject* model_object);
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std::string output_filename();
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std::string output_filepath(std::string path = "");
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void add_model_object(ModelObject* model_object, int idx = -1);
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bool apply_config(DynamicPrintConfig* config)
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%code%{ RETVAL = THIS->apply_config(*config); %};
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bool has_infinite_skirt();
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bool has_skirt();
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std::vector<unsigned int> extruders() const;
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std::string _validate()
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%code%{ RETVAL = THIS->validate(); %};
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Clone<BoundingBox> bounding_box();
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Clone<BoundingBox> total_bounding_box();
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double skirt_first_layer_height();
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Clone<Flow> brim_flow();
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Clone<Flow> skirt_flow();
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void _make_skirt();
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void _make_brim();
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bool has_wipe_tower();
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void _clear_wipe_tower();
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void _make_wipe_tower();
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%{
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double
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Print::total_used_filament(...)
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CODE:
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if (items > 1) {
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THIS->total_used_filament = (double)SvNV(ST(1));
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}
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RETVAL = THIS->total_used_filament;
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OUTPUT:
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RETVAL
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double
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Print::total_extruded_volume(...)
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CODE:
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if (items > 1) {
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THIS->total_extruded_volume = (double)SvNV(ST(1));
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}
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RETVAL = THIS->total_extruded_volume;
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OUTPUT:
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RETVAL
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double
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Print::total_weight(...)
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CODE:
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if (items > 1) {
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THIS->total_weight = (double)SvNV(ST(1));
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}
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RETVAL = THIS->total_weight;
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OUTPUT:
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RETVAL
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double
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Print::total_cost(...)
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CODE:
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if (items > 1) {
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THIS->total_cost = (double)SvNV(ST(1));
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}
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RETVAL = THIS->total_cost;
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OUTPUT:
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RETVAL
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double
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Print::estimated_print_time(...)
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CODE:
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if (items > 1) {
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THIS->estimated_print_time = (double)SvNV(ST(1));
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}
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RETVAL = THIS->estimated_print_time;
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OUTPUT:
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RETVAL
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%}
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};
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