// // 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/pointBased.h" #include "pxr/usd/usd/schemaBase.h" #include "pxr/usd/sdf/primSpec.h" #include "pxr/usd/usd/pyConversions.h" #include "pxr/base/tf/pyContainerConversions.h" #include "pxr/base/tf/pyResultConversions.h" #include "pxr/base/tf/pyUtils.h" #include "pxr/base/tf/wrapTypeHelpers.h" #include #include using namespace boost::python; PXR_NAMESPACE_USING_DIRECTIVE namespace { #define WRAP_CUSTOM \ template static void _CustomWrapCode(Cls &_class) // fwd decl. WRAP_CUSTOM; static UsdAttribute _CreatePointsAttr(UsdGeomPointBased &self, object defaultVal, bool writeSparsely) { return self.CreatePointsAttr( UsdPythonToSdfType(defaultVal, SdfValueTypeNames->Point3fArray), writeSparsely); } static UsdAttribute _CreateVelocitiesAttr(UsdGeomPointBased &self, object defaultVal, bool writeSparsely) { return self.CreateVelocitiesAttr( UsdPythonToSdfType(defaultVal, SdfValueTypeNames->Vector3fArray), writeSparsely); } static UsdAttribute _CreateAccelerationsAttr(UsdGeomPointBased &self, object defaultVal, bool writeSparsely) { return self.CreateAccelerationsAttr( UsdPythonToSdfType(defaultVal, SdfValueTypeNames->Vector3fArray), writeSparsely); } static UsdAttribute _CreateNormalsAttr(UsdGeomPointBased &self, object defaultVal, bool writeSparsely) { return self.CreateNormalsAttr( UsdPythonToSdfType(defaultVal, SdfValueTypeNames->Normal3fArray), writeSparsely); } static std::string _Repr(const UsdGeomPointBased &self) { std::string primRepr = TfPyRepr(self.GetPrim()); return TfStringPrintf( "UsdGeom.PointBased(%s)", primRepr.c_str()); } } // anonymous namespace void wrapUsdGeomPointBased() { typedef UsdGeomPointBased This; class_ > cls("PointBased"); cls .def(init(arg("prim"))) .def(init(arg("schemaObj"))) .def(TfTypePythonClass()) .def("Get", &This::Get, (arg("stage"), arg("path"))) .staticmethod("Get") .def("GetSchemaAttributeNames", &This::GetSchemaAttributeNames, arg("includeInherited")=true, return_value_policy()) .staticmethod("GetSchemaAttributeNames") .def("_GetStaticTfType", (TfType const &(*)()) TfType::Find, return_value_policy()) .staticmethod("_GetStaticTfType") .def(!self) .def("GetPointsAttr", &This::GetPointsAttr) .def("CreatePointsAttr", &_CreatePointsAttr, (arg("defaultValue")=object(), arg("writeSparsely")=false)) .def("GetVelocitiesAttr", &This::GetVelocitiesAttr) .def("CreateVelocitiesAttr", &_CreateVelocitiesAttr, (arg("defaultValue")=object(), arg("writeSparsely")=false)) .def("GetAccelerationsAttr", &This::GetAccelerationsAttr) .def("CreateAccelerationsAttr", &_CreateAccelerationsAttr, (arg("defaultValue")=object(), arg("writeSparsely")=false)) .def("GetNormalsAttr", &This::GetNormalsAttr) .def("CreateNormalsAttr", &_CreateNormalsAttr, (arg("defaultValue")=object(), arg("writeSparsely")=false)) .def("__repr__", ::_Repr) ; _CustomWrapCode(cls); } // ===================================================================== // // Feel free to add custom code below this line, it will be preserved by // the code generator. The entry point for your custom code should look // minimally like the following: // // WRAP_CUSTOM { // _class // .def("MyCustomMethod", ...) // ; // } // // Of course any other ancillary or support code may be provided. // // Just remember to wrap code in the appropriate delimiters: // 'namespace {', '}'. // // ===================================================================== // // --(BEGIN CUSTOM CODE)-- namespace { static TfPyObjWrapper _ComputeExtent(object points) { // Convert from python objects to VtValue VtVec3fArray extent; VtValue pointsAsVtValue = UsdPythonToSdfType(points, SdfValueTypeNames->Float3Array); // Check for proper conversion to VtVec3fArray if (!pointsAsVtValue.IsHolding()) { TF_CODING_ERROR("Improper value for 'points'"); return object(); } // Convert from VtValue to VtVec3fArray VtVec3fArray pointsArray = pointsAsVtValue.UncheckedGet(); if (UsdGeomPointBased::ComputeExtent(pointsArray, &extent)) { return UsdVtValueToPython(VtValue(extent)); } else { return object(); } } static VtVec3fArray _ComputePointsAtTime( const UsdGeomPointBased& self, const UsdTimeCode time, const UsdTimeCode baseTime) { VtVec3fArray points; // On error we'll be returning an empty array. self.ComputePointsAtTime(&points, time, baseTime); return points; } static std::vector _ComputePointsAtTimes( const UsdGeomPointBased& self, const std::vector& times, const UsdTimeCode baseTime) { std::vector points; // On error we'll be returning an empty array. self.ComputePointsAtTimes(&points, times, baseTime); return points; } WRAP_CUSTOM { _class .def("GetNormalsInterpolation", &UsdGeomPointBased::GetNormalsInterpolation) .def("SetNormalsInterpolation", &UsdGeomPointBased::SetNormalsInterpolation, arg("interpolation")) .def("ComputeExtent", &_ComputeExtent, (arg("points"))) .staticmethod("ComputeExtent") .def("ComputePointsAtTime", &_ComputePointsAtTime, (arg("time"), arg("baseTime"))) .def("ComputePointsAtTimes", &_ComputePointsAtTimes, (arg("times"), arg("baseTime"))) ; } } // anonymous namespace