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00011 #ifndef EIGEN_ORTHOMETHODS_H
00012 #define EIGEN_ORTHOMETHODS_H
00013
00014 namespace Eigen {
00015
00023 template<typename Derived>
00024 template<typename OtherDerived>
00025 inline typename MatrixBase<Derived>::template cross_product_return_type<OtherDerived>::type
00026 MatrixBase<Derived>::cross(const MatrixBase<OtherDerived>& other) const
00027 {
00028 EIGEN_STATIC_ASSERT_VECTOR_SPECIFIC_SIZE(Derived,3)
00029 EIGEN_STATIC_ASSERT_VECTOR_SPECIFIC_SIZE(OtherDerived,3)
00030
00031
00032
00033 typename internal::nested<Derived,2>::type lhs(derived());
00034 typename internal::nested<OtherDerived,2>::type rhs(other.derived());
00035 return typename cross_product_return_type<OtherDerived>::type(
00036 numext::conj(lhs.coeff(1) * rhs.coeff(2) - lhs.coeff(2) * rhs.coeff(1)),
00037 numext::conj(lhs.coeff(2) * rhs.coeff(0) - lhs.coeff(0) * rhs.coeff(2)),
00038 numext::conj(lhs.coeff(0) * rhs.coeff(1) - lhs.coeff(1) * rhs.coeff(0))
00039 );
00040 }
00041
00042 namespace internal {
00043
00044 template< int Arch,typename VectorLhs,typename VectorRhs,
00045 typename Scalar = typename VectorLhs::Scalar,
00046 bool Vectorizable = bool((VectorLhs::Flags&VectorRhs::Flags)&PacketAccessBit)>
00047 struct cross3_impl {
00048 static inline typename internal::plain_matrix_type<VectorLhs>::type
00049 run(const VectorLhs& lhs, const VectorRhs& rhs)
00050 {
00051 return typename internal::plain_matrix_type<VectorLhs>::type(
00052 numext::conj(lhs.coeff(1) * rhs.coeff(2) - lhs.coeff(2) * rhs.coeff(1)),
00053 numext::conj(lhs.coeff(2) * rhs.coeff(0) - lhs.coeff(0) * rhs.coeff(2)),
00054 numext::conj(lhs.coeff(0) * rhs.coeff(1) - lhs.coeff(1) * rhs.coeff(0)),
00055 0
00056 );
00057 }
00058 };
00059
00060 }
00061
00071 template<typename Derived>
00072 template<typename OtherDerived>
00073 inline typename MatrixBase<Derived>::PlainObject
00074 MatrixBase<Derived>::cross3(const MatrixBase<OtherDerived>& other) const
00075 {
00076 EIGEN_STATIC_ASSERT_VECTOR_SPECIFIC_SIZE(Derived,4)
00077 EIGEN_STATIC_ASSERT_VECTOR_SPECIFIC_SIZE(OtherDerived,4)
00078
00079 typedef typename internal::nested<Derived,2>::type DerivedNested;
00080 typedef typename internal::nested<OtherDerived,2>::type OtherDerivedNested;
00081 DerivedNested lhs(derived());
00082 OtherDerivedNested rhs(other.derived());
00083
00084 return internal::cross3_impl<Architecture::Target,
00085 typename internal::remove_all<DerivedNested>::type,
00086 typename internal::remove_all<OtherDerivedNested>::type>::run(lhs,rhs);
00087 }
00088
00098 template<typename ExpressionType, int Direction>
00099 template<typename OtherDerived>
00100 const typename VectorwiseOp<ExpressionType,Direction>::CrossReturnType
00101 VectorwiseOp<ExpressionType,Direction>::cross(const MatrixBase<OtherDerived>& other) const
00102 {
00103 EIGEN_STATIC_ASSERT_VECTOR_SPECIFIC_SIZE(OtherDerived,3)
00104 EIGEN_STATIC_ASSERT((internal::is_same<Scalar, typename OtherDerived::Scalar>::value),
00105 YOU_MIXED_DIFFERENT_NUMERIC_TYPES__YOU_NEED_TO_USE_THE_CAST_METHOD_OF_MATRIXBASE_TO_CAST_NUMERIC_TYPES_EXPLICITLY)
00106
00107 CrossReturnType res(_expression().rows(),_expression().cols());
00108 if(Direction==Vertical)
00109 {
00110 eigen_assert(CrossReturnType::RowsAtCompileTime==3 && "the matrix must have exactly 3 rows");
00111 res.row(0) = (_expression().row(1) * other.coeff(2) - _expression().row(2) * other.coeff(1)).conjugate();
00112 res.row(1) = (_expression().row(2) * other.coeff(0) - _expression().row(0) * other.coeff(2)).conjugate();
00113 res.row(2) = (_expression().row(0) * other.coeff(1) - _expression().row(1) * other.coeff(0)).conjugate();
00114 }
00115 else
00116 {
00117 eigen_assert(CrossReturnType::ColsAtCompileTime==3 && "the matrix must have exactly 3 columns");
00118 res.col(0) = (_expression().col(1) * other.coeff(2) - _expression().col(2) * other.coeff(1)).conjugate();
00119 res.col(1) = (_expression().col(2) * other.coeff(0) - _expression().col(0) * other.coeff(2)).conjugate();
00120 res.col(2) = (_expression().col(0) * other.coeff(1) - _expression().col(1) * other.coeff(0)).conjugate();
00121 }
00122 return res;
00123 }
00124
00125 namespace internal {
00126
00127 template<typename Derived, int Size = Derived::SizeAtCompileTime>
00128 struct unitOrthogonal_selector
00129 {
00130 typedef typename plain_matrix_type<Derived>::type VectorType;
00131 typedef typename traits<Derived>::Scalar Scalar;
00132 typedef typename NumTraits<Scalar>::Real RealScalar;
00133 typedef typename Derived::Index Index;
00134 typedef Matrix<Scalar,2,1> Vector2;
00135 static inline VectorType run(const Derived& src)
00136 {
00137 VectorType perp = VectorType::Zero(src.size());
00138 Index maxi = 0;
00139 Index sndi = 0;
00140 src.cwiseAbs().maxCoeff(&maxi);
00141 if (maxi==0)
00142 sndi = 1;
00143 RealScalar invnm = RealScalar(1)/(Vector2() << src.coeff(sndi),src.coeff(maxi)).finished().norm();
00144 perp.coeffRef(maxi) = -numext::conj(src.coeff(sndi)) * invnm;
00145 perp.coeffRef(sndi) = numext::conj(src.coeff(maxi)) * invnm;
00146
00147 return perp;
00148 }
00149 };
00150
00151 template<typename Derived>
00152 struct unitOrthogonal_selector<Derived,3>
00153 {
00154 typedef typename plain_matrix_type<Derived>::type VectorType;
00155 typedef typename traits<Derived>::Scalar Scalar;
00156 typedef typename NumTraits<Scalar>::Real RealScalar;
00157 static inline VectorType run(const Derived& src)
00158 {
00159 VectorType perp;
00160
00161
00162
00163
00164
00165
00166
00167 if((!isMuchSmallerThan(src.x(), src.z()))
00168 || (!isMuchSmallerThan(src.y(), src.z())))
00169 {
00170 RealScalar invnm = RealScalar(1)/src.template head<2>().norm();
00171 perp.coeffRef(0) = -numext::conj(src.y())*invnm;
00172 perp.coeffRef(1) = numext::conj(src.x())*invnm;
00173 perp.coeffRef(2) = 0;
00174 }
00175
00176
00177
00178
00179 else
00180 {
00181 RealScalar invnm = RealScalar(1)/src.template tail<2>().norm();
00182 perp.coeffRef(0) = 0;
00183 perp.coeffRef(1) = -numext::conj(src.z())*invnm;
00184 perp.coeffRef(2) = numext::conj(src.y())*invnm;
00185 }
00186
00187 return perp;
00188 }
00189 };
00190
00191 template<typename Derived>
00192 struct unitOrthogonal_selector<Derived,2>
00193 {
00194 typedef typename plain_matrix_type<Derived>::type VectorType;
00195 static inline VectorType run(const Derived& src)
00196 { return VectorType(-numext::conj(src.y()), numext::conj(src.x())).normalized(); }
00197 };
00198
00199 }
00200
00208 template<typename Derived>
00209 typename MatrixBase<Derived>::PlainObject
00210 MatrixBase<Derived>::unitOrthogonal() const
00211 {
00212 EIGEN_STATIC_ASSERT_VECTOR_ONLY(Derived)
00213 return internal::unitOrthogonal_selector<Derived>::run(derived());
00214 }
00215
00216 }
00217
00218 #endif // EIGEN_ORTHOMETHODS_H