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572 lines
28 KiB
C++
572 lines
28 KiB
C++
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#include "libslic3r/Model.hpp"
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#include "libslic3r/Format/3mf.hpp"
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#include "libslic3r/Format/bbs_3mf.hpp"
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#include "libslic3r/Format/STL.hpp"
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#include "libslic3r/PrintConfig.hpp"
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#include "libslic3r/Semver.hpp"
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#include "libslic3r/Preset.hpp"
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#include "libslic3r/MultiNozzleUtils.hpp"
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#include "libslic3r/ProjectTask.hpp"
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#include <boost/filesystem/operations.hpp>
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#include <catch2/catch_tostring.hpp>
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#include <Eigen/Core>
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#include <Eigen/Geometry>
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#include <type_traits> // for std::enable_if_t
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#include <typeinfo> // for typeid
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namespace Catch {
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template <typename T>
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struct is_eigen_matrix : std::is_base_of<Eigen::MatrixBase<T>, T> {};
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template <typename T>
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struct StringMaker<T, std::enable_if_t<is_eigen_matrix<T>::value>> {
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static std::string convert(const T& eigen_obj) {
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// Newline at end of rows
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Eigen::IOFormat fmt(4, 0, ", ", "\n", "[", "]");
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std::stringstream ss;
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ss << "Matrix<" << typeid(eigen_obj).name() << "> = \n";
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ss << eigen_obj.format(fmt);
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return ss.str();
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}
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};
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// We must manually specialize for Eigen::Transform as it doesn't derive from MatrixBase.
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// It's defined as: Eigen::Transform<Scalar, Dim, Mode, Options>
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template <typename Scalar, int Dim, int Mode, int Options>
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struct StringMaker<Eigen::Transform<Scalar, Dim, Mode, Options>> {
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static std::string convert(const Eigen::Transform<Scalar, Dim, Mode, Options>& trafo) {
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// We print the underlying matrix
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const auto& matrix = trafo.matrix();
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// Newline at end of rows
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Eigen::IOFormat fmt(4, 0, ", ", "\n", "[", "]");
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std::stringstream ss;
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ss << "Transform<Mode=" << Mode << ", Dim=" << Dim << "> = \n";
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ss << matrix.format(fmt);
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return ss.str();
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}
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};
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// Quaternions also need an explicit specialization
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template <typename Scalar, int Options>
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struct StringMaker<Eigen::Quaternion<Scalar, Options>> {
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static std::string convert(const Eigen::Quaternion<Scalar, Options>& quat) {
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std::stringstream ss;
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ss << "Quaternion(w=" << quat.w() << ", x=" << quat.x() << ", y=" << quat.y() << ", z=" << quat.z() << ")";
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return ss.str();
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}
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};
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} // end namespace Catch
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#include <catch2/catch_all.hpp>
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using namespace Slic3r;
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SCENARIO("Reading 3mf file", "[3mf]") {
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GIVEN("umlauts in the path of the file") {
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Model model;
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WHEN("3mf model is read") {
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std::string path = std::string(TEST_DATA_DIR) + "/test_3mf/Geräte/Büchse.3mf";
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DynamicPrintConfig config;
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ConfigSubstitutionContext ctxt{ ForwardCompatibilitySubstitutionRule::Disable };
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bool ret = load_3mf(path.c_str(), config, ctxt, &model, false);
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THEN("load should succeed") {
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REQUIRE(ret);
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}
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}
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}
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}
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SCENARIO("Export+Import geometry to/from 3mf file cycle", "[3mf]") {
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GIVEN("world vertices coordinates before save") {
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// load a model from stl file
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Model src_model;
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std::string src_file = std::string(TEST_DATA_DIR) + "/test_3mf/Prusa.stl";
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load_stl(src_file.c_str(), &src_model);
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src_model.add_default_instances();
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ModelObject* src_object = src_model.objects.front();
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// apply generic transformation to the 1st volume
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Geometry::Transformation src_volume_transform;
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src_volume_transform.set_offset({ 10.0, 20.0, 0.0 });
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src_volume_transform.set_rotation({ Geometry::deg2rad(25.0), Geometry::deg2rad(35.0), Geometry::deg2rad(45.0) });
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src_volume_transform.set_scaling_factor({ 1.1, 1.2, 1.3 });
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src_volume_transform.set_mirror({ -1.0, 1.0, -1.0 });
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src_object->volumes.front()->set_transformation(src_volume_transform);
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// apply generic transformation to the 1st instance
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Geometry::Transformation src_instance_transform;
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src_instance_transform.set_offset({ 5.0, 10.0, 0.0 });
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src_instance_transform.set_rotation({ Geometry::deg2rad(12.0), Geometry::deg2rad(13.0), Geometry::deg2rad(14.0) });
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src_instance_transform.set_scaling_factor({ 0.9, 0.8, 0.7 });
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src_instance_transform.set_mirror({ 1.0, -1.0, -1.0 });
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src_object->instances.front()->set_transformation(src_instance_transform);
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WHEN("model is saved+loaded to/from 3mf file") {
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// save the model to 3mf file
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std::string test_file = std::string(TEST_DATA_DIR) + "/test_3mf/prusa.3mf";
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store_3mf(test_file.c_str(), &src_model, nullptr, false);
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// load back the model from the 3mf file
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Model dst_model;
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DynamicPrintConfig dst_config;
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{
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ConfigSubstitutionContext ctxt{ ForwardCompatibilitySubstitutionRule::Disable };
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load_3mf(test_file.c_str(), dst_config, ctxt, &dst_model, false);
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}
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boost::filesystem::remove(test_file);
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// compare meshes
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TriangleMesh src_mesh = src_model.mesh();
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TriangleMesh dst_mesh = dst_model.mesh();
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bool res = src_mesh.its.vertices.size() == dst_mesh.its.vertices.size();
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if (res) {
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for (size_t i = 0; i < dst_mesh.its.vertices.size(); ++i) {
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res &= dst_mesh.its.vertices[i].isApprox(src_mesh.its.vertices[i]);
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}
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}
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THEN("world vertices coordinates after load match") {
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REQUIRE(res);
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}
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}
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}
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}
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// .3mf multi-nozzle round-trip.
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// Locks the load/save handling for the H2C multi-nozzle plate metadata:
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// * filament_volume_maps -> plate config "filament_volume_map" (with the >1 -> 0 clamp)
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// * nozzle_volume_type -> PlateData::nozzle_volume_types (previously write-only)
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// and pins the deliberately-lossy keys (enable_filament_dynamic_map) so a future change has to
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// consciously unpin them. Uses a store_bbs_3mf -> load_bbs_3mf cycle (no external fixture needed).
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SCENARIO("H2C multi-nozzle .3mf round-trip", "[3mf][MultiNozzle]") {
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GIVEN("a plate carrying multi-nozzle filament assignment metadata") {
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Model model;
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std::string src_file = std::string(TEST_DATA_DIR) + "/test_3mf/Prusa.stl";
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REQUIRE(load_stl(src_file.c_str(), &model));
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model.add_default_instances();
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// store_bbs_3mf stages Metadata/project_settings.config through the model's backup path;
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// point it at a writable temp dir (the default lives under a read-only root in CI).
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std::string backup_dir =
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(boost::filesystem::temp_directory_path() / boost::filesystem::unique_path("orca_mn_%%%%%%%%")).string();
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boost::filesystem::create_directories(backup_dir);
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model.set_backup_path(backup_dir);
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// Global (printer) config: give nozzle_volume_type a non-default value so the slice_info
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// read-back is a meaningful assertion (High Flow == 1).
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DynamicPrintConfig config = DynamicPrintConfig::full_print_config();
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config.set_key_value("nozzle_volume_type",
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new ConfigOptionEnumsGeneric({ (int) NozzleVolumeType::nvtHighFlow }));
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PlateData* plate = new PlateData();
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plate->plate_index = 0;
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plate->is_sliced_valid = true; // gate for the slice_info.config writer (nozzle_volume_type)
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plate->filament_maps = { 1, 2, 1 }; // slice_info uses this; keep it == model_settings' value
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plate->config.set_key_value("filament_map_mode", new ConfigOptionEnum<FilamentMapMode>(fmmManual));
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plate->config.set_key_value("filament_map", new ConfigOptionInts({ 1, 2, 1 }));
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// Deliberately include out-of-range volume-type ids (2 == Hybrid, 3 == TPU High Flow):
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// the loader must clamp them back to Standard (0).
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plate->config.set_key_value("filament_volume_map", new ConfigOptionInts({ 0, 2, 1, 3 }));
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// Known-lossy: a true value must NOT survive the round-trip (slice_info hardcodes false,
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// model_settings never writes it).
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plate->config.set_key_value("enable_filament_dynamic_map", new ConfigOptionBool(true));
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WHEN("stored to and reloaded from a .3mf") {
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std::string test_file = std::string(TEST_DATA_DIR) + "/test_3mf/mn_roundtrip.3mf";
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StoreParams store_params;
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store_params.path = test_file.c_str();
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store_params.model = &model;
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store_params.config = &config;
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store_params.plate_data_list.push_back(plate);
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store_params.strategy = SaveStrategy::Zip64 | SaveStrategy::Silence;
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REQUIRE(store_bbs_3mf(store_params));
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Model dst_model;
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DynamicPrintConfig dst_config;
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ConfigSubstitutionContext ctxt{ ForwardCompatibilitySubstitutionRule::Enable };
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PlateDataPtrs dst_plates;
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std::vector<Preset*> project_presets;
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bool is_bbl_3mf = false, is_orca_3mf = false;
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Semver file_version;
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// LoadConfig is required for slice_info.config (nozzle_volume_type) to be parsed —
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// matches how the app loads projects.
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bool loaded = load_bbs_3mf(test_file.c_str(), &dst_config, &ctxt, &dst_model, &dst_plates,
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&project_presets, &is_bbl_3mf, &is_orca_3mf, &file_version, nullptr,
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LoadStrategy::LoadModel | LoadStrategy::LoadConfig);
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boost::filesystem::remove(test_file);
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THEN("every multi-nozzle key round-trips as expected") {
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REQUIRE(loaded);
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REQUIRE(dst_plates.size() >= 1);
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PlateData* rt = dst_plates.front();
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// filament_map (model_settings + slice_info; already round-tripped)
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auto* fmap = rt->config.option<ConfigOptionInts>("filament_map");
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REQUIRE(fmap != nullptr);
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REQUIRE(fmap->values == std::vector<int>({ 1, 2, 1 }));
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// filament_volume_map (model_settings) with the >1 -> 0 clamp
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auto* fvmap = rt->config.option<ConfigOptionInts>("filament_volume_map");
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REQUIRE(fvmap != nullptr);
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REQUIRE(fvmap->values == std::vector<int>({ 0, 0, 1, 0 }));
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// nozzle_volume_type read-back into PlateData::nozzle_volume_types
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REQUIRE(rt->nozzle_volume_types == "1");
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// enable_filament_dynamic_map pinned lossy: model_settings never serializes it and
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// slice_info hardcodes false, so the `true` we set is dropped. Pinned here
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// (absent or false, never true) so a future change that persists it must update this.
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auto* dyn = rt->config.option<ConfigOptionBool>("enable_filament_dynamic_map");
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const bool persisted_true = (dyn != nullptr && dyn->value);
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REQUIRE_FALSE(persisted_true);
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}
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release_PlateData_list(dst_plates);
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}
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delete plate; // store_bbs_3mf does not take ownership of the source plate
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boost::filesystem::remove_all(backup_dir);
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}
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}
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// Saved nozzle diameter for a single-nozzle-per-extruder printer with a non-standard nozzle.
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// The grouping result rounds every nozzle diameter to the nearest of {0.2,0.4,0.6,0.8} for its
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// internal matching key. That rounded value must NOT reach the saved <filament>/<nozzle> metadata on
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// a printer whose extruders each carry one nozzle: the exact per-extruder config diameter is written
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// instead, so a 0.5 mm nozzle is preserved rather than saved as 0.4. (Only an extruder that carries a
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// nozzle cluster, which the per-extruder config cannot express, keeps the grouping result's diameter.)
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SCENARIO("Non-standard nozzle diameter survives .3mf save on a single-nozzle printer", "[3mf][MultiNozzle]") {
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GIVEN("a single-extruder plate whose nozzle is 0.5 mm and whose stamped diameter was rounded to 0.4") {
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Model model;
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std::string src_file = std::string(TEST_DATA_DIR) + "/test_3mf/Prusa.stl";
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REQUIRE(load_stl(src_file.c_str(), &model));
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model.add_default_instances();
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std::string backup_dir =
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(boost::filesystem::temp_directory_path() / boost::filesystem::unique_path("orca_nd_%%%%%%%%")).string();
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boost::filesystem::create_directories(backup_dir);
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model.set_backup_path(backup_dir);
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// Single extruder with a non-standard 0.5 mm nozzle; extruder_max_nozzle_count stays at its
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// default (no nozzle cluster), so the writer must emit the exact config diameter.
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DynamicPrintConfig config = DynamicPrintConfig::full_print_config();
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config.set_key_value("nozzle_diameter", new ConfigOptionFloats({ 0.5 }));
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PlateData* plate = new PlateData();
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plate->plate_index = 0;
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plate->is_sliced_valid = true; // gate for the slice_info.config writer
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plate->filament_maps = { 1 };
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// Seed the stamped diameter with the grouping result's rounded value (0.5 -> 0.4) so the
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// assertion proves the writer ignores it and emits the exact config diameter instead.
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FilamentInfo fi;
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fi.id = 0;
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fi.type = "PLA";
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fi.color = "#FFFFFFFF";
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fi.group_id = { 0 };
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fi.nozzle_diameter = 0.4; // rounded; must NOT be the value written
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plate->slice_filaments_info.push_back(fi);
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WHEN("stored to and reloaded from a .3mf") {
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std::string test_file = std::string(TEST_DATA_DIR) + "/test_3mf/nd_roundtrip.3mf";
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StoreParams store_params;
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store_params.path = test_file.c_str();
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store_params.model = &model;
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store_params.config = &config;
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store_params.plate_data_list.push_back(plate);
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store_params.strategy = SaveStrategy::Zip64 | SaveStrategy::Silence;
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REQUIRE(store_bbs_3mf(store_params));
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Model dst_model;
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DynamicPrintConfig dst_config;
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ConfigSubstitutionContext ctxt{ ForwardCompatibilitySubstitutionRule::Enable };
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PlateDataPtrs dst_plates;
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std::vector<Preset*> project_presets;
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bool is_bbl_3mf = false, is_orca_3mf = false;
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Semver file_version;
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bool loaded = load_bbs_3mf(test_file.c_str(), &dst_config, &ctxt, &dst_model, &dst_plates,
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&project_presets, &is_bbl_3mf, &is_orca_3mf, &file_version, nullptr,
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LoadStrategy::LoadModel | LoadStrategy::LoadConfig);
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boost::filesystem::remove(test_file);
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THEN("the saved nozzle diameter is the exact 0.5, not the rounded 0.4") {
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REQUIRE(loaded);
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REQUIRE(dst_plates.size() >= 1);
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PlateData* rt = dst_plates.front();
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// <nozzle> tag: device-facing per-nozzle diameter string, written verbatim.
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REQUIRE(rt->nozzles_info.size() >= 1);
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REQUIRE(rt->nozzles_info.front().diameter == "0.5");
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// <filament> tag: per-filament nozzle_diameter parsed back as 0.5, not 0.4.
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REQUIRE(rt->slice_filaments_info.size() >= 1);
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REQUIRE_THAT(rt->slice_filaments_info.front().nozzle_diameter, Catch::Matchers::WithinAbs(0.5, 1e-6));
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}
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release_PlateData_list(dst_plates);
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}
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delete plate; // store_bbs_3mf does not take ownership of the source plate
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boost::filesystem::remove_all(backup_dir);
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}
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}
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// A legacy / foreign project (no multi-nozzle metadata) must load crash-safe through the BBS
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// importer and must not fabricate a filament_volume_map.
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SCENARIO("Legacy project loads crash-safe via load_bbs_3mf", "[3mf][MultiNozzle]") {
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GIVEN("a project without any multi-nozzle metadata") {
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std::string path = std::string(TEST_DATA_DIR) + "/test_3mf/Geräte/Büchse.3mf";
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Model model;
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DynamicPrintConfig config;
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ConfigSubstitutionContext ctxt{ ForwardCompatibilitySubstitutionRule::Enable };
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PlateDataPtrs plates;
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std::vector<Preset*> project_presets;
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bool is_bbl_3mf = false, is_orca_3mf = false;
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Semver file_version;
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WHEN("loaded through the BBS importer") {
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bool loaded = false;
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REQUIRE_NOTHROW(loaded = load_bbs_3mf(path.c_str(), &config, &ctxt, &model, &plates,
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&project_presets, &is_bbl_3mf, &is_orca_3mf,
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&file_version, nullptr,
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LoadStrategy::LoadModel | LoadStrategy::LoadConfig));
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THEN("it does not crash and invents no per-filament volume map") {
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for (PlateData* p : plates) {
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REQUIRE(p->config.option<ConfigOptionInts>("filament_volume_map") == nullptr);
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}
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}
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release_PlateData_list(plates);
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}
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}
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}
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// Device-side nozzle-grouping serialization surface.
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// Direct unit coverage for the pure serialize/deserialize + StaticNozzleGroupResult helpers that the
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// gcode.3mf writer/reader lean on.
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SCENARIO("MultiNozzle serialization helpers", "[3mf][MultiNozzle]") {
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using namespace Slic3r::MultiNozzleUtils;
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GIVEN("NozzleInfo / NozzleGroupInfo") {
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NozzleInfo n0; n0.group_id = 0; n0.extruder_id = 0; n0.diameter = "0.4"; n0.volume_type = nvtStandard;
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NozzleInfo n1; n1.group_id = 1; n1.extruder_id = 1; n1.diameter = "0.4"; n1.volume_type = nvtHighFlow;
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THEN("NozzleInfo::serialize matches the <nozzle> tag attributes (extruder_id 1-based)") {
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REQUIRE(n0.serialize() == "id=\"0\" extruder_id=\"1\" nozzle_diameter=\"0.4\" volume_type=\"Standard\"");
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REQUIRE(n1.serialize() == "id=\"1\" extruder_id=\"2\" nozzle_diameter=\"0.4\" volume_type=\"High Flow\"");
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}
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THEN("NozzleGroupInfo serialize/deserialize round-trips and rejects malformed input") {
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NozzleGroupInfo g("0.4", nvtHighFlow, 1, 3);
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REQUIRE(g.serialize() == "1-0.4-High Flow-3");
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auto rt = NozzleGroupInfo::deserialize(g.serialize());
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REQUIRE(rt.has_value());
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REQUIRE(*rt == g);
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REQUIRE_FALSE(NozzleGroupInfo::deserialize("1-0.4-Standard").has_value()); // too few tokens
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REQUIRE_FALSE(NozzleGroupInfo::deserialize("x-0.4-Standard-3").has_value()); // non-numeric extruder
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}
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}
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GIVEN("a StaticNozzleGroupResult built from filament + nozzle infos") {
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std::vector<NozzleInfo> nozzles;
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{ NozzleInfo n; n.group_id = 0; n.extruder_id = 0; n.diameter = "0.4"; n.volume_type = nvtStandard; nozzles.push_back(n); }
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{ NozzleInfo n; n.group_id = 1; n.extruder_id = 1; n.diameter = "0.4"; n.volume_type = nvtHighFlow; nozzles.push_back(n); }
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std::vector<FilamentInfo> filaments(3);
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filaments[0].id = 0; filaments[0].group_id = { 0 };
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filaments[1].id = 1; filaments[1].group_id = { 1 };
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filaments[2].id = 2; filaments[2].group_id = { 0, 1 };
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auto result = StaticNozzleGroupResult::create(filaments, nozzles, { 0, 1, 2 }, { 0, 1, 0 }, false);
|
|
REQUIRE(result.has_value());
|
|
|
|
THEN("filament->nozzle queries resolve to the stored mapping") {
|
|
REQUIRE(result->get_extruder_count() == 2);
|
|
REQUIRE(result->get_used_extruders() == std::vector<int>({ 0, 1 }));
|
|
REQUIRE(result->get_used_filaments() == std::vector<unsigned int>({ 0, 1, 2 }));
|
|
REQUIRE(result->get_nozzles_for_filament(0).size() == 1);
|
|
REQUIRE(result->get_nozzles_for_filament(2).size() == 2);
|
|
// first-use resolves through the (filament,nozzle) change sequences.
|
|
auto first = result->get_first_nozzle_for_filament(1);
|
|
REQUIRE(first.has_value());
|
|
REQUIRE(first->group_id == 1);
|
|
}
|
|
THEN("empty inputs yield nullopt") {
|
|
REQUIRE_FALSE(StaticNozzleGroupResult::create({}, nozzles, {}, {}, false).has_value());
|
|
REQUIRE_FALSE(StaticNozzleGroupResult::create(filaments, {}, {}, {}, false).has_value());
|
|
}
|
|
}
|
|
|
|
GIVEN("load_nozzle_infos_with_compatibility fallbacks") {
|
|
std::vector<NozzleInfo> new_format;
|
|
{ NozzleInfo n; n.group_id = 1; n.extruder_id = 1; n.diameter = "0.4"; n.volume_type = nvtHighFlow; new_format.push_back(n); }
|
|
{ NozzleInfo n; n.group_id = 0; n.extruder_id = 0; n.diameter = "0.4"; n.volume_type = nvtStandard; new_format.push_back(n); }
|
|
|
|
THEN("new-format <nozzle> tags are returned sorted by logical id") {
|
|
auto out = load_nozzle_infos_with_compatibility(new_format, {}, {}, {}, {});
|
|
REQUIRE(out.size() == 2);
|
|
REQUIRE(out[0].group_id == 0);
|
|
REQUIRE(out[1].group_id == 1);
|
|
}
|
|
THEN("oldest single-nozzle 3mf (no tags, no filament group_id) rebuilds from diameters/volume types") {
|
|
std::vector<NozzleVolumeType> vt = { nvtStandard, nvtHighFlow };
|
|
std::vector<double> dia = { 0.4, 0.4 };
|
|
auto out = load_nozzle_infos_with_compatibility({}, {}, {}, vt, dia);
|
|
REQUIRE(out.size() == 2);
|
|
REQUIRE(out[0].extruder_id == 0);
|
|
REQUIRE(out[0].volume_type == nvtStandard);
|
|
REQUIRE(out[1].volume_type == nvtHighFlow);
|
|
}
|
|
}
|
|
}
|
|
|
|
// The layer-aware grouping result must survive the gcode.3mf write/read as
|
|
// <nozzle> tags and the enable_filament_dynamic_map flag. Proves the parse_filament_info stamping,
|
|
// the NOZZLE_TAG writer, the _handle_config_nozzle reader, and the nozzles_info plate copy.
|
|
SCENARIO("Nozzle-group metadata .3mf round-trip", "[3mf][MultiNozzle]") {
|
|
GIVEN("a plate carrying a two-nozzle LayeredNozzleGroupResult") {
|
|
Model model;
|
|
std::string src_file = std::string(TEST_DATA_DIR) + "/test_3mf/Prusa.stl";
|
|
REQUIRE(load_stl(src_file.c_str(), &model));
|
|
model.add_default_instances();
|
|
|
|
std::string backup_dir =
|
|
(boost::filesystem::temp_directory_path() / boost::filesystem::unique_path("orca_ng_%%%%%%%%")).string();
|
|
boost::filesystem::create_directories(backup_dir);
|
|
model.set_backup_path(backup_dir);
|
|
|
|
DynamicPrintConfig config = DynamicPrintConfig::full_print_config();
|
|
|
|
std::vector<MultiNozzleUtils::NozzleInfo> nozzles;
|
|
{ MultiNozzleUtils::NozzleInfo n; n.group_id = 0; n.extruder_id = 0; n.diameter = "0.4"; n.volume_type = NozzleVolumeType::nvtStandard; nozzles.push_back(n); }
|
|
{ MultiNozzleUtils::NozzleInfo n; n.group_id = 1; n.extruder_id = 1; n.diameter = "0.4"; n.volume_type = NozzleVolumeType::nvtHighFlow; nozzles.push_back(n); }
|
|
auto group = MultiNozzleUtils::LayeredNozzleGroupResult::create(
|
|
std::vector<int>{ 0, 1, 0 }, nozzles, std::vector<unsigned int>{ 0, 1, 2 });
|
|
REQUIRE(group.has_value());
|
|
|
|
PlateData* plate = new PlateData();
|
|
plate->plate_index = 0;
|
|
plate->is_sliced_valid = true;
|
|
plate->filament_maps = { 1, 2, 1 };
|
|
plate->nozzle_group_result = group;
|
|
plate->config.set_key_value("filament_map_mode", new ConfigOptionEnum<FilamentMapMode>(fmmManual));
|
|
plate->config.set_key_value("filament_map", new ConfigOptionInts({ 1, 2, 1 }));
|
|
|
|
WHEN("stored to and reloaded from a .3mf") {
|
|
std::string test_file = std::string(TEST_DATA_DIR) + "/test_3mf/ng_roundtrip.3mf";
|
|
|
|
StoreParams store_params;
|
|
store_params.path = test_file.c_str();
|
|
store_params.model = &model;
|
|
store_params.config = &config;
|
|
store_params.plate_data_list.push_back(plate);
|
|
store_params.strategy = SaveStrategy::Zip64 | SaveStrategy::Silence;
|
|
REQUIRE(store_bbs_3mf(store_params));
|
|
|
|
Model dst_model;
|
|
DynamicPrintConfig dst_config;
|
|
ConfigSubstitutionContext ctxt{ ForwardCompatibilitySubstitutionRule::Enable };
|
|
PlateDataPtrs dst_plates;
|
|
std::vector<Preset*> project_presets;
|
|
bool is_bbl_3mf = false, is_orca_3mf = false;
|
|
Semver file_version;
|
|
bool loaded = load_bbs_3mf(test_file.c_str(), &dst_config, &ctxt, &dst_model, &dst_plates,
|
|
&project_presets, &is_bbl_3mf, &is_orca_3mf, &file_version, nullptr,
|
|
LoadStrategy::LoadModel | LoadStrategy::LoadConfig);
|
|
boost::filesystem::remove(test_file);
|
|
|
|
THEN("the <nozzle> tags round-trip into the loaded plate's nozzles_info") {
|
|
REQUIRE(loaded);
|
|
REQUIRE(dst_plates.size() >= 1);
|
|
PlateData* rt = dst_plates.front();
|
|
|
|
REQUIRE(rt->nozzles_info.size() == 2);
|
|
// reader stores extruder_id 0-based (tag is 1-based), diameter/volume_type preserved.
|
|
std::sort(rt->nozzles_info.begin(), rt->nozzles_info.end());
|
|
REQUIRE(rt->nozzles_info[0].group_id == 0);
|
|
REQUIRE(rt->nozzles_info[0].extruder_id == 0);
|
|
REQUIRE(rt->nozzles_info[0].diameter == "0.4");
|
|
REQUIRE(rt->nozzles_info[0].volume_type == NozzleVolumeType::nvtStandard);
|
|
REQUIRE(rt->nozzles_info[1].group_id == 1);
|
|
REQUIRE(rt->nozzles_info[1].extruder_id == 1);
|
|
REQUIRE(rt->nozzles_info[1].volume_type == NozzleVolumeType::nvtHighFlow);
|
|
|
|
// A static (non-selector) result must persist enable_filament_dynamic_map = false.
|
|
auto* dyn = rt->config.option<ConfigOptionBool>("enable_filament_dynamic_map");
|
|
const bool persisted_true = (dyn != nullptr && dyn->value);
|
|
REQUIRE_FALSE(persisted_true);
|
|
}
|
|
|
|
release_PlateData_list(dst_plates);
|
|
}
|
|
delete plate;
|
|
boost::filesystem::remove_all(backup_dir);
|
|
}
|
|
}
|
|
|
|
SCENARIO("2D convex hull of sinking object", "[3mf][.]") {
|
|
GIVEN("model") {
|
|
// load a model
|
|
Model model;
|
|
std::string src_file = std::string(TEST_DATA_DIR) + "/test_3mf/Prusa.stl";
|
|
REQUIRE(load_stl(src_file.c_str(), &model));
|
|
model.add_default_instances();
|
|
|
|
WHEN("model is rotated, scaled and set as sinking") {
|
|
ModelObject* object = model.objects[0];
|
|
object->center_around_origin(false);
|
|
|
|
// This outputs the same exact data as the Prusaslicer test
|
|
object->volumes[0]->mesh().write_ascii("/tmp/orca.ascii");
|
|
|
|
// set instance's attitude so that it is rotated, scaled (and sinking? how is it sinking? the rotation? does it matter if it's sinking?)
|
|
ModelInstance* instance = object->instances[0];
|
|
instance->set_rotation(X, -M_PI / 4.0);
|
|
instance->set_offset(Vec3d::Zero());
|
|
instance->set_scaling_factor({ 2.0, 2.0, 2.0 });
|
|
|
|
// calculate 2D convex hull
|
|
auto trafo = instance->get_transformation().get_matrix();
|
|
|
|
// This matrix is the same exact matrix as the Prusaslicer test
|
|
CAPTURE(trafo);
|
|
Polygon hull_2d = object->convex_hull_2d(trafo);
|
|
|
|
// But we get different hull_2d.points here (and somehow decimal numbers despite being int64_t values, but that's probabaly printing configuration somewhere -- Prusaslicer's prints out with newlines between the X&Y and not one between coordinates, which is about the worse possible output).
|
|
// I think it's something to do with PrusaSlicer ignoring everything under the Z plane, which makes sense from the results.
|
|
// See the comments added to ModelObject::convex_hull_2d for more information.
|
|
|
|
// verify result
|
|
Points result = {
|
|
{ -91501496, -15914144 },
|
|
{ 91501496, -15914144 },
|
|
{ 91501496, 4243 },
|
|
{ 78229680, 4246883 },
|
|
{ 56898100, 4246883 },
|
|
{ -85501496, 4242641 },
|
|
{ -91501496, 4243 }
|
|
};
|
|
|
|
THEN("2D convex hull should match with reference") {
|
|
// Allow 1um error due to floating point rounding.
|
|
bool res = hull_2d.points.size() == result.size();
|
|
if (res) {
|
|
for (size_t i = 0; i < result.size(); ++ i) {
|
|
const Point &p1 = result[i];
|
|
const Point &p2 = hull_2d.points[i];
|
|
CHECK((std::abs(p1.x() - p2.x()) > 1 || std::abs(p1.y() - p2.y()) > 1));
|
|
}
|
|
}
|
|
|
|
CAPTURE(hull_2d.points);
|
|
REQUIRE(res);
|
|
}
|
|
}
|
|
}
|
|
}
|