1 /*=========================================================================
2 Program: vv http://www.creatis.insa-lyon.fr/rio/vv
5 - University of LYON http://www.universite-lyon.fr/
6 - Léon Bérard cancer center http://www.centreleonberard.fr
7 - CREATIS CNRS laboratory http://www.creatis.insa-lyon.fr
9 This software is distributed WITHOUT ANY WARRANTY; without even
10 the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
11 PURPOSE. See the copyright notices for more information.
13 It is distributed under dual licence
15 - BSD See included LICENSE.txt file
16 - CeCILL-B http://www.cecill.info/licences/Licence_CeCILL-B_V1-en.html
17 ===========================================================================**/
19 #ifndef __clitkOptNormalizedCorrelationImageToImageMetricFor3DBLUTFFD_h
20 #define __clitkOptNormalizedCorrelationImageToImageMetricFor3DBLUTFFD_h
22 #if ITK_VERSION_MAJOR >= 4
23 #include "itkImageToImageMetric.h"
25 #include "itkOptImageToImageMetric.h"
27 #include "itkCovariantVector.h"
31 #include "itkMultiThreader.h"
36 template <class TFixedImage,class TMovingImage >
37 class ITK_EXPORT NormalizedCorrelationImageToImageMetricFor3DBLUTFFD :
38 public itk::ImageToImageMetric< TFixedImage, TMovingImage >
42 /** Standard class typedefs. */
43 typedef NormalizedCorrelationImageToImageMetricFor3DBLUTFFD Self;
44 typedef itk::ImageToImageMetric< TFixedImage, TMovingImage > Superclass;
45 typedef itk::SmartPointer<Self> Pointer;
46 typedef itk::SmartPointer<const Self> ConstPointer;
48 /** Method for creation through the object factory. */
51 /** Run-time type information (and related methods). */
52 itkTypeMacro(NormalizedCorrelationImageToImageMetricFor3DBLUTFFD, ImageToImageMetric);
54 /** Types inherited from Superclass. */
55 typedef typename Superclass::RealType RealType;
56 typedef typename Superclass::TransformType TransformType;
57 typedef typename Superclass::TransformPointer TransformPointer;
58 typedef typename Superclass::TransformJacobianType TransformJacobianType;
59 typedef typename Superclass::InterpolatorType InterpolatorType;
60 typedef typename Superclass::MeasureType MeasureType;
61 typedef typename Superclass::DerivativeType DerivativeType;
62 typedef typename Superclass::ParametersType ParametersType;
63 typedef typename Superclass::FixedImageType FixedImageType;
64 typedef typename Superclass::MovingImageType MovingImageType;
65 typedef typename Superclass::MovingImagePointType MovingImagePointType;
66 typedef typename Superclass::FixedImageConstPointer FixedImageConstPointer;
67 typedef typename Superclass::MovingImageConstPointer MovingImageConstPointer;
68 typedef typename Superclass::CoordinateRepresentationType
69 CoordinateRepresentationType;
70 typedef typename Superclass::FixedImageSampleContainer
71 FixedImageSampleContainer;
72 typedef typename Superclass::ImageDerivativesType ImageDerivativesType;
73 typedef typename Superclass::WeightsValueType WeightsValueType;
74 typedef typename Superclass::IndexValueType IndexValueType;
76 // Needed for evaluation of Jacobian.
77 typedef typename Superclass::FixedImagePointType FixedImagePointType;
80 typedef typename itk::NumericTraits< MeasureType >::AccumulateType AccumulateType;
82 /** The moving image dimension. */
83 itkStaticConstMacro( MovingImageDimension, unsigned int,
84 MovingImageType::ImageDimension );
87 /** Set/Get SubtractMean boolean. If true, the sample mean is subtracted
88 * from the sample values in the cross-correlation formula and
89 * typically results in narrower valleys in the cost fucntion.
90 * Default value is false. */
91 itkSetMacro( SubtractMean, bool );
92 itkGetConstReferenceMacro( SubtractMean, bool );
93 itkBooleanMacro( SubtractMean );
96 * Initialize the Metric by
97 * (1) making sure that all the components are present and plugged
99 * (2) uniformly select NumberOfSpatialSamples within
100 * the FixedImageRegion, and
101 * (3) allocate memory for pdf data structures. */
102 virtual void Initialize(void) throw ( itk::ExceptionObject );
104 /** Get the value. */
105 MeasureType GetValue( const ParametersType & parameters ) const;
107 /** Get the derivatives of the match measure. */
108 void GetDerivative( const ParametersType & parameters,
109 DerivativeType & Derivative ) const;
111 /** Get the value and derivatives for single valued optimizers. */
112 void GetValueAndDerivative( const ParametersType & parameters,
114 DerivativeType & Derivative ) const;
118 NormalizedCorrelationImageToImageMetricFor3DBLUTFFD();
119 virtual ~NormalizedCorrelationImageToImageMetricFor3DBLUTFFD();
120 void PrintSelf(std::ostream& os, itk::Indent indent) const;
124 //purposely not implemented
125 NormalizedCorrelationImageToImageMetricFor3DBLUTFFD(const Self &);
126 //purposely not implemented
127 void operator=(const Self &);
129 /** Get the value for the derivative computation. */
130 MeasureType ComputeSums( const ParametersType & parameters ) const;
133 inline bool GetValueThreadProcessSample( unsigned int threadID,
134 unsigned long fixedImageSample,
135 const MovingImagePointType & mappedPoint,
136 double movingImageValue ) const;
139 inline bool GetValueAndDerivativeThreadProcessSample( unsigned int threadID,
140 unsigned long fixedImageSample,
141 const MovingImagePointType & mappedPoint,
142 double movingImageValue,
143 const ImageDerivativesType &
144 movingImageGradientValue ) const;
146 AccumulateType *m_ThreaderSFF, *m_ThreaderSMM, *m_ThreaderSFM, *m_ThreaderSF, *m_ThreaderSM;
147 mutable AccumulateType m_SFF, m_SMM, m_SFM, m_SF, m_SM;
148 mutable RealType m_Denom, m_FixedMean, m_MovingMean;
149 DerivativeType * m_ThreaderDerivativeF, *m_ThreaderDerivativeM;
155 } // end namespace clitk
157 #ifndef ITK_MANUAL_INSTANTIATION
158 #include "clitkOptNormalizedCorrelationImageToImageMetricFor3DBLUTFFD.txx"