/*========================================================================= * * Copyright NumFOCUS * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * https://www.apache.org/licenses/LICENSE-2.0.txt * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *=========================================================================*/ #ifndef itkMultiResolutionImageRegistrationMethod_h #define itkMultiResolutionImageRegistrationMethod_h #include "itkProcessObject.h" #include "itkImageToImageMetric.h" #include "itkSingleValuedNonLinearOptimizer.h" #include "itkMultiResolutionPyramidImageFilter.h" #include "itkNumericTraits.h" #include "itkDataObjectDecorator.h" namespace itk { /** \class MultiResolutionImageRegistrationMethod * \brief Base class for multi-resolution image registration methods * * This class provides a generic interface for multi-resolution * registration using components of the registration framework. * See documentation for ImageRegistrationMethod for a description * of the registration framework components. * * The registration process is initiated by method Update(). * The user must set the parameters of each component before calling * this method. * * The number of resolution level to process can be set via * SetNumberOfLevels(). At each resolution level, the user specified * registration components are used to register downsampled version of the * images by computing the transform parameters that will map one image onto * the other image. * * A user can specify schedules for the fixed and moving image using * SetSchedules() method. However, SetNumberOfLevels() and SetSchedules() * should not be used together. An exception will be thrown if that happens. * * The downsampled images are provided by user specified * MultiResolutionPyramidImageFilters. User must specify the schedule * for each pyramid externally prior to calling Update(). * * \warning If there is discrepancy between the number of level requested * and a pyramid schedule. The pyramid schedule will be overridden * with a default one. * * Before each resolution level an IterationEvent is invoked providing an * opportunity for a user interface to change any of the components, * change component parameters, or stop the registration. * * This class is templated over the fixed image type and the moving image * type. * * \sa ImageRegistrationMethod * \ingroup RegistrationFilters * \ingroup ITKRegistrationCommon */ template class ITK_TEMPLATE_EXPORT MultiResolutionImageRegistrationMethod : public ProcessObject { public: ITK_DISALLOW_COPY_AND_MOVE(MultiResolutionImageRegistrationMethod); /** Standard class type aliases. */ using Self = MultiResolutionImageRegistrationMethod; using Superclass = ProcessObject; using Pointer = SmartPointer; using ConstPointer = SmartPointer; /** Method for creation through the object factory. */ itkNewMacro(Self); /** \see LightObject::GetNameOfClass() */ itkOverrideGetNameOfClassMacro(MultiResolutionImageRegistrationMethod); /** Type of the Fixed image. */ using FixedImageType = TFixedImage; using FixedImageConstPointer = typename FixedImageType::ConstPointer; using FixedImageRegionType = typename FixedImageType::RegionType; /** Type of the Moving image. */ using MovingImageType = TMovingImage; using MovingImageConstPointer = typename MovingImageType::ConstPointer; /** Type of the metric. */ using MetricType = ImageToImageMetric; using MetricPointer = typename MetricType::Pointer; /** Type of the Transform . */ using TransformType = typename MetricType::TransformType; using TransformPointer = typename TransformType::Pointer; /** Type for the output: Using Decorator pattern for enabling * the Transform to be passed in the data pipeline */ using TransformOutputType = DataObjectDecorator; using TransformOutputPointer = typename TransformOutputType::Pointer; using TransformOutputConstPointer = typename TransformOutputType::ConstPointer; /** Type of the Interpolator. */ using InterpolatorType = typename MetricType::InterpolatorType; using InterpolatorPointer = typename InterpolatorType::Pointer; /** Type of the optimizer. */ using OptimizerType = SingleValuedNonLinearOptimizer; /** Type of the Fixed image multiresolution pyramid. */ using FixedImagePyramidType = MultiResolutionPyramidImageFilter; using FixedImagePyramidPointer = typename FixedImagePyramidType::Pointer; /** Type of pyramid schedule type */ using ScheduleType = typename FixedImagePyramidType::ScheduleType; /** Type of the moving image multiresolution pyramid. */ using MovingImagePyramidType = MultiResolutionPyramidImageFilter; using MovingImagePyramidPointer = typename MovingImagePyramidType::Pointer; /** Type of the Transformation parameters This is the same type used to * represent the search space of the optimization algorithm */ using ParametersType = typename MetricType::TransformParametersType; /** Smart Pointer type to a DataObject. */ using DataObjectPointer = typename DataObject::Pointer; /** Stop the registration. */ void StopRegistration(); /** Set/Get the Fixed image. */ itkSetConstObjectMacro(FixedImage, FixedImageType); itkGetConstObjectMacro(FixedImage, FixedImageType); /** Set/Get the Moving image. */ itkSetConstObjectMacro(MovingImage, MovingImageType); itkGetConstObjectMacro(MovingImage, MovingImageType); /** Set/Get the Optimizer. */ itkSetObjectMacro(Optimizer, OptimizerType); itkGetModifiableObjectMacro(Optimizer, OptimizerType); /** Set/Get the Metric. */ itkSetObjectMacro(Metric, MetricType); itkGetModifiableObjectMacro(Metric, MetricType); /** Set/Get the Metric. */ itkSetMacro(FixedImageRegion, FixedImageRegionType); itkGetConstReferenceMacro(FixedImageRegion, FixedImageRegionType); /** Set/Get the Transform. */ itkSetObjectMacro(Transform, TransformType); itkGetModifiableObjectMacro(Transform, TransformType); /** Set/Get the Interpolator. */ itkSetObjectMacro(Interpolator, InterpolatorType); itkGetModifiableObjectMacro(Interpolator, InterpolatorType); /** Set/Get the Fixed image pyramid. */ itkSetObjectMacro(FixedImagePyramid, FixedImagePyramidType); itkGetModifiableObjectMacro(FixedImagePyramid, FixedImagePyramidType); /** Set/Get the Moving image pyramid. */ itkSetObjectMacro(MovingImagePyramid, MovingImagePyramidType); itkGetModifiableObjectMacro(MovingImagePyramid, MovingImagePyramidType); /** Set/Get the schedules for the fixed and moving image pyramid. */ void SetSchedules(const ScheduleType & fixedImagePyramidSchedule, const ScheduleType & movingImagePyramidSchedule); itkGetConstMacro(FixedImagePyramidSchedule, ScheduleType); itkGetConstMacro(MovingImagePyramidSchedule, ScheduleType); /** Set/Get the number of multi-resolution levels. */ void SetNumberOfLevels(SizeValueType numberOfLevels); itkGetConstMacro(NumberOfLevels, SizeValueType); /** Get the current resolution level being processed. */ itkGetConstMacro(CurrentLevel, SizeValueType); /** Set/Get the initial transformation parameters. */ itkSetMacro(InitialTransformParameters, ParametersType); itkGetConstReferenceMacro(InitialTransformParameters, ParametersType); /** Set/Get the initial transformation parameters of the next resolution level to be processed. The default is the last set of parameters of the last resolution level. */ itkSetMacro(InitialTransformParametersOfNextLevel, ParametersType); itkGetConstReferenceMacro(InitialTransformParametersOfNextLevel, ParametersType); /** Get the last transformation parameters visited by * the optimizer. */ itkGetConstReferenceMacro(LastTransformParameters, ParametersType); /** Returns the transform resulting from the registration process */ const TransformOutputType * GetOutput() const; /** Make a DataObject of the correct type to be used as the specified * output. */ using DataObjectPointerArraySizeType = ProcessObject::DataObjectPointerArraySizeType; using Superclass::MakeOutput; DataObjectPointer MakeOutput(DataObjectPointerArraySizeType output) override; /** Method to return the latest modified time of this object or * any of its cached ivars */ ModifiedTimeType GetMTime() const override; protected: MultiResolutionImageRegistrationMethod(); ~MultiResolutionImageRegistrationMethod() override = default; void PrintSelf(std::ostream & os, Indent indent) const override; /** Method invoked by the pipeline in order to trigger the computation of * the registration. */ void GenerateData() override; /** Initialize by setting the interconnects between the components. This method is executed at every level of the pyramid with the values corresponding to this resolution */ void Initialize(); /** Compute the size of the fixed region for each level of the pyramid. */ void PreparePyramids(); /** Set the current level to be processed */ itkSetMacro(CurrentLevel, SizeValueType); private: MetricPointer m_Metric{}; OptimizerType::Pointer m_Optimizer{}; MovingImageConstPointer m_MovingImage{}; FixedImageConstPointer m_FixedImage{}; TransformPointer m_Transform{}; InterpolatorPointer m_Interpolator{}; MovingImagePyramidPointer m_MovingImagePyramid{}; FixedImagePyramidPointer m_FixedImagePyramid{}; ParametersType m_InitialTransformParameters{}; ParametersType m_InitialTransformParametersOfNextLevel{}; ParametersType m_LastTransformParameters{}; FixedImageRegionType m_FixedImageRegion{}; std::vector m_FixedImageRegionPyramid{}; SizeValueType m_NumberOfLevels{}; SizeValueType m_CurrentLevel{}; bool m_Stop{}; ScheduleType m_FixedImagePyramidSchedule{}; ScheduleType m_MovingImagePyramidSchedule{}; bool m_ScheduleSpecified{}; bool m_NumberOfLevelsSpecified{}; }; } // end namespace itk #ifndef ITK_MANUAL_INSTANTIATION # include "itkMultiResolutionImageRegistrationMethod.hxx" #endif #endif