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| Current File : //usr/include/Imath/PyImathQuat.h |
//
// SPDX-License-Identifier: BSD-3-Clause
// Copyright Contributors to the OpenEXR Project.
//
// clang-format off
#ifndef _PyImathQuat_h_
#define _PyImathQuat_h_
#include <Python.h>
#include <boost/python.hpp>
#include <ImathQuat.h>
#include <ImathVec.h>
#include "PyImath.h"
namespace PyImath {
template <class T> boost::python::class_<IMATH_NAMESPACE::Quat<T> > register_Quat();
template <class T> boost::python::class_<PyImath::FixedArray<IMATH_NAMESPACE::Quat<T> > > register_QuatArray();
typedef FixedArray<IMATH_NAMESPACE::Quatf> QuatfArray;
typedef FixedArray<IMATH_NAMESPACE::Quatd> QuatdArray;
}
template <class T> inline IMATH_NAMESPACE::Vec3<T> operator * (const IMATH_NAMESPACE::Vec3<T> &v, const IMATH_NAMESPACE::Quat<T> &q) { return v * q.toMatrix33(); }
template <class T> static PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> >
operator *(const IMATH_NAMESPACE::Vec3<T> &va, const PyImath::FixedArray<IMATH_NAMESPACE::Quat<T> > &vb)
{ size_t len = vb.len(); PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> > f(len); for (size_t i = 0; i < len; ++i) f[i] = va * vb[i]; return f; }
template <class T> static PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> >
operator *(const PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> > &va, const IMATH_NAMESPACE::Quat<T> &vb)
{ size_t len = va.len(); PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> > f(len); for (size_t i = 0; i < len; ++i) f[i] = va[i] * vb; return f; }
template <class T>
static PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> >
operator * (const PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> > &va, const PyImath::FixedArray<IMATH_NAMESPACE::Quat<T> > &vb)
{ size_t len = va.match_dimension(vb); PyImath::FixedArray<IMATH_NAMESPACE::Vec3<T> > f(len); for (size_t i = 0; i < len; ++i) f[i] = va[i] * vb[i]; return f; }
//
namespace PyImath {
// 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 (e.g.,float, double).
template <class T>
class Q {
public:
static PyObject * wrap (const IMATH_NAMESPACE::Quat<T> &q);
static int convert (PyObject *p, IMATH_NAMESPACE::Quat<T> *q);
};
template <class T>
PyObject *
Q<T>::wrap (const IMATH_NAMESPACE::Quat<T> &q)
{
typename boost::python::return_by_value::apply < IMATH_NAMESPACE::Quat<T> >::type converter;
PyObject *p = converter (q);
return p;
}
template <class T>
int
Q<T>::convert (PyObject *p, IMATH_NAMESPACE::Quat<T> *q)
{
boost::python::extract <IMATH_NAMESPACE::Quatf> extractorQf (p);
if (extractorQf.check())
{
IMATH_NAMESPACE::Quatf qf = extractorQf();
q->r = T(qf.r);
q->v.setValue (qf.v);
return 1;
}
boost::python::extract <IMATH_NAMESPACE::Quatd> extractorQd (p);
if (extractorQd.check())
{
IMATH_NAMESPACE::Quatd qd = extractorQd();
q->r = T(qd.r);
q->v.setValue (qd.v);
return 1;
}
boost::python::extract <boost::python::tuple> extractorTuple (p);
if (extractorTuple.check())
{
boost::python::tuple t = extractorTuple();
if (t.attr ("__len__") () == 4)
{
// Extracting the tuple elements as doubles and casting them to
// Ts in setValue() works better than extracting them as Ts from
// the start.
double r = boost::python::extract <double> (t[0]);
double x = boost::python::extract <double> (t[1]);
double y = boost::python::extract <double> (t[2]);
double z = boost::python::extract <double> (t[3]);
q->r = T(r);
q->v.setValue (T(x), T(y), T(z));
return 1;
}
}
return 0;
}
typedef Q<float> Quatf;
typedef Q<double> Quatd;
}
#endif
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