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/* */
/* Copyright 2004-2010 by Hans Meine und Ullrich Koethe */
/* */
/* This file is part of the VIGRA computer vision library. */
/* The VIGRA Website is */
/* http://hci.iwr.uni-heidelberg.de/vigra/ */
/* Please direct questions, bug reports, and contributions to */
/* ullrich.koethe@iwr.uni-heidelberg.de or */
/* vigra@informatik.uni-hamburg.de */
/* */
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/* obtaining a copy of this software and associated documentation */
/* files (the "Software"), to deal in the Software without */
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/* copy, modify, merge, publish, distribute, sublicense, and/or */
/* sell copies of the Software, and to permit persons to whom the */
/* Software is furnished to do so, subject to the following */
/* conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the */
/* Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES */
/* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND */
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/* */
/************************************************************************/
#ifndef VIGRA_QUATERNION_HXX
#define VIGRA_QUATERNION_HXX
#include "config.hxx"
#include "numerictraits.hxx"
#include "tinyvector.hxx"
#include "matrix.hxx"
#include "mathutil.hxx"
#include <iosfwd> // ostream
namespace vigra {
/** Quaternion class.
Quaternions are mainly used as a compact representation for 3D rotations because
they are much less prone to round-off errors than rotation matrices, especially
when many rotations are concatenated. In addition, the angle/axis interpretation
of normalized quaternions is very intuitive. Read the
<a href="http://en.wikipedia.org/wiki/Quaternion">Wikipedia entry on quaternions</a>
for more information on the mathematics.
See also: \ref QuaternionOperations
*/
template<class ValueType>
class Quaternion {
public:
typedef TinyVector<ValueType, 3> Vector;
/** the quaternion's valuetype
*/
typedef ValueType value_type;
/** reference (return of operator[]).
*/
typedef ValueType & reference;
/** const reference (return of operator[] const).
*/
typedef ValueType const & const_reference;
/** the quaternion's squared norm type
*/
typedef typename NormTraits<ValueType>::SquaredNormType SquaredNormType;
/** the quaternion's norm type
*/
typedef typename NormTraits<ValueType>::NormType NormType;
/** Construct a quaternion with explicit values for the real and imaginary parts.
*/
Quaternion(ValueType w = 0, ValueType x = 0, ValueType y = 0, ValueType z = 0)
: w_(w), v_(x, y, z)
{}
/** Construct a quaternion with real value and imaginary vector.
Equivalent to <tt>Quaternion(w, v[0], v[1], v[2])</tt>.
*/
Quaternion(ValueType w, const Vector &v)
: w_(w), v_(v)
{}
/** Copy constructor.
*/
Quaternion(const Quaternion &q)
: w_(q.w_), v_(q.v_)
{}
/** Copy assignment.
*/
Quaternion & operator=(Quaternion const & other)
{
w_ = other.w_;
v_ = other.v_;
return *this;
}
/** Assign \a w to the real part and set the imaginary part to zero.
*/
Quaternion & operator=(ValueType w)
{
w_ = w;
v_.init(0);
return *this;
}
/**
* Creates a Quaternion which represents the operation of
* rotating around the given axis by the given angle.
*
* The angle should be in the range -pi..3*pi for sensible
* results.
*/
static Quaternion
createRotation(double angle, const Vector &rotationAxis)
{
// the natural range would be -pi..pi, but the reflective
// behavior around pi is too unexpected:
if(angle > M_PI)
angle -= 2.0*M_PI;
double t = VIGRA_CSTD::sin(angle/2.0);
double norm = rotationAxis.magnitude();
return Quaternion(VIGRA_CSTD::sqrt(1.0-t*t), t*rotationAxis/norm);
}
/** Read real part.
*/
ValueType w() const { return w_; }
/** Access real part.
*/
ValueType &w() { return w_; }
/** Set real part.
*/
void setW(ValueType w) { w_ = w; }
/** Read imaginary part.
*/
const Vector &v() const { return v_; }
/** Access imaginary part.
*/
Vector &v() { return v_; }
/** Set imaginary part.
*/
void setV(const Vector & v) { v_ = v; }
/** Set imaginary part.
*/
void setV(ValueType x, ValueType y, ValueType z)
{
v_[0] = x;
v_[1] = y;
v_[2] = z;
}
ValueType x() const { return v_[0]; }
ValueType y() const { return v_[1]; }
ValueType z() const { return v_[2]; }
ValueType &x() { return v_[0]; }
ValueType &y() { return v_[1]; }
ValueType &z() { return v_[2]; }
void setX(ValueType x) { v_[0] = x; }
void setY(ValueType y) { v_[1] = y; }
void setZ(ValueType z) { v_[2] = z; }
/** Access entry at index (0 <=> w(), 1 <=> v[0] etc.).
*/
value_type & operator[](int index)
{
return (&w_)[index];
}
/** Read entry at index (0 <=> w(), 1 <=> v[0] etc.).
*/
value_type operator[](int index) const
{
return (&w_)[index];
}
/** Magnitude.
*/
NormType magnitude() const
{
return VIGRA_CSTD::sqrt((NormType)squaredMagnitude());
}
/** Squared magnitude.
*/
SquaredNormType squaredMagnitude() const
{
return w_*w_ + v_.squaredMagnitude();
}
/** Add \a w to the real part.
If the quaternion represents a rotation, the rotation angle is
increased by \a w.
*/
Quaternion &operator+=(value_type const &w)
{
w_ += w;
return *this;
}
/** Add assigment.
*/
Quaternion &operator+=(Quaternion const &other)
{
w_ += other.w_;
v_ += other.v_;
return *this;
}
/** Subtract \a w from the real part.
If the quaternion represents a rotation, the rotation angle is
decreased by \a w.
*/
Quaternion &operator-=(value_type const &w)
{
w_ -= w;
return *this;
}
/** Subtract assigment.
*/
Quaternion &operator-=(Quaternion const &other)
{
w_ -= other.w_;
v_ -= other.v_;
return *this;
}
/** Addition.
*/
Quaternion operator+() const
{
return *this;
}
/** Subtraction.
*/
Quaternion operator-() const
{
return Quaternion(-w_, -v_);
}
/** Multiply assignment.
If the quaternions represent rotations, the rotations of <tt>this</tt> and
\a other are concatenated.
*/
Quaternion &operator*=(Quaternion const &other)
{
value_type newW = w_*other.w_ - dot(v_, other.v_);
v_ = w_ * other.v_ + other.w_ * v_ + cross(v_, other.v_);
w_ = newW;
return *this;
}
/** Multiply all entries with the scalar \a scale.
*/
Quaternion &operator*=(double scale)
{
w_ *= scale;
v_ *= scale;
return *this;
}
/** Divide assignment.
*/
Quaternion &operator/=(Quaternion const &other)
{
(*this) *= conj(other) / squaredNorm(other);
return *this;
}
/** Devide all entries by the scalar \a scale.
*/
Quaternion &operator/=(double scale)
{
w_ /= scale;
v_ /= scale;
return *this;
}
/** Equal.
*/
bool operator==(Quaternion const &other) const
{
return (w_ == other.w_) && (v_ == other.v_);
}
/** Not equal.
*/
bool operator!=(Quaternion const &other) const
{
return (w_ != other.w_) || (v_ != other.v_);
}
/**
* Fill the first 3x3 elements of the given matrix with a
* rotation matrix performing the same 3D rotation as this
* quaternion. If matrix is in column-major format, it should
* be pre-multiplied with the vectors to be rotated, i.e.
* matrix[0][0-3] will be the rotated X axis.
*/
template<class MatrixType>
void fillRotationMatrix(MatrixType &matrix) const
{
// scale by 2 / norm
typename NumericTraits<ValueType>::RealPromote s =
2 / (typename NumericTraits<ValueType>::RealPromote)squaredMagnitude();
Vector
vs = v_ * s,
wv = w_ * vs,
vv = vs * v_;
value_type
xy = vs[0] * v_[1],
xz = vs[0] * v_[2],
yz = vs[1] * v_[2];
matrix[0][0] = 1 - (vv[1] + vv[2]);
matrix[0][1] = ( xy - wv[2]);
matrix[0][2] = ( xz + wv[1]);
matrix[1][0] = ( xy + wv[2]);
matrix[1][1] = 1 - (vv[0] + vv[2]);
matrix[1][2] = ( yz - wv[0]);
matrix[2][0] = ( xz - wv[1]);
matrix[2][1] = ( yz + wv[0]);
matrix[2][2] = 1 - (vv[0] + vv[1]);
}
void fillRotationMatrix(Matrix<value_type> &matrix) const
{
// scale by 2 / norm
typename NumericTraits<ValueType>::RealPromote s =
2 / (typename NumericTraits<ValueType>::RealPromote)squaredMagnitude();
Vector
vs = v_ * s,
wv = w_ * vs,
vv = vs * v_;
value_type
xy = vs[0] * v_[1],
xz = vs[0] * v_[2],
yz = vs[1] * v_[2];
matrix(0, 0) = 1 - (vv[1] + vv[2]);
matrix(0, 1) = ( xy - wv[2]);
matrix(0, 2) = ( xz + wv[1]);
matrix(1, 0) = ( xy + wv[2]);
matrix(1, 1) = 1 - (vv[0] + vv[2]);
matrix(1, 2) = ( yz - wv[0]);
matrix(2, 0) = ( xz - wv[1]);
matrix(2, 1) = ( yz + wv[0]);
matrix(2, 2) = 1 - (vv[0] + vv[1]);
}
protected:
ValueType w_;
Vector v_;
};
template<class T>
struct NormTraits<Quaternion<T> >
{
typedef Quaternion<T> Type;
typedef typename NumericTraits<T>::Promote SquaredNormType;
typedef typename SquareRootTraits<SquaredNormType>::SquareRootResult NormType;
};
/** \defgroup QuaternionOperations Quaternion Operations
*/
//@{
/// Create conjugate quaternion.
template<class ValueType>
Quaternion<ValueType> conj(Quaternion<ValueType> const & q)
{
return Quaternion<ValueType>(q.w(), -q.v());
}
/// Addition.
template<typename Type>
inline Quaternion<Type>
operator+(const Quaternion<Type>& t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) += t2;
}
/// Addition of a scalar on the right.
template<typename Type>
inline Quaternion<Type>
operator+(const Quaternion<Type>& t1,
const Type& t2)
{
return Quaternion<Type>(t1) += t2;
}
/// Addition of a scalar on the left.
template<typename Type>
inline Quaternion<Type>
operator+(const Type& t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) += t2;
}
/// Subtraction.
template<typename Type>
inline Quaternion<Type>
operator-(const Quaternion<Type>& t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) -= t2;
}
/// Subtraction of a scalar on the right.
template<typename Type>
inline Quaternion<Type>
operator-(const Quaternion<Type>& t1,
const Type& t2)
{
return Quaternion<Type>(t1) -= t2;
}
/// Subtraction of a scalar on the left.
template<typename Type>
inline Quaternion<Type>
operator-(const Type& t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) -= t2;
}
/// Multiplication.
template<typename Type>
inline Quaternion<Type>
operator*(const Quaternion<Type>& t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) *= t2;
}
/// Multiplication with a scalar on the right.
template<typename Type>
inline Quaternion<Type>
operator*(const Quaternion<Type>& t1,
double t2)
{
return Quaternion<Type>(t1) *= t2;
}
/// Multiplication with a scalar on the left.
template<typename Type>
inline Quaternion<Type>
operator*(double t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) *= t2;
}
/// Division
template<typename Type>
inline Quaternion<Type>
operator/(const Quaternion<Type>& t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) /= t2;
}
/// Division by a scalar.
template<typename Type>
inline Quaternion<Type>
operator/(const Quaternion<Type>& t1,
double t2)
{
return Quaternion<Type>(t1) /= t2;
}
/// Division of a scalar by a Quaternion.
template<typename Type>
inline Quaternion<Type>
operator/(double t1,
const Quaternion<Type>& t2)
{
return Quaternion<Type>(t1) /= t2;
}
/// squared norm
template<typename Type>
inline
typename Quaternion<Type>::SquaredNormType
squaredNorm(Quaternion<Type> const & q)
{
return q.squaredMagnitude();
}
/// norm
template<typename Type>
inline
typename Quaternion<Type>::NormType
abs(Quaternion<Type> const & q)
{
return norm(q);
}
//@}
} // namespace vigra
namespace std {
template<class ValueType>
inline
ostream & operator<<(ostream & os, vigra::Quaternion<ValueType> const & q)
{
os << q.w() << " " << q.x() << " " << q.y() << " " << q.z();
return os;
}
template<class ValueType>
inline
istream & operator>>(istream & is, vigra::Quaternion<ValueType> & q)
{
ValueType w, x, y, z;
is >> w >> x >> y >> z;
q.setW(w);
q.setX(x);
q.setY(y);
q.setZ(z);
return is;
}
} // namespace std
#endif // VIGRA_QUATERNION_HXX
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