itkCovariantVector.h
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00017 #ifndef __itkCovariantVector_h
00018 #define __itkCovariantVector_h
00019
00020
00021 #include "itkFixedArray.h"
00022 #include "vnl/vnl_vector_ref.h"
00023 #include "itkIndent.h"
00024 #include "itkVector.h"
00025
00026
00027 namespace itk
00028 {
00029
00063 template<class T, unsigned int NVectorDimension=3>
00064 class ITK_EXPORT CovariantVector : public FixedArray<T,NVectorDimension>
00065 {
00066
00067 public:
00069 typedef CovariantVector Self;
00070 typedef FixedArray<T,NVectorDimension> Superclass;
00071
00074 typedef T ValueType;
00075 typedef typename NumericTraits< ValueType >::RealType RealValueType;
00076
00078 itkStaticConstMacro(Dimension, unsigned int, NVectorDimension);
00079
00081 typedef Self CovariantVectorType;
00082
00084 typedef FixedArray<T, NVectorDimension> BaseArray;
00085
00087 static unsigned int GetCovariantVectorDimension()
00088 { return NVectorDimension; }
00089
00091 void SetVnlVector( const vnl_vector<T> & );
00092
00094 vnl_vector_ref<T> GetVnlVector( void );
00095
00097 vnl_vector<T> GetVnlVector( void ) const;
00098
00099
00102 void Set_vnl_vector( const vnl_vector<T> & );
00103
00106 vnl_vector_ref<T> Get_vnl_vector( void );
00107
00110 vnl_vector<T> Get_vnl_vector( void ) const;
00111
00113 CovariantVector(): BaseArray() {}
00114 CovariantVector(const ValueType& r);
00115
00118 template< class TVectorValueType >
00119 CovariantVector(const CovariantVector< TVectorValueType,
00120 NVectorDimension>& r): BaseArray(r) {}
00121 CovariantVector(const ValueType r[Dimension]): BaseArray(r) {}
00123
00125 template< class Tt >
00126 Self & operator= (const Tt & v )
00127 {
00128 BaseArray::operator=(v);
00129 return *this;
00130 }
00132
00134 CovariantVector& operator= (const Self& r);
00135 CovariantVector& operator= (const ValueType r[NVectorDimension]);
00137
00139 template< class Tt > inline const Self& operator*=(const Tt &value)
00140 {
00141 for( unsigned int i=0; i<NVectorDimension; i++)
00142 {
00143 (*this)[i] = static_cast< ValueType >((*this)[i] * value);
00144 }
00145 return *this;
00146 }
00148
00150 template< class Tt > const Self& operator/=(const Tt &value)
00151 {
00152 for( unsigned int i=0; i<NVectorDimension; i++)
00153 {
00154 (*this)[i] = static_cast< ValueType >((*this)[i] / value);
00155 }
00156 return *this;
00157 }
00159
00161 const Self& operator+=(const Self &vec);
00162
00164 const Self& operator-=(const Self &vec);
00165
00168 Self operator-() const;
00169
00171 Self operator+(const Self &vec) const;
00172
00174 Self operator-(const Self &vec) const;
00175
00180 ValueType operator*(const Self &vec) const;
00181
00184 ValueType operator*(const Vector<T,NVectorDimension> &vec) const;
00185
00188 inline Self operator*(const ValueType& val) const
00189 {
00190 Self result;
00191 for( unsigned int i=0; i<NVectorDimension; i++)
00192 {
00193 result[i] = static_cast< ValueType >((*this)[i] * val);
00194 }
00195 return result;
00196 }
00198
00201 template< class Tt > inline Self operator/(const Tt& val) const
00202 {
00203 Self result;
00204 for( unsigned int i=0; i<NVectorDimension; i++)
00205 {
00206 result[i] = static_cast< ValueType >((*this)[i] / val);
00207 }
00208 return result;
00209 }
00211
00213 RealValueType GetNorm( void ) const;
00214
00216 static unsigned int GetNumberOfComponents() { return NVectorDimension; }
00217
00219 void Normalize(void);
00220
00222 RealValueType GetSquaredNorm( void ) const;
00223
00226 template < typename TCoordRepB >
00227 void CastFrom( const CovariantVector<TCoordRepB,NVectorDimension> & pa )
00228 {
00229 for(unsigned int i=0; i<NVectorDimension; i++ )
00230 {
00231 (*this)[i] = static_cast<T>( pa[i] );
00232 }
00233 }
00235
00236 };
00237
00240 template< class T, unsigned int NVectorDimension >
00241 inline
00242 CovariantVector<T,NVectorDimension>
00243 operator*(const T &scalar, const CovariantVector<T,NVectorDimension> & v)
00244 {
00245 return v * scalar;
00246 }
00247
00248 ITKCommon_EXPORT void CrossProduct( CovariantVector<double,3> &,
00249 const Vector<double,3> &,
00250 const Vector<double,3> & );
00251
00252 ITKCommon_EXPORT void CrossProduct( CovariantVector<float,3> &,
00253 const Vector<float,3> &,
00254 const Vector<float,3> & );
00255
00256 ITKCommon_EXPORT void CrossProduct( CovariantVector<int,3>,
00257 const Vector<int,3> &,
00258 const Vector<int,3> & );
00259
00260
00261 }
00262
00263
00264 #define ITK_TEMPLATE_CovariantVector(_, EXPORT, x, y) namespace itk { \
00265 _(2(class EXPORT CovariantVector< ITK_TEMPLATE_2 x >)) \
00266 namespace Templates { typedef CovariantVector< ITK_TEMPLATE_2 x > \
00267 CovariantVector##y; } \
00268 }
00269
00270 #if ITK_TEMPLATE_EXPLICIT
00271 # include "Templates/itkCovariantVector+-.h"
00272 #endif
00273
00274 #if ITK_TEMPLATE_TXX
00275 #include "itkNumericTraitsCovariantVectorPixel.h"
00276 # include "itkCovariantVector.txx"
00277 #endif
00278
00279 #endif
00280