/usr/include/ITK-4.5/itkSpecialCoordinatesImage.h is in libinsighttoolkit4-dev 4.5.0-3.
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*
* Copyright Insight Software Consortium
*
* 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
*
* http://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 __itkSpecialCoordinatesImage_h
#define __itkSpecialCoordinatesImage_h
#include "itkImageBase.h"
#include "itkImportImageContainer.h"
#include "itkDefaultPixelAccessor.h"
#include "itkDefaultPixelAccessorFunctor.h"
#include "itkContinuousIndex.h"
namespace itk
{
/** \class SpecialCoordinatesImage
* \brief Templated n-dimensional nonrectilinear-coordinate image base class.
*
* SpecialCoordinatesImages are templated over a pixel type (modeling the
* dependent variables), and a dimension (number of independent variables).
* The container for the pixel data is the ImportImageContainer.
*
* Within the pixel container, images are modelled as arrays, defined by a
* start index and a size.
*
* Almost arbitrary mappings between index space & Cartesian physical space are
* possible, and so m_Origin and m_Spacing should be ignored. They exist only
* to allow the possibility of running a "spatially-aware" filter in raw index
* space, as if the SpecialCoordinatesImage data was laid out on a regular grid.
* Note that this may or may not produce useful results, and it is up the the
* user to determine the appropriateness of running a filter designed for normal
* images on special-coordinates images.
*
* The only correct generic method for operating on a SpecialCoordinatesImage in
* physical space is to use the virtual functions TransformPhysicalPointToIndex,
* TransformPhysicalPointToContinuousIndex, TransformIndexToPhysicalPoint, and
* TransformContinuousIndexToPhysicalPoint. All of these methods transform
* points in Cartesian physical space to and from indices in the special
* (typically non-Cartesian) index space. It is also possible to check the
* type of coordinate representation being used by a SpecialCoordinatesImage,
* and then use representation-specific code to speed up the filter for certain
* coordinate representations, falling back to the generic method for
* unrecognized and/or unoptimized coordinate representations.
*
* There are three sets of meta-data describing portions of a
* SpecialCoordinatesImages. These are "Region" objects that define a portion of
* an image via a starting index for the image array and a size. The ivar
* LargestPossibleRegion defines the size and starting index of the image
* dataset. The entire image dataset, however, need not be resident in memory.
* The region of the image that is resident in memory is defined by the
* "BufferedRegion". The Buffer is a contiguous block of memory. The third set
* of meta-data defines a region of interest, called the "RequestedRegion". The
* RequestedRegion is used by the pipeline execution model to define what a
* filter is requested to produce.
*
* [RegionIndex, RegionSize] C [BufferIndex, BufferSize]
* C [ImageIndex, ImageSize]
*
* Pixels can be accessed direcly using the SetPixel() and GetPixel()
* methods or can be accessed via iterators. Begin() creates
* an iterator that can walk a specified region of a buffer.
*
* The pixel type may be one of the native types; a Insight-defined
* class type such as Vector; or a user-defined type. Note that
* depending on the type of pixel that you use, the process objects
* (i.e., those filters processing data objects) may not operate on
* the image and/or pixel type. This becomes apparent at compile-time
* because operator overloading (for the pixel type) is not supported.
*
* The data in an image is arranged in a 1D array as [][][][slice][row][col]
* with the column index varying most rapidly. The Index type reverses
* the order so that with Index[0] = col, Index[1] = row, Index[2] = slice,
* ...
*
* \sa ImageContainerInterface
* \sa Image
*
* \ingroup ImageObjects
* \ingroup ITKCommon
*/
template< typename TPixel, unsigned int VImageDimension = 2 >
class SpecialCoordinatesImage:public ImageBase< VImageDimension >
{
public:
/** Standard class typedefs */
typedef SpecialCoordinatesImage Self;
typedef ImageBase< VImageDimension > Superclass;
typedef SmartPointer< Self > Pointer;
typedef SmartPointer< const Self > ConstPointer;
typedef WeakPointer< const Self > ConstWeakPointer;
/** Method for creation through the object factory. */
itkNewMacro(Self);
/** Run-time type information (and related methods). */
itkTypeMacro(SpecialCoordinatesImage, ImageBase);
/** Pixel typedef support. Used to declare pixel type in filters
* or other operations. */
typedef TPixel PixelType;
/** Typedef alias for PixelType */
typedef TPixel ValueType;
/** Internal Pixel representation. Used to maintain a uniform API
* with Image Adaptors and allow to keep a particular internal
* representation of data while showing a different external
* representation. */
typedef TPixel InternalPixelType;
typedef PixelType IOPixelType;
/** Accessor type that convert data between internal and external
* representations. */
typedef DefaultPixelAccessor< PixelType > AccessorType;
/** Accessor functor to choose between accessors: DefaultPixelAccessor for
* the Image, and DefaultVectorPixelAccessor for the vector image. The
* functor provides a generic API between the two accessors. */
typedef DefaultPixelAccessorFunctor< Self > AccessorFunctorType;
/** Dimension of the image. This constant is used by functions that are
* templated over image type (as opposed to being templated over pixel type
* and dimension) when they need compile time access to the dimension of
* the image. */
itkStaticConstMacro(ImageDimension, unsigned int, VImageDimension);
/** Index typedef support. An index is used to access pixel values. */
typedef typename Superclass::IndexType IndexType;
/** Offset typedef support. An offset is used to access pixel values. */
typedef typename Superclass::OffsetType OffsetType;
/** Size typedef support. A size is used to define region bounds. */
typedef typename Superclass::SizeType SizeType;
/** Container used to store pixels in the image. */
typedef ImportImageContainer< SizeValueType, PixelType > PixelContainer;
/** Region typedef support. A region is used to specify a subset of an image.
*/
typedef typename Superclass::RegionType RegionType;
/** Spacing typedef support. Spacing holds the "fake" size of a pixel, making
* each pixel look like a 1 unit hyper-cube to filters that were designed for
* normal images and that therefore use m_Spacing. The spacing is the
* geometric distance between image samples. */
typedef typename Superclass::SpacingType SpacingType;
/** Origin typedef support. The origin is the "fake" geometric coordinates
* of the index (0,0). Also for use w/ filters designed for normal images. */
typedef typename Superclass::PointType PointType;
/** A pointer to the pixel container. */
typedef typename PixelContainer::Pointer PixelContainerPointer;
typedef typename PixelContainer::ConstPointer PixelContainerConstPointer;
/** Allocate the image memory. The size of the image must
* already be set, e.g. by calling SetRegions(). */
void Allocate();
/** Restore the data object to its initial state. This means releasing
* memory. */
virtual void Initialize();
/** Fill the image buffer with a value. Be sure to call Allocate()
* first. */
void FillBuffer(const TPixel & value);
/** \brief Set a pixel value.
*
* Allocate() needs to have been called first -- for efficiency,
* this function does not check that the image has actually been
* allocated yet. */
void SetPixel(const IndexType & index, const TPixel & value)
{
OffsetValueType offset = this->ComputeOffset(index);
( *m_Buffer )[offset] = value;
}
/** \brief Get a pixel (read only version).
*
* For efficiency, this function does not check that the
* image has actually been allocated yet. */
const TPixel & GetPixel(const IndexType & index) const
{
OffsetValueType offset = this->ComputeOffset(index);
return ( ( *m_Buffer )[offset] );
}
/** \brief Get a reference to a pixel (e.g. for editing).
*
* For efficiency, this function does not check that the
* image has actually been allocated yet. */
TPixel & GetPixel(const IndexType & index)
{
OffsetValueType offset = this->ComputeOffset(index);
return ( ( *m_Buffer )[offset] );
}
/** \brief Access a pixel. This version can be an lvalue.
*
* For efficiency, this function does not check that the
* image has actually been allocated yet. */
TPixel & operator[](const IndexType & index) { return this->GetPixel(index); }
/** \brief Access a pixel. This version can only be an rvalue.
*
* For efficiency, this function does not check that the
* image has actually been allocated yet. */
const TPixel & operator[](const IndexType & index) const { return this->GetPixel(index); }
/** Return a pointer to the beginning of the buffer. This is used by
* the image iterator class. */
TPixel * GetBufferPointer() { return m_Buffer ? m_Buffer->GetBufferPointer() : 0; }
const TPixel * GetBufferPointer() const { return m_Buffer ? m_Buffer->GetBufferPointer() : 0; }
/** Return a pointer to the container. */
PixelContainer * GetPixelContainer() { return m_Buffer.GetPointer(); }
const PixelContainer * GetPixelContainer() const { return m_Buffer.GetPointer(); }
/** Set the container to use. Note that this does not cause the
* DataObject to be modified. */
void SetPixelContainer(PixelContainer *container);
/** Return the Pixel Accessor object */
AccessorType GetPixelAccessor(void) { return AccessorType(); }
/** Return the Pixel Accesor object */
const AccessorType GetPixelAccessor(void) const { return AccessorType(); }
/** These functions do NOTHING! They exist only to not break the pipeline.
* It is vital that the user specify any and all physical-spacing parameters
* to the output of a normal filter which is being used to output a
* special-coordinates image. Filters designed to produce a particular kind
* of special-coordinates image should do this automatically. */
virtual void SetSpacing(const SpacingType &) {}
virtual void SetSpacing(const double[VImageDimension]) {}
virtual void SetSpacing(const float[VImageDimension]) {}
virtual void SetOrigin(const PointType) {}
virtual void SetOrigin(const double[VImageDimension]) {}
virtual void SetOrigin(const float[VImageDimension]) {}
/* It is ILLEGAL in C++ to make a templated member function virtual! */
/* Therefore, we must just let templates take care of everything. */
/*
template<typename TCoordRep>
virtual bool TransformPhysicalPointToContinuousIndex(
const Point<TCoordRep, VImageDimension>& point,
ContinuousIndex<TCoordRep, VImageDimension>& index ) const = 0;
template<typename TCoordRep>
virtual bool TransformPhysicalPointToIndex(
const Point<TCoordRep, VImageDimension>&,
IndexType & index ) const = 0;
template<typename TCoordRep>
virtual void TransformContinuousIndexToPhysicalPoint(
const ContinuousIndex<TCoordRep, VImageDimension>& index,
Point<TCoordRep, VImageDimension>& point ) const = 0;
template<typename TCoordRep>
virtual void TransformIndexToPhysicalPoint(
const IndexType & index,
Point<TCoordRep, VImageDimension>& point ) const = 0;
*/
protected:
SpecialCoordinatesImage();
void PrintSelf(std::ostream & os, Indent indent) const;
virtual ~SpecialCoordinatesImage() {}
private:
SpecialCoordinatesImage(const Self &); //purposely not implemented
void operator=(const Self &); //purposely not implemented
/** Memory for the current buffer. */
PixelContainerPointer m_Buffer;
};
} // end namespace itk
#ifndef ITK_MANUAL_INSTANTIATION
#include "itkSpecialCoordinatesImage.hxx"
#endif
#endif
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