cb138a20b8
Replaced the unscale macro with a template, implemented templates for unscaling Eigen vectors.
373 lines
12 KiB
Plaintext
373 lines
12 KiB
Plaintext
%module{Slic3r::XS};
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%{
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#include <xsinit.h>
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#include "libslic3r/Model.hpp"
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#include "libslic3r/Print.hpp"
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#include "libslic3r/PrintConfig.hpp"
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#include "libslic3r/Slicing.hpp"
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#include "libslic3r/Format/AMF.hpp"
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#include "libslic3r/Format/3mf.hpp"
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#include "libslic3r/Format/OBJ.hpp"
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#include "libslic3r/Format/PRUS.hpp"
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#include "libslic3r/Format/STL.hpp"
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#include "slic3r/GUI/PresetBundle.hpp"
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%}
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%name{Slic3r::Model} class Model {
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Model();
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~Model();
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%name{read_from_file} Model(std::string input_file, bool add_default_instances = true)
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%code%{
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try {
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RETVAL = new Model(Model::read_from_file(input_file, add_default_instances));
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} catch (std::exception& e) {
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croak("Error while opening %s: %s\n", input_file.c_str(), e.what());
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}
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%};
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%name{read_from_archive} Model(std::string input_file, PresetBundle* bundle, bool add_default_instances = true)
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%code%{
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try {
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RETVAL = new Model(Model::read_from_archive(input_file, bundle, add_default_instances));
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} catch (std::exception& e) {
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croak("Error while opening %s: %s\n", input_file.c_str(), e.what());
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}
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%};
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Clone<Model> clone()
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%code%{ RETVAL = THIS; %};
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%name{_add_object} Ref<ModelObject> add_object();
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Ref<ModelObject> _add_object_clone(ModelObject* other, bool copy_volumes = true)
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%code%{ RETVAL = THIS->add_object(*other, copy_volumes); %};
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void delete_object(size_t idx);
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void clear_objects();
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size_t objects_count()
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%code%{ RETVAL = THIS->objects.size(); %};
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Ref<ModelObject> get_object(int idx)
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%code%{ RETVAL = THIS->objects.at(idx); %};
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Ref<ModelMaterial> get_material(t_model_material_id material_id)
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%code%{
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RETVAL = THIS->get_material(material_id);
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if (RETVAL == NULL) {
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XSRETURN_UNDEF;
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}
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%};
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%name{add_material} Ref<ModelMaterial> add_material(t_model_material_id material_id);
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Ref<ModelMaterial> add_material_clone(t_model_material_id material_id, ModelMaterial* other)
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%code%{ RETVAL = THIS->add_material(material_id, *other); %};
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bool has_material(t_model_material_id material_id) const
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%code%{
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RETVAL = (THIS->get_material(material_id) != NULL);
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%};
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void delete_material(t_model_material_id material_id);
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void clear_materials();
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std::vector<std::string> material_names() const
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%code%{
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for (ModelMaterialMap::iterator i = THIS->materials.begin();
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i != THIS->materials.end(); ++i)
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{
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RETVAL.push_back(i->first);
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}
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%};
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size_t material_count() const
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%code%{ RETVAL = THIS->materials.size(); %};
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bool add_default_instances();
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Clone<BoundingBoxf3> bounding_box();
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void center_instances_around_point(Pointf* point)
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%code%{ THIS->center_instances_around_point(*point); %};
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void translate(double x, double y, double z);
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Clone<TriangleMesh> mesh();
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ModelObjectPtrs* objects()
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%code%{ RETVAL = &THIS->objects; %};
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bool arrange_objects(double dist, BoundingBoxf* bb = NULL);
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void duplicate(unsigned int copies_num, double dist, BoundingBoxf* bb = NULL);
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void duplicate_objects(unsigned int copies_num, double dist, BoundingBoxf* bb = NULL);
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void duplicate_objects_grid(unsigned int x, unsigned int y, double dist);
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bool looks_like_multipart_object() const;
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void convert_multipart_object(unsigned int max_extruders);
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void print_info() const;
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bool store_stl(char *path, bool binary)
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%code%{ TriangleMesh mesh = THIS->mesh(); RETVAL = Slic3r::store_stl(path, &mesh, binary); %};
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bool store_amf(char *path, Print* print, bool export_print_config)
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%code%{ RETVAL = Slic3r::store_amf(path, THIS, print, export_print_config); %};
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bool store_3mf(char *path, Print* print, bool export_print_config)
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%code%{ RETVAL = Slic3r::store_3mf(path, THIS, print, export_print_config); %};
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%{
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Model*
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load_stl(CLASS, path, object_name)
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char* CLASS;
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char* path;
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char* object_name;
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CODE:
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RETVAL = new Model();
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if (! load_stl(path, RETVAL, object_name)) {
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delete RETVAL;
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RETVAL = NULL;
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}
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OUTPUT:
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RETVAL
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Model*
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load_obj(CLASS, path, object_name)
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char* CLASS;
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char* path;
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char* object_name;
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CODE:
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RETVAL = new Model();
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if (! load_obj(path, RETVAL, object_name)) {
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delete RETVAL;
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RETVAL = NULL;
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}
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OUTPUT:
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RETVAL
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Model*
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load_amf(CLASS, bundle, path)
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char* CLASS;
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PresetBundle* bundle;
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char* path;
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CODE:
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RETVAL = new Model();
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if (! load_amf(path, bundle, RETVAL)) {
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delete RETVAL;
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RETVAL = NULL;
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}
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OUTPUT:
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RETVAL
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Model*
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load_3mf(CLASS, bundle, path)
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char* CLASS;
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PresetBundle* bundle;
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char* path;
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CODE:
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RETVAL = new Model();
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if (! load_3mf(path, bundle, RETVAL)) {
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delete RETVAL;
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RETVAL = NULL;
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}
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OUTPUT:
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RETVAL
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Model*
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load_prus(CLASS, path)
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char* CLASS;
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char* path;
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CODE:
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#ifdef SLIC3R_PRUS
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RETVAL = new Model();
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if (! load_prus(path, RETVAL)) {
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delete RETVAL;
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RETVAL = NULL;
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}
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#else
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RETVAL = nullptr;
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#endif
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OUTPUT:
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RETVAL
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%}
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};
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%name{Slic3r::Model::Material} class ModelMaterial {
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Ref<Model> model()
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%code%{ RETVAL = THIS->get_model(); %};
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Ref<DynamicPrintConfig> config()
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%code%{ RETVAL = &THIS->config; %};
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std::string get_attribute(std::string name)
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%code%{ if (THIS->attributes.find(name) != THIS->attributes.end()) RETVAL = THIS->attributes[name]; %};
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void set_attribute(std::string name, std::string value)
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%code%{ THIS->attributes[name] = value; %};
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%{
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SV*
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ModelMaterial::attributes()
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CODE:
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HV* hv = newHV();
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for (t_model_material_attributes::const_iterator attr = THIS->attributes.begin(); attr != THIS->attributes.end(); ++attr) {
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(void)hv_store( hv, attr->first.c_str(), attr->first.length(), newSVpv(attr->second.c_str(), attr->second.length()), 0 );
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}
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RETVAL = (SV*)newRV_noinc((SV*)hv);
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OUTPUT:
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RETVAL
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%}
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};
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%name{Slic3r::Model::Object} class ModelObject {
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ModelVolumePtrs* volumes()
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%code%{ RETVAL = &THIS->volumes; %};
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ModelInstancePtrs* instances()
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%code%{ RETVAL = &THIS->instances; %};
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void invalidate_bounding_box();
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Clone<TriangleMesh> mesh();
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Clone<TriangleMesh> raw_mesh();
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Clone<BoundingBoxf3> instance_bounding_box(int idx)
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%code%{ RETVAL = THIS->instance_bounding_box(idx, true); %};
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Clone<BoundingBoxf3> bounding_box();
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%name{_add_volume} Ref<ModelVolume> add_volume(TriangleMesh* mesh)
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%code%{ RETVAL = THIS->add_volume(*mesh); %};
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Ref<ModelVolume> _add_volume_clone(ModelVolume* other)
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%code%{ RETVAL = THIS->add_volume(*other); %};
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void delete_volume(size_t idx);
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void clear_volumes();
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int volumes_count()
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%code%{ RETVAL = THIS->volumes.size(); %};
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Ref<ModelVolume> get_volume(int idx)
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%code%{ RETVAL = THIS->volumes.at(idx); %};
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bool move_volume_up(int idx)
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%code%{
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if (idx > 0 && idx < int(THIS->volumes.size())) {
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std::swap(THIS->volumes[idx-1], THIS->volumes[idx]);
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RETVAL = true;
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} else
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RETVAL = false;
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%};
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bool move_volume_down(int idx)
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%code%{
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if (idx >= 0 && idx + 1 < int(THIS->volumes.size())) {
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std::swap(THIS->volumes[idx+1], THIS->volumes[idx]);
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RETVAL = true;
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} else
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RETVAL = false;
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%};
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%name{_add_instance} Ref<ModelInstance> add_instance();
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Ref<ModelInstance> _add_instance_clone(ModelInstance* other)
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%code%{ RETVAL = THIS->add_instance(*other); %};
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void delete_last_instance();
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void clear_instances();
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int instances_count()
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%code%{ RETVAL = THIS->instances.size(); %};
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std::string name()
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%code%{ RETVAL = THIS->name; %};
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void set_name(std::string value)
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%code%{ THIS->name = value; %};
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std::string input_file()
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%code%{ RETVAL = THIS->input_file; %};
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void set_input_file(std::string value)
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%code%{ THIS->input_file = value; %};
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Ref<DynamicPrintConfig> config()
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%code%{ RETVAL = &THIS->config; %};
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Ref<Model> model()
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%code%{ RETVAL = THIS->get_model(); %};
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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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void set_layer_height_ranges(t_layer_height_ranges ranges)
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%code%{ THIS->layer_height_ranges = ranges; %};
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std::vector<double> layer_height_profile()
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%code%{ RETVAL = THIS->layer_height_profile_valid ? THIS->layer_height_profile : std::vector<double>(); %};
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void set_layer_height_profile(std::vector<double> profile)
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%code%{ THIS->layer_height_profile = profile; THIS->layer_height_profile_valid = true; %};
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Ref<Vec3d> origin_translation()
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%code%{ RETVAL = &THIS->origin_translation; %};
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void set_origin_translation(Vec3d* point)
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%code%{ THIS->origin_translation = *point; %};
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bool needed_repair() const;
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int materials_count() const;
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int facets_count();
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void center_around_origin();
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void translate(double x, double y, double z);
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void scale_xyz(Vec3d* versor)
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%code{% THIS->scale(*versor); %};
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void rotate(float angle, Axis axis);
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void mirror(Axis axis);
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Model* cut(double z)
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%code%{
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RETVAL = new Model();
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THIS->cut(z, RETVAL);
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%};
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ModelObjectPtrs* split_object()
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%code%{
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RETVAL = new ModelObjectPtrs(); // leak?
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THIS->split(RETVAL);
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%};
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void print_info() const;
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};
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%name{Slic3r::Model::Volume} class ModelVolume {
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Ref<ModelObject> object()
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%code%{ RETVAL = THIS->get_object(); %};
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std::string name()
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%code%{ RETVAL = THIS->name; %};
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void set_name(std::string value)
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%code%{ THIS->name = value; %};
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t_model_material_id material_id();
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void set_material_id(t_model_material_id material_id)
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%code%{ THIS->material_id(material_id); %};
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Ref<ModelMaterial> material();
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Ref<DynamicPrintConfig> config()
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%code%{ RETVAL = &THIS->config; %};
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Ref<TriangleMesh> mesh()
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%code%{ RETVAL = &THIS->mesh; %};
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bool modifier()
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%code%{ RETVAL = THIS->modifier; %};
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void set_modifier(bool modifier)
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%code%{ THIS->modifier = modifier; %};
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size_t split(unsigned int max_extruders);
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ModelMaterial* assign_unique_material();
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};
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%name{Slic3r::Model::Instance} class ModelInstance {
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Ref<ModelObject> object()
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%code%{ RETVAL = THIS->get_object(); %};
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double rotation()
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%code%{ RETVAL = THIS->rotation; %};
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double scaling_factor()
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%code%{ RETVAL = THIS->scaling_factor; %};
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Ref<Pointf> offset()
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%code%{ RETVAL = &THIS->offset; %};
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void set_rotation(double val)
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%code%{ THIS->rotation = val; THIS->get_object()->invalidate_bounding_box(); %};
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void set_scaling_factor(double val)
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%code%{ THIS->scaling_factor = val; THIS->get_object()->invalidate_bounding_box(); %};
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void set_offset(Pointf *offset)
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%code%{ THIS->offset = *offset; %};
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void transform_mesh(TriangleMesh* mesh, bool dont_translate = false) const;
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void transform_polygon(Polygon* polygon) const;
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};
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