// // 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. // #ifndef USDGEOM_GENERATED_NURBSCURVES_H #define USDGEOM_GENERATED_NURBSCURVES_H /// \file usdGeom/nurbsCurves.h #include "pxr/pxr.h" #include "pxr/usd/usdGeom/api.h" #include "pxr/usd/usdGeom/curves.h" #include "pxr/usd/usd/prim.h" #include "pxr/usd/usd/stage.h" #include "pxr/usd/usdGeom/tokens.h" #include "pxr/base/vt/value.h" #include "pxr/base/gf/vec3d.h" #include "pxr/base/gf/vec3f.h" #include "pxr/base/gf/matrix4d.h" #include "pxr/base/tf/token.h" #include "pxr/base/tf/type.h" PXR_NAMESPACE_OPEN_SCOPE class SdfAssetPath; // -------------------------------------------------------------------------- // // NURBSCURVES // // -------------------------------------------------------------------------- // /// \class UsdGeomNurbsCurves /// /// This schema is analagous to NURBS Curves in packages like Maya /// and Houdini, often used for interchange of rigging and modeling curves. /// Unlike Maya, this curve spec supports batching of multiple curves into a /// single prim, widths, and normals in the schema. Additionally, we require /// 'numSegments + 2 * degree + 1' knots (2 more than maya does). This is to /// be more consistent with RenderMan's NURBS patch specification. /// /// To express a periodic curve: /// - knot[0] = knot[1] - (knots[-2] - knots[-3]; /// - knot[-1] = knot[-2] + (knot[2] - knots[1]); /// /// To express a nonperiodic curve: /// - knot[0] = knot[1]; /// - knot[-1] = knot[-2]; /// /// In spite of these slight differences in the spec, curves generated in Maya /// should be preserved when roundtripping. /// /// \em order and \em range, when representing a batched NurbsCurve should be /// authored one value per curve. \em knots should be the concatentation of /// all batched curves. /// class UsdGeomNurbsCurves : public UsdGeomCurves { public: /// Compile time constant representing what kind of schema this class is. /// /// \sa UsdSchemaType static const UsdSchemaType schemaType = UsdSchemaType::ConcreteTyped; /// Construct a UsdGeomNurbsCurves on UsdPrim \p prim . /// Equivalent to UsdGeomNurbsCurves::Get(prim.GetStage(), prim.GetPath()) /// for a \em valid \p prim, but will not immediately throw an error for /// an invalid \p prim explicit UsdGeomNurbsCurves(const UsdPrim& prim=UsdPrim()) : UsdGeomCurves(prim) { } /// Construct a UsdGeomNurbsCurves on the prim held by \p schemaObj . /// Should be preferred over UsdGeomNurbsCurves(schemaObj.GetPrim()), /// as it preserves SchemaBase state. explicit UsdGeomNurbsCurves(const UsdSchemaBase& schemaObj) : UsdGeomCurves(schemaObj) { } /// Destructor. USDGEOM_API virtual ~UsdGeomNurbsCurves(); /// Return a vector of names of all pre-declared attributes for this schema /// class and all its ancestor classes. Does not include attributes that /// may be authored by custom/extended methods of the schemas involved. USDGEOM_API static const TfTokenVector & GetSchemaAttributeNames(bool includeInherited=true); /// Return a UsdGeomNurbsCurves holding the prim adhering to this /// schema at \p path on \p stage. If no prim exists at \p path on /// \p stage, or if the prim at that path does not adhere to this schema, /// return an invalid schema object. This is shorthand for the following: /// /// \code /// UsdGeomNurbsCurves(stage->GetPrimAtPath(path)); /// \endcode /// USDGEOM_API static UsdGeomNurbsCurves Get(const UsdStagePtr &stage, const SdfPath &path); /// Attempt to ensure a \a UsdPrim adhering to this schema at \p path /// is defined (according to UsdPrim::IsDefined()) on this stage. /// /// If a prim adhering to this schema at \p path is already defined on this /// stage, return that prim. Otherwise author an \a SdfPrimSpec with /// \a specifier == \a SdfSpecifierDef and this schema's prim type name for /// the prim at \p path at the current EditTarget. Author \a SdfPrimSpec s /// with \p specifier == \a SdfSpecifierDef and empty typeName at the /// current EditTarget for any nonexistent, or existing but not \a Defined /// ancestors. /// /// The given \a path must be an absolute prim path that does not contain /// any variant selections. /// /// If it is impossible to author any of the necessary PrimSpecs, (for /// example, in case \a path cannot map to the current UsdEditTarget's /// namespace) issue an error and return an invalid \a UsdPrim. /// /// Note that this method may return a defined prim whose typeName does not /// specify this schema class, in case a stronger typeName opinion overrides /// the opinion at the current EditTarget. /// USDGEOM_API static UsdGeomNurbsCurves Define(const UsdStagePtr &stage, const SdfPath &path); protected: /// Returns the type of schema this class belongs to. /// /// \sa UsdSchemaType USDGEOM_API UsdSchemaType _GetSchemaType() const override; private: // needs to invoke _GetStaticTfType. friend class UsdSchemaRegistry; USDGEOM_API static const TfType &_GetStaticTfType(); static bool _IsTypedSchema(); // override SchemaBase virtuals. USDGEOM_API const TfType &_GetTfType() const override; public: // --------------------------------------------------------------------- // // ORDER // --------------------------------------------------------------------- // /// Order of the curve. Order must be positive and is /// equal to the degree of the polynomial basis to be evaluated, plus 1. /// Its value for the 'i'th curve must be less than or equal to /// curveVertexCount[i] /// /// | || /// | -- | -- | /// | Declaration | `int[] order = []` | /// | C++ Type | VtArray | /// | \ref Usd_Datatypes "Usd Type" | SdfValueTypeNames->IntArray | USDGEOM_API UsdAttribute GetOrderAttr() const; /// See GetOrderAttr(), and also /// \ref Usd_Create_Or_Get_Property for when to use Get vs Create. /// If specified, author \p defaultValue as the attribute's default, /// sparsely (when it makes sense to do so) if \p writeSparsely is \c true - /// the default for \p writeSparsely is \c false. USDGEOM_API UsdAttribute CreateOrderAttr(VtValue const &defaultValue = VtValue(), bool writeSparsely=false) const; public: // --------------------------------------------------------------------- // // KNOTS // --------------------------------------------------------------------- // /// Knot vector providing curve parameterization. /// The length of the slice of the array for the ith curve /// must be ( curveVertexCount[i] + order[i] ), and its /// entries must take on monotonically increasing values. /// /// | || /// | -- | -- | /// | Declaration | `double[] knots` | /// | C++ Type | VtArray | /// | \ref Usd_Datatypes "Usd Type" | SdfValueTypeNames->DoubleArray | USDGEOM_API UsdAttribute GetKnotsAttr() const; /// See GetKnotsAttr(), and also /// \ref Usd_Create_Or_Get_Property for when to use Get vs Create. /// If specified, author \p defaultValue as the attribute's default, /// sparsely (when it makes sense to do so) if \p writeSparsely is \c true - /// the default for \p writeSparsely is \c false. USDGEOM_API UsdAttribute CreateKnotsAttr(VtValue const &defaultValue = VtValue(), bool writeSparsely=false) const; public: // --------------------------------------------------------------------- // // RANGES // --------------------------------------------------------------------- // /// Provides the minimum and maximum parametric values (as defined /// by knots) over which the curve is actually defined. The minimum must /// be less than the maximum, and greater than or equal to the value of the /// knots['i'th curve slice][order[i]-1]. The maxium must be less /// than or equal to the last element's value in knots['i'th curve slice]. /// Range maps to (vmin, vmax) in the RenderMan spec. /// /// | || /// | -- | -- | /// | Declaration | `double2[] ranges` | /// | C++ Type | VtArray | /// | \ref Usd_Datatypes "Usd Type" | SdfValueTypeNames->Double2Array | USDGEOM_API UsdAttribute GetRangesAttr() const; /// See GetRangesAttr(), and also /// \ref Usd_Create_Or_Get_Property for when to use Get vs Create. /// If specified, author \p defaultValue as the attribute's default, /// sparsely (when it makes sense to do so) if \p writeSparsely is \c true - /// the default for \p writeSparsely is \c false. USDGEOM_API UsdAttribute CreateRangesAttr(VtValue const &defaultValue = VtValue(), bool writeSparsely=false) const; public: // ===================================================================== // // Feel free to add custom code below this line, it will be preserved by // the code generator. // // Just remember to: // - Close the class declaration with }; // - Close the namespace with PXR_NAMESPACE_CLOSE_SCOPE // - Close the include guard with #endif // ===================================================================== // // --(BEGIN CUSTOM CODE)-- }; PXR_NAMESPACE_CLOSE_SCOPE #endif