////////////////////////////////////////////////////////////////////////////// // // Copyright 2026 Autodesk, Inc. All rights reserved. // // Use of this software is subject to the terms of the Autodesk license // agreement provided at the time of installation or download, or which // otherwise accompanies this software. // ////////////////////////////////////////////////////////////////////////////// #pragma once #include #include "../FusionTypeDefs.h" #include // THIS CLASS WILL BE VISIBLE TO AN API CLIENT. // THIS HEADER FILE WILL BE GENERATED FROM NIDL. #include #ifdef FUSIONXINTERFACE_EXPORTS # ifdef __COMPILING_ADSK_FUSION_MESHCOMBINEFEATUREINPUT_CPP__ # define ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API XI_EXPORT # else # define ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API # endif #else # define ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API XI_IMPORT #endif namespace adsk { namespace fusion { class BaseFeature; class MeshBody; }} namespace adsk { namespace fusion { /// !!!!! Warning !!!!! /// ! This is in preview state; please see the help for more info /// !!!!! Warning !!!!! /// /// This class defines the methods and properties that pertain to the definition of a mesh combine /// feature. class MeshCombineFeatureInput : public core::Base { public: /// Gets and sets the input targetBody. core::Ptr targetBody() const; bool targetBody(const core::Ptr& value); /// Gets and sets the MeshBody objects that represent the tool bodies. std::vector> toolBodies() const; bool toolBodies(const std::vector>& value); /// Gets and sets the operation type of mesh combine, default value is JoinMeshCombineType. MeshCombineOperationTypes meshCombineOperationType() const; bool meshCombineOperationType(MeshCombineOperationTypes value); /// Creates a new component to contain combined mesh bodies. /// Default value is false. bool isNewComponent() const; bool isNewComponent(bool value); /// Preserves a copy of each tool body. /// Default value is false. bool isKeepToolBodies() const; bool isKeepToolBodies(bool value); /// When creating a feature that is owned by a base feature, set this property to the /// base feature you want to associate the new feature with. By default, this is null, /// meaning it will not be associated with a base feature. /// /// Because of a current limitation, if you want to create a feature associated with a base /// feature, you must set this property AND call the startEdit method of the base feature, /// create the feature, and then call the finishEdit method of the base feature. The base /// feature must be in an "edit" state to be able to add any additional items to it. core::Ptr targetBaseFeature() const; bool targetBaseFeature(const core::Ptr& value); /// Gets and sets the used algorithm for the join, cut and intersect operation types. Default value is /// LegacyMeshCombineAlgorithmType. This setting is only effective in non-parametric mode. /// In parametric mode the algorithm type is always LegacyMeshCombineAlgorithmType. MeshCombineAlgorithmTypes algorithmType() const; bool algorithmType(MeshCombineAlgorithmTypes value); ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API static const char* classType(); ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API const char* objectType() const override; ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API void* queryInterface(const char* id) const override; ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API static const char* interfaceId() { return classType(); } private: // Raw interface virtual MeshBody* targetBody_raw() const = 0; virtual bool targetBody_raw(MeshBody* value) = 0; virtual MeshBody** toolBodies_raw(size_t& return_size) const = 0; virtual bool toolBodies_raw(MeshBody** value, size_t value_size) = 0; virtual MeshCombineOperationTypes meshCombineOperationType_raw() const = 0; virtual bool meshCombineOperationType_raw(MeshCombineOperationTypes value) = 0; virtual bool isNewComponent_raw() const = 0; virtual bool isNewComponent_raw(bool value) = 0; virtual bool isKeepToolBodies_raw() const = 0; virtual bool isKeepToolBodies_raw(bool value) = 0; virtual BaseFeature* targetBaseFeature_raw() const = 0; virtual bool targetBaseFeature_raw(BaseFeature* value) = 0; virtual MeshCombineAlgorithmTypes algorithmType_raw() const = 0; virtual bool algorithmType_raw(MeshCombineAlgorithmTypes value) = 0; }; // Inline wrappers inline core::Ptr MeshCombineFeatureInput::targetBody() const { core::Ptr res = targetBody_raw(); return res; } inline bool MeshCombineFeatureInput::targetBody(const core::Ptr& value) { return targetBody_raw(value.get()); } inline std::vector> MeshCombineFeatureInput::toolBodies() const { std::vector> res; size_t s; MeshBody** p= toolBodies_raw(s); if(p) { res.assign(p, p+s); core::DeallocateArray(p); } return res; } inline bool MeshCombineFeatureInput::toolBodies(const std::vector>& value) { MeshBody** value_ = new MeshBody*[value.size()]; for(size_t i=0; i MeshCombineFeatureInput::targetBaseFeature() const { core::Ptr res = targetBaseFeature_raw(); return res; } inline bool MeshCombineFeatureInput::targetBaseFeature(const core::Ptr& value) { return targetBaseFeature_raw(value.get()); } inline MeshCombineAlgorithmTypes MeshCombineFeatureInput::algorithmType() const { MeshCombineAlgorithmTypes res = algorithmType_raw(); return res; } inline bool MeshCombineFeatureInput::algorithmType(MeshCombineAlgorithmTypes value) { return algorithmType_raw(value); } }// namespace fusion }// namespace adsk #undef ADSK_FUSION_MESHCOMBINEFEATUREINPUT_API