// // SPDX-License-Identifier: BSD-3-Clause // Copyright Contributors to the OpenEXR Project. // // clang-format off #ifndef _PyImathEuler_h_ #define _PyImathEuler_h_ #include #include #include #include #include "PyImath.h" namespace PyImath { template boost::python::class_,boost::python::bases > > register_Euler(); template boost::python::class_ > > register_EulerArray(); typedef FixedArray EulerfArray; typedef FixedArray EulerdArray; // // Other code in the Zeno code base assumes the existance of a class with the // same name as the Imath class, and with static functions wrap() and // convert() to produce a PyImath object from an Imath object and vice-versa, // respectively. The class Boost generates from the Imath class does not // have these properties, so we define a companion class here. // The template argument, T, is the element type for the axis vector // (e.g.,float, double). template class E { public: static PyObject * wrap (const IMATH_NAMESPACE::Euler &e); static int convert (PyObject *p, IMATH_NAMESPACE::Euler *v); }; template PyObject * E::wrap (const IMATH_NAMESPACE::Euler &e) { typename boost::python::return_by_value::apply < IMATH_NAMESPACE::Euler >::type converter; PyObject *p = converter (e); return p; } template int E::convert (PyObject *p, IMATH_NAMESPACE::Euler *v) { boost::python::extract extractorEf (p); if (extractorEf.check()) { IMATH_NAMESPACE::Eulerf e = extractorEf(); v->x = T(e.x); v->y = T(e.y); v->z = T(e.z); v->setOrder (typename IMATH_NAMESPACE::Euler::Order (e.order())); return 1; } boost::python::extract extractorEd (p); if (extractorEd.check()) { IMATH_NAMESPACE::Eulerd e = extractorEd(); v->x = T(e.x); v->y = T(e.y); v->z = T(e.z); v->setOrder (typename IMATH_NAMESPACE::Euler::Order (e.order())); return 1; } return 0; } typedef E Eulerf; typedef E Eulerd; } #endif