/usr/include/ITK-4.5/itkConstNeighborhoodIteratorWithOnlyIndex.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 __itkConstNeighborhoodIteratorWithOnlyIndex_h
#define __itkConstNeighborhoodIteratorWithOnlyIndex_h
#include <vector>
#include <cstring>
#include <iostream>
#include "itkImage.h"
#include "itkNeighborhood.h"
#include "itkMacro.h"
namespace itk
{
/** \class ConstNeighborhoodIteratorWithOnlyIndex
*
* \brief Index-only version of ConstNeighborhoodIterator, defining iteration of a local
* N-dimensional neighborhood of indecies across an itk::Image or itk::ImageBase.
*
* ConstNeighborhoodIteratorWithOnlyIndex implements the index-only methods of
* NeighborhoodIterator. No image data is accessed, so this iterator can be used
* with type itk::ImageBase. It serves as a base class from which other iterators
* can be derived. See NeighborhoodIterator for more complete information.
*
* The parent class itk::Neighborhood is declared with 'char' as its first
* template parameter, because the pixel type is not used in this class.
*
* \ingroup ImageIterators
*
* Other index-only iterators:
*
* \sa ImageConstIteratorWithOnlyIndex
* \sa ConstNeighborhoodIteratorWithOnlyIndex
*
* Other iterators:
*
* \sa ImageIterator \sa NeighborhoodIterator
*
* \sa Neighborhood
*
* \ingroup ITKCommon
*
*/
template< typename TImage >
class ConstNeighborhoodIteratorWithOnlyIndex:
public Neighborhood< char, TImage::ImageDimension >
{
public:
/** Type used to refer to space dimensions */
typedef unsigned int DimensionValueType;
/** Save the image dimension. */
itkStaticConstMacro(Dimension, DimensionValueType, TImage::ImageDimension);
typedef char DummyNeighborhoodPixelType;
/** Standard class typedefs. */
typedef ConstNeighborhoodIteratorWithOnlyIndex Self;
typedef Neighborhood< DummyNeighborhoodPixelType, itkGetStaticConstMacro(Dimension) > Superclass;
/** Inherit typedefs from superclass */
typedef typename Superclass::OffsetType OffsetType;
typedef typename Superclass::RadiusType RadiusType;
typedef typename Superclass::SizeType SizeType;
typedef typename Superclass::Iterator Iterator;
typedef typename Superclass::ConstIterator ConstIterator;
/** Typedef support for common objects */
typedef TImage ImageType;
typedef typename TImage::RegionType RegionType;
typedef Index< itkGetStaticConstMacro(Dimension) > IndexType;
typedef Neighborhood< DummyNeighborhoodPixelType, itkGetStaticConstMacro(Dimension) > NeighborhoodType;
/** Type used to refer to the elements in the list of neighbor pixels. */
typedef typename NeighborhoodType::NeighborIndexType NeighborIndexType;
/** Default constructor */
ConstNeighborhoodIteratorWithOnlyIndex();
/** Virtual destructor */
virtual ~ConstNeighborhoodIteratorWithOnlyIndex() {}
/** Copy constructor */
ConstNeighborhoodIteratorWithOnlyIndex(const ConstNeighborhoodIteratorWithOnlyIndex &);
/** Constructor which establishes the region size, neighborhood, and image
* over which to walk. */
ConstNeighborhoodIteratorWithOnlyIndex(const SizeType & radius, const ImageType *ptr, const RegionType & region);
/** Assignment operator */
Self & operator=(const Self & orig);
/** Standard itk print method */
virtual void PrintSelf(std::ostream &, Indent) const;
/** Computes the internal, N-d offset of a pixel array position n from
* (0,0, ..., 0) in the "upper-left" corner of the neighborhood. */
OffsetType ComputeInternalIndex(NeighborIndexType n) const;
/** Returns the array of upper loop bounds used during iteration. */
IndexType GetBound() const
{
return m_Bound;
}
/** Returns the loop bound used to define the edge of a single
* dimension in the itk::Image region. */
IndexValueType GetBound(NeighborIndexType n) const
{
return m_Bound[n];
}
/** Returns a smartpointer to the image on which this iterator operates. */
const ImageType * GetImagePointer(void) const
{
return m_ConstImage;
}
/** Returns the N-dimensional index of the iterator's position in
* the image. */
virtual IndexType GetIndex(void) const
{
return m_Loop;
}
/** Returns the image index for neighbor pixel at offset o from the center of
the neighborhood. */
virtual IndexType GetIndex(const OffsetType & o) const
{
return ( this->GetIndex() + o );
}
/** Returns the image index for neighbor pixel at index i in the
neighborhood. */
virtual IndexType GetIndex(NeighborIndexType i) const
{
return ( this->GetIndex() + this->GetOffset(i) );
}
/** Returns the region of iteration. */
RegionType GetRegion() const
{
return m_Region;
}
/** Returns the N-dimensional starting index of the iterator's position on
* the image. */
IndexType GetBeginIndex() const
{
return m_BeginIndex;
}
/** Returns a bounding box for the region spanned by this neighborhood
represented by an itk::ImageRegion */
RegionType GetBoundingBoxAsImageRegion() const;
/** Virtual method for rewinding the iterator to its beginning image index.
* This is useful for writing functions which take neighborhood iterators
* of arbitrary type and must use virtual functions. */
virtual void GoToBegin();
/** Virtual method for sending the iterator to one past the last index in its
* region. */
virtual void GoToEnd();
/** Initializes the iterator to walk a particular image and a particular
* region of that image. */
virtual void Initialize(const SizeType & radius, const ImageType *ptr, const RegionType & region);
/** Virtual method for determining whether the iterator is at the
* beginning of its iteration region. */
virtual bool IsAtBegin() const
{
return ( this->GetIndex() == m_BeginIndex );
}
/** Virtual method for determining whether the iterator has reached the
* end of its iteration region. */
virtual bool IsAtEnd() const;
/** Increments the pointers in the ConstNeighborhoodIteratorWithOnlyIndex,
* wraps across boundaries automatically, accounting for
* the disparity in the buffer size and the region size of the
* image. */
Self & operator++();
/** Decrements the pointers in the ConstNeighborhoodIteratorWithOnlyIndex,
* wraps across boundaries automatically, accounting for
* the disparity in the buffer size and the region size of the
* image. */
Self & operator--();
/** Returns a boolean == comparison of the current location/index
* of two ConstNeighborhoodIteratorWithOnlyIndexs of like
* dimensionality. The radii of the iterators are ignored. */
bool operator==(const Self & it) const
{
return it.GetIndex() == this->GetIndex();
}
/** Returns a boolean != comparison of the current location/index
* of two ConstNeighborhoodIteratorWithOnlyIndexs of like
* dimensionality. The radii of the iterators are ignored. */
bool operator!=(const Self & it) const
{
return it.GetIndex() != this->GetIndex();
}
/** Returns a boolean < comparison of the current location/index of
* two ConstNeighborhoodIteratorWithOnlyIndexs
* of like dimensionality. The radii of the iterators are ignored.
* The comparison progresses by dimension starting from the
* greatest. */
bool operator<(const Self & it) const;
/** Returns a boolean <= comparison of the current location/index of
* two ConstNeighborhoodIteratorWithOnlyIndexs
* of like dimensionality. The radii of the iterators are ignored.
* The comparison progresses by dimension starting from the
* greatest. */
bool operator<=(const Self & it) const;
/** Returns a boolean > comparison of the current location/index of
* two ConstNeighborhoodIteratorWithOnlyIndexs
* of like dimensionality. The radii of the iterators are ignored.
* The comparison progresses by dimension starting from the
* greatest. */
bool operator>(const Self & it) const;
/** Returns a boolean >= comparison of the current location/index of
* two ConstNeighborhoodIteratorWithOnlyIndexs
* of like dimensionality. The radii of the iterators are ignored.
* The comparison progresses by dimension starting from the
* greatest. */
bool operator>=(const Self & it) const;
/** This method positions the iterator at an indexed location in the
* image. SetLocation should _NOT_ be used to update the position of the
* iterator during iteration, only for initializing it to a position
* prior to iteration. This method is not optimized for speed. */
void SetLocation(const IndexType & position)
{
this->SetLoop(position);
}
/** Addition of an itk::Offset. Note that this method does not do any bounds
* checking. Adding an offset that moves the iterator out of its assigned
* region will produce undefined results. */
Self & operator+=(const OffsetType &);
/** Subtraction of an itk::Offset. Note that this method does not do any
* bounds checking. Subtracting an offset that moves the iterator out
* of its assigned region will produce undefined results. */
Self & operator-=(const OffsetType &);
/** Distance between two iterators */
OffsetType operator-(const Self & b)
{
return m_Loop - b.m_Loop;
}
/** Returns false if the iterator overlaps region boundaries, true
* otherwise. Also updates an internal boolean array indicating
* which of the iterator's faces are out of bounds. */
bool InBounds() const;
/** Returns true if the neighborhood index is within region boundaries,
* false otherwise.
* If false, then internalIndex and offset are calculated. Otherwise their
* values are left unchanged.
* Also updates an internal boolean array indicating
* which of the iterator's faces are out of bounds.
* \param n - linear neighborhood index.
* \param internalIndex - calculated for index \c n only when the neighborhood is not
* completely within region boundaries.
* \param offset - per-dimension offsets for index n to nearest boundary index,
* calculate only when the neighborhood is not completely within region boundaries. */
bool IndexInBounds(NeighborIndexType n, OffsetType & internalIndex, OffsetType & offset ) const;
/** */
void NeedToUseBoundaryConditionOn()
{
this->SetNeedToUseBoundaryCondition(true);
}
void NeedToUseBoundaryConditionOff()
{
this->SetNeedToUseBoundaryCondition(false);
}
void SetNeedToUseBoundaryCondition(bool b)
{
m_NeedToUseBoundaryCondition = b;
}
bool GetNeedToUseBoundaryCondition() const
{
return m_NeedToUseBoundaryCondition;
}
protected:
/** Default method for setting the coordinate location of the iterator.
* Loop indices correspond to the actual Image region index. */
virtual void SetLoop(const IndexType & p)
{
m_Loop = p; m_IsInBoundsValid = false;
}
/** Virtual method for setting internal loop boundaries. This
* method must be defined in each subclass because
* each subclass may handle loop boundaries differently. */
virtual void SetBound(const SizeType &);
/** Default method for setting the first index of the
* iteration region. */
virtual void SetBeginIndex(const IndexType & start)
{
m_BeginIndex = start;
}
/** Default method for setting the last index of the
* iteration region. */
virtual void SetEndIndex();
/** The starting index for iteration within the itk::Image region
* on which this ConstNeighborhoodIteratorWithOnlyIndex is defined. */
IndexType m_BeginIndex;
/** An array of upper looping boundaries used during iteration. */
IndexType m_Bound;
/** The image on which iteration is defined. */
typename ImageType::ConstPointer m_ConstImage;
/** The end index for iteration within the itk::Image region
* on which this ConstNeighborhoodIteratorWithOnlyIndex is defined. */
IndexType m_EndIndex;
/** Array of loop counters used during iteration. */
IndexType m_Loop;
/** The region over which iteration is defined. */
RegionType m_Region;
/** Denotes which of the iterators dimensional sides spill outside
* region of interest boundaries. */
mutable bool m_InBounds[Dimension];
/** Denotes if iterator is entirely within bounds */
mutable bool m_IsInBounds;
/** Is the m_InBounds and m_IsInBounds variables up to date? Set to
* false whenever the iterator is repositioned. Set to true within
* InBounds(). */
mutable bool m_IsInBoundsValid;
/** Lower threshold of in-bounds loop counter values. */
IndexType m_InnerBoundsLow;
/** Upper threshold of in-bounds loop counter values. */
IndexType m_InnerBoundsHigh;
/** Does the specified region need to worry about boundary conditions? */
bool m_NeedToUseBoundaryCondition;
};
template< typename TImage >
inline ConstNeighborhoodIteratorWithOnlyIndex< TImage >
operator+(const ConstNeighborhoodIteratorWithOnlyIndex< TImage > & it,
const typename ConstNeighborhoodIteratorWithOnlyIndex< TImage >
::OffsetType & ind)
{
ConstNeighborhoodIteratorWithOnlyIndex< TImage > ret;
ret = it;
ret += ind;
return ret;
}
template< typename TImage >
inline ConstNeighborhoodIteratorWithOnlyIndex< TImage >
operator+(const typename ConstNeighborhoodIteratorWithOnlyIndex< TImage >
::OffsetType & ind,
const ConstNeighborhoodIteratorWithOnlyIndex< TImage > & it)
{ return ( it + ind ); }
template< typename TImage >
inline ConstNeighborhoodIteratorWithOnlyIndex< TImage >
operator-(const ConstNeighborhoodIteratorWithOnlyIndex< TImage > & it,
const typename ConstNeighborhoodIteratorWithOnlyIndex< TImage >
::OffsetType & ind)
{
ConstNeighborhoodIteratorWithOnlyIndex< TImage > ret;
ret = it;
ret -= ind;
return ret;
}
} // namespace itk
#ifndef ITK_MANUAL_INSTANTIATION
#include "itkConstNeighborhoodIteratorWithOnlyIndex.hxx"
#endif
#endif
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