SC::Store::AssemblyTree::BuildMasterAssemblyModel
will gather part modes and create the master assembly model.
\uD83D\uDCD8 Instructions
Sample Code
There are two models, microengine1.scz and microengine2.scz, in C:\HOOPS_Communicator\quick_start\converted_models\authoring_samples_data
Combine two models and create a assembly model "combine_microengine_sample".
int CombineSample(const std::string& model_path) { std::string cache_path = "C:\\HOOPS_Communicator_2021\\quick_start\\converted_models\\authoring_samples_data"; std::string model_name = "combine_microengine_sample"; ApplicationLogger logger; try { // Open the cache SC::Store::Database::SetLicense(HOOPS_LICENSE); SC::Store::Cache cache = SC::Store::Database::Open(logger); SC::Store::AssemblyTree assembly_tree(logger); uint32_t root_id = 0; assembly_tree.CreateAssemblyTreeRoot(root_id); assembly_tree.SetNodeName(root_id, "assemblytree_sample"); uint32_t child_node = 0; assembly_tree.CreateChild(root_id, child_node); assembly_tree.SetNodeName(child_node, "first"); bool res = assembly_tree.SetExternalModel(child_node, "microengine1"); float matrix_data[] = { 1.0f, 0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 100.0f, 0.0f, }; SC::Store::Matrix3d * matrix = (SC::Store::Matrix3d *)matrix_data; assembly_tree.CreateChild(root_id, child_node); assembly_tree.SetNodeName(child_node, "second"); res = assembly_tree.SetExternalModel(child_node, "microengine2"); assembly_tree.SetNodeLocalTransform(child_node, *matrix); std::string modelPath = cache_path + "\\" + model_name; if (cache.Exists((cache_path + "\\" + model_name).c_str())) { printf("Model already exists.\n"); return 1; } res = assembly_tree.BuildMasterAssemblyModel(cache_path.c_str(), modelPath.c_str(), cache_path.c_str(), false); } catch (std::exception const & e) { std::string message("Exception: "); message.append(e.what()); message.append("\n"); logger.Message(message.c_str()); return 1; } return 0; }