// Copyright 2025 DeepMind Technologies Limited // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include #include #include #include #include PXR_NAMESPACE_OPEN_SCOPE // Register the schema with the TfType system. TF_REGISTRY_FUNCTION(TfType) { TfType::Define >(); } /* virtual */ MjcPhysicsMeshCollisionAPI::~MjcPhysicsMeshCollisionAPI() {} /* static */ MjcPhysicsMeshCollisionAPI MjcPhysicsMeshCollisionAPI::Get( const UsdStagePtr &stage, const SdfPath &path) { if (!stage) { TF_CODING_ERROR("Invalid stage"); return MjcPhysicsMeshCollisionAPI(); } return MjcPhysicsMeshCollisionAPI(stage->GetPrimAtPath(path)); } /* virtual */ UsdSchemaKind MjcPhysicsMeshCollisionAPI::_GetSchemaKind() const { return MjcPhysicsMeshCollisionAPI::schemaKind; } /* static */ bool MjcPhysicsMeshCollisionAPI::CanApply(const UsdPrim &prim, std::string *whyNot) { return prim.CanApplyAPI(whyNot); } /* static */ MjcPhysicsMeshCollisionAPI MjcPhysicsMeshCollisionAPI::Apply( const UsdPrim &prim) { if (prim.ApplyAPI()) { return MjcPhysicsMeshCollisionAPI(prim); } return MjcPhysicsMeshCollisionAPI(); } /* static */ const TfType &MjcPhysicsMeshCollisionAPI::_GetStaticTfType() { static TfType tfType = TfType::Find(); return tfType; } /* static */ bool MjcPhysicsMeshCollisionAPI::_IsTypedSchema() { static bool isTyped = _GetStaticTfType().IsA(); return isTyped; } /* virtual */ const TfType &MjcPhysicsMeshCollisionAPI::_GetTfType() const { return _GetStaticTfType(); } UsdAttribute MjcPhysicsMeshCollisionAPI::GetInertiaAttr() const { return GetPrim().GetAttribute(MjcPhysicsTokens->mjcInertia); } UsdAttribute MjcPhysicsMeshCollisionAPI::CreateInertiaAttr( VtValue const &defaultValue, bool writeSparsely) const { return UsdSchemaBase::_CreateAttr( MjcPhysicsTokens->mjcInertia, SdfValueTypeNames->Token, /* custom = */ false, SdfVariabilityUniform, defaultValue, writeSparsely); } UsdAttribute MjcPhysicsMeshCollisionAPI::GetMaxHullVertAttr() const { return GetPrim().GetAttribute(MjcPhysicsTokens->mjcMaxhullvert); } UsdAttribute MjcPhysicsMeshCollisionAPI::CreateMaxHullVertAttr( VtValue const &defaultValue, bool writeSparsely) const { return UsdSchemaBase::_CreateAttr( MjcPhysicsTokens->mjcMaxhullvert, SdfValueTypeNames->Int, /* custom = */ false, SdfVariabilityUniform, defaultValue, writeSparsely); } namespace { static inline TfTokenVector _ConcatenateAttributeNames( const TfTokenVector &left, const TfTokenVector &right) { TfTokenVector result; result.reserve(left.size() + right.size()); result.insert(result.end(), left.begin(), left.end()); result.insert(result.end(), right.begin(), right.end()); return result; } } // namespace /*static*/ const TfTokenVector &MjcPhysicsMeshCollisionAPI::GetSchemaAttributeNames( bool includeInherited) { static TfTokenVector localNames = { MjcPhysicsTokens->mjcInertia, MjcPhysicsTokens->mjcMaxhullvert, }; static TfTokenVector allNames = _ConcatenateAttributeNames( UsdAPISchemaBase::GetSchemaAttributeNames(true), localNames); if (includeInherited) return allNames; else return localNames; } PXR_NAMESPACE_CLOSE_SCOPE // ===================================================================== // // Feel free to add custom code below this line. It will be preserved by // the code generator. // // Just remember to wrap code in the appropriate delimiters: // 'PXR_NAMESPACE_OPEN_SCOPE', 'PXR_NAMESPACE_CLOSE_SCOPE'. // ===================================================================== // // --(BEGIN CUSTOM CODE)--