/usr/include/InsightToolkit/Common/itkGaussianBlurImageFunction.h is in libinsighttoolkit3-dev 3.20.1-1.
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Program: Insight Segmentation & Registration Toolkit
Module: itkGaussianBlurImageFunction.h
Language: C++
Date: $Date$
Version: $Revision$
Copyright (c) Insight Software Consortium. All rights reserved.
See ITKCopyright.txt or http://www.itk.org/HTML/Copyright.htm for details.
This software is distributed WITHOUT ANY WARRANTY; without even
the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
PURPOSE. See the above copyright notices for more information.
=========================================================================*/
#ifndef __itkGaussianBlurImageFunction_h
#define __itkGaussianBlurImageFunction_h
#include "itkNeighborhoodOperatorImageFunction.h"
#include "itkGaussianOperator.h"
#include "itkGaussianSpatialFunction.h"
#include "itkImageFunction.h"
#include "itkCastImageFilter.h"
namespace itk
{
/**
* \class GaussianBlurImageFunction
* \brief Compute the convolution of a neighborhood operator with the image
* at a specific location in space, i.e. point, index or continuous
* index.
* This class is templated over the input image type.
* \sa NeighborhoodOperator
* \sa ImageFunction
*/
template <class TInputImage,class TOutput=double>
class ITK_EXPORT GaussianBlurImageFunction :
public ImageFunction< TInputImage, TOutput >
{
public:
/**Standard "Self" typedef */
typedef GaussianBlurImageFunction Self;
/** Standard "Superclass" typedef */
typedef ImageFunction<TInputImage, TOutput> Superclass;
/** Smart pointer typedef support. */
typedef SmartPointer<Self> Pointer;
typedef SmartPointer<const Self> ConstPointer;
/** Method for creation through the object factory. */
itkNewMacro(Self);
/** Run-time type information (and related methods). */
itkTypeMacro( GaussianBlurImageFunction, ImageFunction );
/** InputImageType typedef support. */
typedef TInputImage InputImageType;
typedef typename InputImageType::PixelType InputPixelType;
typedef typename Superclass::IndexType IndexType;
typedef typename Superclass::ContinuousIndexType ContinuousIndexType;
/** Dimension of the underlying image. */
itkStaticConstMacro(ImageDimension, unsigned int, InputImageType::ImageDimension);
typedef GaussianOperator<
TOutput, itkGetStaticConstMacro(ImageDimension)> GaussianOperatorType;
typedef Neighborhood<TOutput, itkGetStaticConstMacro(ImageDimension)> NeighborhoodType;
typedef FixedArray<NeighborhoodType,itkGetStaticConstMacro(ImageDimension)> OperatorArrayType;
typedef GaussianSpatialFunction<TOutput,1> GaussianFunctionType;
typedef typename GaussianFunctionType::Pointer GaussianFunctionPointer;
typedef itk::Image<double,itkGetStaticConstMacro(ImageDimension)> InternalImageType;
typedef typename InternalImageType::Pointer InternalImagePointer;
typedef NeighborhoodOperatorImageFunction< InternalImageType, TOutput> OperatorImageFunctionType;
typedef typename OperatorImageFunctionType::Pointer OperatorImageFunctionPointer;
typedef itk::CastImageFilter<InputImageType,InternalImageType> CastImageFilterType;
typedef typename CastImageFilterType::Pointer CastImageFilterPointer;
typedef itk::FixedArray< double, itkGetStaticConstMacro(ImageDimension) > ErrorArrayType;
typedef itk::FixedArray< double, itkGetStaticConstMacro(ImageDimension) > ExtentArrayType;
typedef itk::FixedArray< double, itkGetStaticConstMacro(ImageDimension) > SigmaArrayType;
/** Point typedef support. */
typedef typename Superclass::PointType PointType;
/** Evalutate the in the given dimension at specified point */
virtual TOutput Evaluate(const PointType& point) const;
/** Evaluate the function at specified Index position */
virtual TOutput EvaluateAtIndex( const IndexType & index ) const;
/** Evaluate the function at specified ContinousIndex position. */
virtual TOutput EvaluateAtContinuousIndex(
const ContinuousIndexType & index ) const;
/** The standard deviation for the discrete Gaussian kernel. Sets the
* standard deviation independently for each dimension.
* The default is 1.0 in each dimension.
* If UseImageSpacing is true (default), the units are the physical units
* of your image. If UseImageSpacing is false then the units are pixels.
*/
void SetSigma( const double* sigma);
void SetSigma( const float* sigma);
void SetSigma( const double sigma);
itkSetMacro( Sigma, SigmaArrayType );
itkGetConstReferenceMacro( Sigma, SigmaArrayType );
/** Set the input image.
* \warning this method caches BufferedRegion information.
* If the BufferedRegion has changed, user must call
* SetInputImage again to update cached values. */
virtual void SetInputImage( const InputImageType * ptr );
/** Set/Get the Extent of the array holding the coefficients
* of the Gaussian kernel computed by the GaussianOperator.
*/
itkSetMacro( Extent, ExtentArrayType );
itkGetConstReferenceMacro( Extent, ExtentArrayType );
void SetExtent( const double* extent);
void SetExtent( const double extent);
/** Set/Get the maximum error acceptable for the approximation
* of the Gaussian kernel with the GaussianOperator.
*/
itkSetMacro( MaximumError, ErrorArrayType );
itkGetConstReferenceMacro( MaximumError, ErrorArrayType );
/** Set/GetMaximumKernelWidth() This value is used by the underling
* GaussianOperator for computing the number of coefficients to be
* used in the Gaussian kernel
*/
itkSetMacro( MaximumKernelWidth, int );
itkGetConstMacro( MaximumKernelWidth, int );
/** Set/GetUseImageSpacing() This flag is used by the underling
* GaussianOperator to decide if the image spacing should be used
* to scale the value of sigma or not. The methods UseImageSpacingOn()
* and UseImageSpacingOff() provide a similar functionality.
*/
itkSetMacro( UseImageSpacing, bool );
itkGetConstMacro( UseImageSpacing, bool );
itkBooleanMacro( UseImageSpacing );
protected:
GaussianBlurImageFunction();
GaussianBlurImageFunction( const Self& ){};
~GaussianBlurImageFunction(){};
void operator=( const Self& ){};
void PrintSelf(std::ostream& os, Indent indent) const;
void RecomputeGaussianKernel();
void RecomputeContinuousGaussianKernel(const double* offset) const;
private:
virtual TOutput EvaluateAtIndex(
const IndexType & index, const OperatorArrayType & operatorArray ) const;
SigmaArrayType m_Sigma;
OperatorImageFunctionPointer m_OperatorImageFunction;
mutable OperatorArrayType m_OperatorArray;
mutable OperatorArrayType m_ContinuousOperatorArray;
InternalImagePointer m_InternalImage;
CastImageFilterPointer m_Caster;
/** The maximum error of the gaussian blurring kernel in each dimensional
* direction. For definition of maximum error, see GaussianOperator.
* \sa GaussianOperator */
ErrorArrayType m_MaximumError;
ExtentArrayType m_Extent;
/** Maximum allowed kernel width for any dimension of the discrete Gaussian
approximation */
int m_MaximumKernelWidth;
/** Number of dimensions to process. Default is all dimensions */
unsigned int m_FilterDimensionality;
/** Flag to indicate whether to use image spacing */
bool m_UseImageSpacing;
/** Neighborhood Image Function */
GaussianFunctionPointer m_GaussianFunction;
};
} // end namespace itk
// Define instantiation macro for this template.
#define ITK_TEMPLATE_GaussianBlurImageFunction(_, EXPORT, x, y) namespace itk { \
_(2(class EXPORT GaussianBlurImageFunction< ITK_TEMPLATE_2 x >)) \
namespace Templates { typedef GaussianBlurImageFunction< ITK_TEMPLATE_2 x > \
GaussianBlurImageFunction##y; } \
}
#if ITK_TEMPLATE_EXPLICIT
# include "Templates/itkGaussianBlurImageFunction+-.h"
#endif
#if ITK_TEMPLATE_TXX
# include "itkGaussianBlurImageFunction.txx"
#endif
#endif
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