// // Copyright 2016 Pixar // // Licensed under the Apache License, Version 2.0 (the "Apache License") // with the following modification; you may not use this file except in // compliance with the Apache License and the following modification to it: // Section 6. Trademarks. is deleted and replaced with: // // 6. Trademarks. This License does not grant permission to use the trade // names, trademarks, service marks, or product names of the Licensor // and its affiliates, except as required to comply with Section 4(c) of // the License and to reproduce the content of the NOTICE file. // // You may obtain a copy of the Apache License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the Apache License with the above modification is // distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the Apache License for the specific // language governing permissions and limitations under the Apache License. // #include "pxr/usd/usdGeom/hermiteCurves.h" #include "pxr/usd/usd/schemaRegistry.h" #include "pxr/usd/usd/typed.h" #include "pxr/usd/sdf/types.h" #include "pxr/usd/sdf/assetPath.h" PXR_NAMESPACE_OPEN_SCOPE // Register the schema with the TfType system. TF_REGISTRY_FUNCTION(TfType) { TfType::Define >(); // Register the usd prim typename as an alias under UsdSchemaBase. This // enables one to call // TfType::Find().FindDerivedByName("HermiteCurves") // to find TfType, which is how IsA queries are // answered. TfType::AddAlias("HermiteCurves"); } /* virtual */ UsdGeomHermiteCurves::~UsdGeomHermiteCurves() { } /* static */ UsdGeomHermiteCurves UsdGeomHermiteCurves::Get(const UsdStagePtr &stage, const SdfPath &path) { if (!stage) { TF_CODING_ERROR("Invalid stage"); return UsdGeomHermiteCurves(); } return UsdGeomHermiteCurves(stage->GetPrimAtPath(path)); } /* static */ UsdGeomHermiteCurves UsdGeomHermiteCurves::Define( const UsdStagePtr &stage, const SdfPath &path) { static TfToken usdPrimTypeName("HermiteCurves"); if (!stage) { TF_CODING_ERROR("Invalid stage"); return UsdGeomHermiteCurves(); } return UsdGeomHermiteCurves( stage->DefinePrim(path, usdPrimTypeName)); } /* virtual */ UsdSchemaKind UsdGeomHermiteCurves::_GetSchemaKind() const { return UsdGeomHermiteCurves::schemaKind; } /* static */ const TfType & UsdGeomHermiteCurves::_GetStaticTfType() { static TfType tfType = TfType::Find(); return tfType; } /* static */ bool UsdGeomHermiteCurves::_IsTypedSchema() { static bool isTyped = _GetStaticTfType().IsA(); return isTyped; } /* virtual */ const TfType & UsdGeomHermiteCurves::_GetTfType() const { return _GetStaticTfType(); } UsdAttribute UsdGeomHermiteCurves::GetTangentsAttr() const { return GetPrim().GetAttribute(UsdGeomTokens->tangents); } UsdAttribute UsdGeomHermiteCurves::CreateTangentsAttr(VtValue const &defaultValue, bool writeSparsely) const { return UsdSchemaBase::_CreateAttr(UsdGeomTokens->tangents, SdfValueTypeNames->Vector3fArray, /* custom = */ false, SdfVariabilityVarying, 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; } } /*static*/ const TfTokenVector& UsdGeomHermiteCurves::GetSchemaAttributeNames(bool includeInherited) { static TfTokenVector localNames = { UsdGeomTokens->tangents, }; static TfTokenVector allNames = _ConcatenateAttributeNames( UsdGeomCurves::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)-- PXR_NAMESPACE_OPEN_SCOPE UsdGeomHermiteCurves::PointAndTangentArrays::PointAndTangentArrays( const VtArray& interleaved) { if (interleaved.empty()){ return; } if (interleaved.size() % 2 != 0) { TF_CODING_ERROR( "Cannot separate odd-shaped interleaved points and tangents " "data."); return; } _points.resize(interleaved.size() / 2); _tangents.resize(interleaved.size() / 2); auto interleavedIt = interleaved.cbegin(); auto pointsIt = _points.begin(); auto tangentsIt = _tangents.begin(); while (interleavedIt != interleaved.end()) { *pointsIt = *interleavedIt; std::advance(pointsIt, 1); std::advance(interleavedIt, 1); *tangentsIt = *interleavedIt; std::advance(tangentsIt, 1); std::advance(interleavedIt, 1); } TF_VERIFY(pointsIt == _points.end()); TF_VERIFY(tangentsIt == _tangents.end()); } VtVec3fArray UsdGeomHermiteCurves::PointAndTangentArrays::Interleave() const { if (IsEmpty()) { return VtVec3fArray(); } VtVec3fArray interleaved(GetPoints().size() * 2); auto interleavedIt = interleaved.begin(); auto pointsIt = GetPoints().cbegin(); auto tangentsIt = GetTangents().cbegin(); while (interleavedIt != interleaved.end()) { *interleavedIt = *pointsIt; std::advance(pointsIt, 1); std::advance(interleavedIt, 1); *interleavedIt = *tangentsIt; std::advance(tangentsIt, 1); std::advance(interleavedIt, 1); } TF_VERIFY(pointsIt == GetPoints().cend()); TF_VERIFY(tangentsIt == GetTangents().cend()); return interleaved; } PXR_NAMESPACE_CLOSE_SCOPE