/usr/include/ITK-4.5/itkImageRegionReverseConstIterator.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 __itkImageRegionReverseConstIterator_h
#define __itkImageRegionReverseConstIterator_h
#include "itkImageReverseConstIterator.h"
#include "itkImageRegionIterator.h"
namespace itk
{
/**
* \class ImageRegionReverseConstIterator
* \brief A multi-dimensional image iterator designed to walk a specified image
* region in reverse.
*
* ImageRegionReverseConstIterator is a templated class to represent a
* multi-dimensional iterator. ImageRegionReverseConstIterator is templated
* over the dimension of the image and the data type of the
* image. ImageRegionReverseConstIterator is constrained to walk only
* within the specified region.
*
* ImageRegionReverseConstIterator is a multi-dimensional iterator,
* requiring more information be specified before the iterator can be
* used than conventional iterators. Whereas the std::vector::iterator
* from the STL only needs to be passed a pointer to establish the
* iterator, the multi-dimensional image iterator needs a pointer, the
* size of the buffer, the size of the region, the start index of the
* buffer, and the start index of the region. To gain access to this
* information, ImageRegionReverseConstIterator holds a reference to the
* image over which it is traversing.
*
* ImageRegionReverseConstIterator assumes a particular layout of the image
* data. The is arranged in a 1D array as if it were
* [][][][slice][row][col] with Index[0] = col, Index[1] = row,
* Index[2] = slice, etc.
*
* operator++ provides a simple syntax for walking around a region of
* a multidimensional image. For a reverse iterator, operator++ moves
* backwards through the region. operator++ iterates across a row,
* constraining the movement to within a region of image. When the
* iterator reaches the boundary of the region along a row, the
* iterator automatically wraps to the previous row, starting at the last
* pixel in the row that is part of the region. This allows for simple
* processing loops of the form:
*
* \code
*
* it.GoToBegin();
* for (; !it.IsAtEnd(); ++it)
* {
* std::cout << it.Value() << std::endl;
* }
*
* \endcode
*
* \par MORE INFORMATION
* For a complete description of the ITK Image Iterators and their API, please
* see the Iterators chapter in the ITK Software Guide. The ITK Software Guide
* is available in print and as a free .pdf download from http://www.itk.org.
*
* \ingroup ImageIterators
*
* \sa ImageConstIterator \sa ConditionalConstIterator
* \sa ConstNeighborhoodIterator \sa ConstShapedNeighborhoodIterator
* \sa ConstSliceIterator \sa CorrespondenceDataStructureIterator
* \sa FloodFilledFunctionConditionalConstIterator
* \sa FloodFilledImageFunctionConditionalConstIterator
* \sa FloodFilledImageFunctionConditionalIterator
* \sa FloodFilledSpatialFunctionConditionalConstIterator
* \sa FloodFilledSpatialFunctionConditionalIterator
* \sa ImageConstIterator \sa ImageConstIteratorWithIndex
* \sa ImageIterator \sa ImageIteratorWithIndex
* \sa ImageLinearConstIteratorWithIndex \sa ImageLinearIteratorWithIndex
* \sa ImageRandomConstIteratorWithIndex \sa ImageRandomIteratorWithIndex
* \sa ImageRegionConstIterator \sa ImageRegionConstIteratorWithIndex
* \sa ImageRegionExclusionConstIteratorWithIndex
* \sa ImageRegionExclusionIteratorWithIndex
* \sa ImageRegionIterator \sa ImageRegionIteratorWithIndex
* \sa ImageRegionReverseConstIterator \sa ImageRegionReverseIterator
* \sa ImageReverseConstIterator \sa ImageReverseIterator
* \sa ImageSliceConstIteratorWithIndex \sa ImageSliceIteratorWithIndex
* \sa NeighborhoodIterator \sa PathConstIterator \sa PathIterator
* \sa ShapedNeighborhoodIterator \sa SliceIterator
* \sa ImageConstIteratorWithIndex
* \ingroup ITKCommon
*/
template< typename TImage >
class ImageRegionReverseConstIterator:public ImageReverseConstIterator< TImage >
{
public:
/** Standard class typedefs. */
typedef ImageRegionReverseConstIterator Self;
typedef ImageReverseConstIterator< TImage > Superclass;
/** Dimension of the image the iterator walks. This enum is needed so that
* functions that are templated over image iterator type (as opposed to
* being templated over pixel type and dimension) can have compile time
* access to the dimension of the image that the iterator walks. */
enum { ImageIteratorDimension = Superclass::ImageIteratorDimension };
/** Index typedef support. While this was already typdef'ed in the superclass
* it needs to be redone here for this subclass to compile properly with gcc. */
typedef typename Superclass::IndexType IndexType;
/** Size typedef support. While this was already typdef'ed in the superclass
* it needs to be redone here for this subclass to compile properly with gcc. */
typedef typename Superclass::SizeType SizeType;
/** Offset typedef support. While this was already typdef'ed in the superclass
* it needs to be redone here for this subclass to compile properly with gcc. */
typedef typename Superclass::OffsetType OffsetType;
/** Region typedef support. */
typedef typename Superclass::RegionType RegionType;
/** Image typedef support. While this was already typdef'ed in the superclass
* it needs to be redone here for this subclass to compile properly with gcc. */
typedef typename Superclass::ImageType ImageType;
/** PixelContainer typedef support. Used to refer to the container for
* the pixel data. While this was already typdef'ed in the superclass
* it needs to be redone here for this subclass to compile properly with gcc. */
typedef typename Superclass::PixelContainer PixelContainer;
typedef typename PixelContainer::Pointer PixelContainerPointer;
/** Internal Pixel Type */
typedef typename Superclass::InternalPixelType InternalPixelType;
/** External Pixel Type */
typedef typename Superclass::PixelType PixelType;
/** Accessor type that convert data between internal and external
* representations. */
typedef typename Superclass::AccessorType AccessorType;
/** Run-time type information (and related methods). */
itkTypeMacro(ImageRegionReverseConstIterator, ImageReverseConstIterator);
/** Default constructor. Needed since we provide a cast constructor. */
ImageRegionReverseConstIterator():Superclass()
{
m_SpanBeginOffset = 0;
m_SpanEndOffset = 0;
}
/** Constructor establishes an iterator to walk a particular image and a
* particular region of that image. */
ImageRegionReverseConstIterator(const ImageType *ptr, const RegionType & region):
Superclass(ptr, region)
{
m_SpanBeginOffset = this->m_BeginOffset;
m_SpanEndOffset = this->m_BeginOffset - static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** Constructor that can be used to cast from an ImageIterator to an
* ImageRegionReverseConstIterator. Many routines return an ImageIterator
* but for a particular task, you may want an
* ImageRegionReverseConstIterator. Rather than provide overloaded APIs
* that return different types of Iterators, itk returns
* ImageIterators and uses constructors to cast from an
* ImageIterator to a ImageRegionReverseConstIterator. */
ImageRegionReverseConstIterator(const ImageConstIterator< TImage > & it):Superclass(it)
{
IndexType ind = this->GetIndex();
m_SpanBeginOffset = this->m_Offset + static_cast< OffsetValueType >( this->m_Region.GetSize()[0] )
- ( ind[0] - this->m_Region.GetIndex()[0] );
m_SpanEndOffset = m_SpanBeginOffset - static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** Constructor that takes in a reverse image iterator. This can be used
* to cast between the various types of reverse image iterators. */
ImageRegionReverseConstIterator(const ImageReverseConstIterator< TImage > & it):Superclass(it)
{
IndexType ind = this->GetIndex();
m_SpanBeginOffset = this->m_Offset + static_cast< OffsetValueType >( this->m_Region.GetSize()[0] )
- ( ind[0] - this->m_Region.GetIndex()[0] );
m_SpanEndOffset = m_SpanBeginOffset - static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** Constructor that takes in an image region iterator. This can be used
* to cast between the various types of reverse image iterators. */
ImageRegionReverseConstIterator(const ImageRegionIterator< TImage > & it):Superclass(it)
{
IndexType ind = this->GetIndex();
m_SpanBeginOffset = this->m_Offset + static_cast< OffsetValueType >( this->m_Region.GetSize()[0] )
- ( ind[0] - this->m_Region.GetIndex()[0] );
m_SpanEndOffset = m_SpanBeginOffset - static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** Move an iterator to the beginning of the region. "Begin" for a reverse
* iterator is the last pixel in the region. */
void GoToBegin()
{
Superclass::GoToBegin();
// reset the span offsets
m_SpanBeginOffset = this->m_BeginOffset;
m_SpanEndOffset = this->m_BeginOffset - static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** Move an iterator to the end of the region. "End" for a reverse iterator
* is defined as one pixel before the first pixel in the region. */
void GoToEnd()
{
Superclass::GoToEnd();
// reset the span offsets
m_SpanEndOffset = this->m_EndOffset;
m_SpanBeginOffset = m_SpanEndOffset + static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** Return an iterator for the beginning of the region. "Begin" for a reverse
* iterator is the last pixel in the region.
* \deprecated Use GoToBegin() instead */
itkLegacyMacro(Self Begin(void) const);
/** Return an iterator for the end of the region. "End" for a
* reverse iterator is one pixel before the first pixel in the
* region.
* \deprecated Use GoToEnd() instead */
itkLegacyMacro(Self End(void) const);
/** Set the index. No bounds checking is performed. This is overridden
* from the parent because we have an extra ivar.
* \sa GetIndex */
void SetIndex(const IndexType & ind)
{
Superclass::SetIndex(ind);
m_SpanBeginOffset = this->m_Offset + static_cast< OffsetValueType >( this->m_Region.GetSize()[0] )
- ( ind[0] - this->m_Region.GetIndex()[0] );
m_SpanEndOffset = m_SpanBeginOffset - static_cast< OffsetValueType >( this->m_Region.GetSize()[0] );
}
/** iterator's index. For a reverse iterator, this moves backwards
* through the region. This operator will constrain the iterator
* within the region (i.e. the iterator will automatically wrap from
* the start of the row of the region to the end of the previous row
* of the region) up until the iterator tries to moves before the
* first pixel of the region. Here, the iterator will be set to be
* one pixel before the start of the region.
* \sa operator++(int). */
Self &
operator++()
{
if ( --this->m_Offset <= m_SpanEndOffset )
{
// We have past the beginning of the span (row), need to wrap around.
// First move forward one pixel, because we are going to use a different
// algorithm to compute the next pixel
this->m_Offset++;
// Get the index of the first pixel on the span (row)
typename ImageConstIterator< TImage >::IndexType
ind = this->m_Image->ComputeIndex( static_cast< OffsetValueType >( this->m_Offset ) );
const typename ImageConstIterator< TImage >::IndexType &
startIndex = this->m_Region.GetIndex();
const typename ImageConstIterator< TImage >::SizeType &
size = this->m_Region.GetSize();
// Deccrement along a row, then wrap at the beginning of the region row.
bool done;
unsigned int dim;
// Check to see if we are past the first pixel in the region
// Note that --ind[0] moves to the previous pixel along the row.
done = ( --ind[0] == startIndex[0] - 1 );
for ( unsigned int i = 1; done && i < ImageIteratorDimension; i++ )
{
done = ( ind[i] == startIndex[i] );
}
// if the iterator is outside the region (but not past region begin) then
// we need to wrap around the region
dim = 0;
if ( !done )
{
while ( ( dim < ImageIteratorDimension - 1 )
&& ( ind[dim] < startIndex[dim] ) )
{
ind[dim] = startIndex[dim] + static_cast< OffsetValueType >( size[dim] ) - 1;
ind[++dim]--;
}
}
this->m_Offset = this->m_Image->ComputeOffset(ind);
m_SpanBeginOffset = this->m_Offset;
m_SpanEndOffset = m_SpanBeginOffset - static_cast< OffsetValueType >( size[0] );
}
return *this;
}
/** Decrement (prefix) the fastest moving dimension of the iterator's index.
* For a reverse iterator, this moves forward through the region.
* This operator will constrain the iterator within the region (i.e. the
* iterator will automatically wrap from the end of the row of the region
* to the start of the next row of the region) up until the iterator
* tries to moves past the last pixel of the region. Here, the iterator
* will be set to be one pixel past the end of the region.
* \sa operator--(int) */
Self & operator--()
{
if ( ++this->m_Offset >= m_SpanBeginOffset )
{
// We have reached the end of the span (row), need to wrap around.
// First back up one pixel, because we are going to use a different
// algorithm to compute the next pixel
--this->m_Offset;
// Get the index of the last pixel on the span (row)
typename ImageConstIterator< TImage >::IndexType
ind = this->m_Image->ComputeIndex( static_cast< OffsetValueType >( this->m_Offset ) );
const typename ImageIterator< TImage >::IndexType &
startIndex = this->m_Region.GetIndex();
const typename ImageIterator< TImage >::SizeType &
size = this->m_Region.GetSize();
// Increment along a row, then wrap at the end of the region row.
bool done;
unsigned int dim;
// Check to see if we are past the last pixel in the region
// Note that ++ind[0] moves to the next pixel along the row.
done = ( ++ind[0] == startIndex[0] + static_cast< OffsetValueType >( size[0] ) );
for ( unsigned int i = 1; done && i < ImageIteratorDimension; i++ )
{
done = ( ind[i] == startIndex[i] + static_cast< OffsetValueType >( size[i] ) - 1 );
}
// if the iterator is outside the region (but not past region end) then
// we need to wrap around the region
dim = 0;
if ( !done )
{
while ( ( dim < ImageIteratorDimension - 1 )
&& ( ind[dim] > startIndex[dim] + static_cast< OffsetValueType >( size[dim] ) - 1 ) )
{
ind[dim] = startIndex[dim];
ind[++dim]++;
}
}
this->m_Offset = this->m_Image->ComputeOffset(ind);
m_SpanBeginOffset = this->m_Offset;
m_SpanEndOffset = this->m_Offset - static_cast< OffsetValueType >( size[0] );
}
return *this;
}
protected:
SizeValueType m_SpanBeginOffset; // offset to last pixel in the row
SizeValueType m_SpanEndOffset; // offset to one pixel before the row
};
} // end namespace itk
#ifndef ITK_MANUAL_INSTANTIATION
#include "itkImageRegionReverseConstIterator.hxx"
#endif
#endif
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