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itk::PhasedArray3DSpecialCoordinatesImage< TPixel > Class Template Reference [Image Representation Objects]

`#include <itkPhasedArray3DSpecialCoordinatesImage.h>`

Inheritance diagram for itk::PhasedArray3DSpecialCoordinatesImage< TPixel >:

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Collaboration diagram for itk::PhasedArray3DSpecialCoordinatesImage< TPixel >:

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List of all members.

Detailed Description

template<class TPixel> class itk::PhasedArray3DSpecialCoordinatesImage< TPixel >

Templated 3D nonrectilinear-coordinate image class for phased-array "range" images.

y-axis <--------------------+ |\ / | \ `~-| \ / | \ ele- | \ / vation | \ projection | v x-axis to y-z plane -> o | v z-axis

In a phased array "range" image, a point in space is represented by the angle between its projection onto the x-z plane and the z-axis (the azimuth coordinate), the angle between its projection onto the y-z plane and the z-axis (the elevation coordinate), and by its distance from the origin (the radius). See the diagram above, which illustrates elevation.

The equations form performing the conversion from Cartesian coordinates to 3D phased array coordinates are as follows:

azimuth = arctan(x/y) elevation = arctan(y/z) radius = vcl_sqrt(x^2 + y^2 + z^2)

The reversed transforms are:

z = radius / vcl_sqrt(1 + (tan(azimuth))^2 + (tan(elevation))^2 ); x = z * vcl_tan(azimuth) y = z * vcl_tan(elevation)

PhasedArray3DSpecialCoordinatesImages are templated over a pixel type and follow the SpecialCoordinatesImage interface. The data in an image is arranged in a 1D array as [radius-index][elevation-index][azimuth-index] with azimuth-index varying most rapidly. The Index type reverses the order so that Index[0] = azimuth-index, Index[1] = elevation-index, and Index[2] = radius-index.

Azimuth is discretized into m_AzimuthAngularSeparation intervals per angular voxel, the most negative azimuth interval containing data is then mapped to azimuth-index=0, and the largest azimuth interval containing data is then mapped to azimuth-index=( number of samples along azimuth axis - 1 ). Elevation is discretized in the same manner. This way, the mapping to Cartesian space is symmetric about the z axis such that the line defined by azimuth/2,elevation/2 = z-axis. Radius is discretized into m_RadiusSampleSize units per angular voxel. The smallest range interval containing data is then mapped to radius-index=0, such that radius = m_FirstSampleDistance + (radius-index * m_RadiusSampleSize).

SpecialCoordinatesImage

Definition at line 91 of file itkPhasedArray3DSpecialCoordinatesImage.h.
virtual void SetAzimuthAngularSeparation (double _arg)
virtual void SetElevationAngularSeparation (double _arg)
virtual void SetFirstSampleDistance (double _arg)
template<class TCoordRep>
void TransformContinuousIndexToPhysicalPoint (const ContinuousIndex< TCoordRep, 3 > &index, Point< TCoordRep, 3 > &point) const
template<class TCoordRep>
void TransformIndexToPhysicalPoint (const IndexType &index, Point< TCoordRep, 3 > &point) const
template<class TCoordRep>
bool TransformPhysicalPointToIndex (const Point< TCoordRep, 3 > &point, IndexType &index) const
PhasedArray3DSpecialCoordinatesImage ()
void PrintSelf (std::ostream &os, Indent indent) const
virtual ~PhasedArray3DSpecialCoordinatesImage ()
static bool GetGlobalReleaseDataFlag ()
static void SetGlobalReleaseDataFlag (const bool val)
void GlobalReleaseDataFlagOff ()
void GlobalReleaseDataFlagOn ()

Public Types

typedef DefaultPixelAccessorFunctor<
Self
AccessorFunctorType
typedef DefaultPixelAccessor<
PixelType
AccessorType
typedef SmartPointer< const
Self
ConstPointer
typedef WeakPointer< const
Self
ConstWeakPointer
typedef Matrix< double, VImageDimension,
VImageDimension >
DirectionType
typedef Superclass::IndexType IndexType
typedef Superclass::IndexValueType IndexValueType
typedef TPixel InternalPixelType
typedef Superclass::IOPixelType IOPixelType
typedef Superclass::OffsetType OffsetType
typedef OffsetType::OffsetValueType OffsetValueType
typedef ImportImageContainer<
unsigned long, PixelType
PixelContainer
typedef PixelContainer::ConstPointer PixelContainerConstPointer
typedef PixelContainer::Pointer PixelContainerPointer
typedef TPixel PixelType
typedef SmartPointer< SelfPointer
typedef Superclass::PointType PointType
typedef Superclass::RegionType RegionType
typedef PhasedArray3DSpecialCoordinatesImage Self
typedef Superclass::SizeType SizeType
typedef SizeType::SizeValueType SizeValueType
typedef Superclass::SpacingType SpacingType
typedef SpecialCoordinatesImage<
TPixel, 3 >
Superclass
typedef TPixel ValueType

Public Member Functions

void Allocate ()
OffsetValueType ComputeOffset (const IndexType &ind) const
virtual void CopyInformation (const DataObject *data)
virtual LightObject::Pointer CreateAnother () const
void DataHasBeenGenerated ()
virtual void DebugOff () const
virtual void DebugOn () const
virtual void Delete ()
void DisconnectPipeline ()
void FillBuffer (const TPixel &value)
virtual const RegionTypeGetBufferedRegion () const
const TPixel * GetBufferPointer () const
TPixel * GetBufferPointer ()
CommandGetCommand (unsigned long tag)
bool GetDataReleased () const
bool GetDebug () const
virtual const DirectionTypeGetDirection ()
virtual const RegionTypeGetLargestPossibleRegion () const
virtual unsigned long GetMTime () const
virtual const char * GetNameOfClass () const
virtual const PointTypeGetOrigin ()
TPixel & GetPixel (const IndexType &index)
const TPixel & GetPixel (const IndexType &index) const
const AccessorType GetPixelAccessor (void) const
AccessorType GetPixelAccessor (void)
const PixelContainerGetPixelContainer () const
PixelContainerGetPixelContainer ()
virtual int GetReferenceCount () const
virtual const RegionTypeGetRequestedRegion () const
SmartPointerForwardReference<
ProcessObject
GetSource () const
unsigned int GetSourceOutputIndex () const
virtual const SpacingTypeGetSpacing ()
virtual unsigned long GetUpdateMTime () const
virtual void Graft (const DataObject *data)
bool HasObserver (const EventObject &event) const
virtual void Initialize ()
void InvokeEvent (const EventObject &) const
void InvokeEvent (const EventObject &)
itkStaticConstMacro (ImageDimension, unsigned int, VImageDimension)
itkStaticConstMacro (ImageDimension, unsigned int, 3)
virtual void Modified () const
const TPixel & operator[] (const IndexType &index) const
TPixel & operator[] (const IndexType &index)
virtual void PrepareForNewData ()
void Print (std::ostream &os, Indent indent=0) const
virtual void Register () const
void ReleaseData ()
void RemoveAllObservers ()
void RemoveObserver (unsigned long tag)
virtual bool RequestedRegionIsOutsideOfTheBufferedRegion ()
virtual void ResetPipeline ()
virtual void SetBufferedRegion (const RegionType &region)
void SetDebug (bool debugFlag) const
virtual void SetDirection (const DirectionType direction)
virtual void SetLargestPossibleRegion (const RegionType &region)
virtual void SetOrigin (const float[VImageDimension])
virtual void SetOrigin (const double[VImageDimension])
virtual void SetOrigin (const PointType)
void SetPixel (const IndexType &index, const TPixel &value)
void SetPixelContainer (PixelContainer *container)
virtual void SetReferenceCount (int)
void SetRegions (SizeType size)
void SetRegions (RegionType region)
virtual void SetRequestedRegion (DataObject *data)
virtual void SetRequestedRegion (const RegionType &region)
virtual void SetRequestedRegionToLargestPossibleRegion ()
virtual void SetSpacing (const float[VImageDimension])
virtual void SetSpacing (const double[VImageDimension])
virtual void SetSpacing (const SpacingType &)
bool ShouldIReleaseData () const
template<class TCoordRep>
bool TransformPhysicalPointToContinuousIndex (const Point< TCoordRep, VImageDimension > &point, ContinuousIndex< TCoordRep, VImageDimension > &index) const
template<class TCoordRep>
bool TransformPhysicalPointToContinuousIndex (const Point< TCoordRep, 3 > &point, ContinuousIndex< TCoordRep, 3 > &index) const
template<class TCoordRep>
bool TransformPhysicalPointToIndex (const Point< TCoordRep, VImageDimension > &point, IndexType &index) const
virtual void UnRegister () const
virtual void Update ()
virtual void UpdateOutputInformation ()
virtual bool VerifyRequestedRegion ()
unsigned long AddObserver (const EventObject &event, Command *) const
unsigned long AddObserver (const EventObject &event, Command *)
IndexType ComputeIndex (OffsetValueType offset) const
virtual unsigned int GetNumberOfComponentsPerPixel () const
virtual void SetNumberOfComponentsPerPixel (unsigned int)
const OffsetValueTypeGetOffsetTable () const
virtual const unsigned long & GetPipelineMTime ()
void SetPipelineMTime (unsigned long time)
virtual const bool & GetReleaseDataFlag ()
virtual void ReleaseDataFlagOff ()
virtual void ReleaseDataFlagOn ()
void SetReleaseDataFlag (bool flag)
virtual void PropagateRequestedRegion () throw (InvalidRequestedRegionError)
virtual void UpdateOutputData ()
template<class TCoordRep>
void TransformContinuousIndexToPhysicalPoint (const ContinuousIndex< TCoordRep, VImageDimension > &index, Point< TCoordRep, VImageDimension > &point) const
template<class TCoordRep>
void TransformIndexToPhysicalPoint (const IndexType &index, Point< TCoordRep, VImageDimension > &point) const
template<class TCoordRep>
void TransformLocalVectorToPhysicalVector (const FixedArray< TCoordRep, VImageDimension > &inputGradient, FixedArray< TCoordRep, VImageDimension > &outputGradient) const

Static Public Member Functions

static void BreakOnError ()
static unsigned int GetImageDimension ()
static Pointer New ()
static bool GetGlobalWarningDisplay ()
static void GlobalWarningDisplayOff ()
static void GlobalWarningDisplayOn ()
static void SetGlobalWarningDisplay (bool flag)

Protected Types

typedef int InternalReferenceCountType

Protected Member Functions

virtual void ComputeIndexToPhysicalPointMatrices ()
void ComputeOffsetTable ()
bool PrintObservers (std::ostream &os, Indent indent) const
virtual void PropagateResetPipeline ()
virtual void PrintHeader (std::ostream &os, Indent indent) const
virtual void PrintTrailer (std::ostream &os, Indent indent) const

Protected Attributes

DirectionType m_Direction
DirectionType m_IndexToPhysicalPoint
PointType m_Origin
DirectionType m_PhysicalPointToIndex
InternalReferenceCountType m_ReferenceCount
SimpleFastMutexLock m_ReferenceCountLock
SpacingType m_Spacing

Member Typedef Documentation

template<class TPixel>
 typedef DefaultPixelAccessorFunctor< Self > itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::AccessorFunctorType

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.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 130 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef DefaultPixelAccessor< PixelType > itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::AccessorType

Accessor type that convert data between internal and external representations.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 125 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef SmartPointer itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::ConstPointer

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 99 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef WeakPointer itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::ConstWeakPointer

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 100 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::IndexType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::IndexType

Index typedef support. An index is used to access pixel values.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 142 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::IndexValueType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::IndexValueType

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 143 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef TPixel itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::InternalPixelType

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.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 119 of file itkPhasedArray3DSpecialCoordinatesImage.h.

 typedef int itk::LightObject::InternalReferenceCountType` [protected, inherited]`

Define the type of the reference count according to the target. This allows the use of atomic operations

Definition at line 139 of file itkLightObject.h.

template<class TPixel>
 typedef Superclass::IOPixelType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::IOPixelType

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 121 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::OffsetType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::OffsetType

Offset typedef support. An offset is used to access pixel values.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 146 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef ImportImageContainer itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::PixelContainer

Container used to store pixels in the image.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 139 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 172 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>

A pointer to the pixel container.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 171 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef TPixel itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::PixelType

Pixel typedef support. Used to declare pixel type in filters or other operations.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 106 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef SmartPointer itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::Pointer

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 98 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::PointType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::PointType

Origin typedef support. The origin is the "fake" geometric coordinates of the index (0,0). Also for use w/ filters designed for normal images.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 168 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::RegionType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::RegionType

Region typedef support. A region is used to specify a subset of an image.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 154 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef PhasedArray3DSpecialCoordinatesImage itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::Self

Standard class typedefs

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 96 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::SizeType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::SizeType

Size typedef support. A size is used to define region bounds.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 149 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef Superclass::SpacingType itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::SpacingType

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.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 162 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef SpecialCoordinatesImage itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::Superclass

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 97 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 typedef TPixel itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::ValueType

Typedef alias for PixelType

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

Definition at line 113 of file itkPhasedArray3DSpecialCoordinatesImage.h.

Constructor & Destructor Documentation

template<class TPixel>
 itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::PhasedArray3DSpecialCoordinatesImage ( ) ` [inline, protected]`

Definition at line 336 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<class TPixel>
 virtual itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::~PhasedArray3DSpecialCoordinatesImage ( ) ` [inline, protected, virtual]`

Definition at line 343 of file itkPhasedArray3DSpecialCoordinatesImage.h.

Member Function Documentation

 unsigned long itk::Object::AddObserver ( const EventObject & event, Command * ) const` [inherited]`

 unsigned long itk::Object::AddObserver ( const EventObject & event, Command * ) ` [inherited]`

Allow people to add/remove/invoke observers (callbacks) to any ITK object. This is an implementation of the subject/observer design pattern. An observer is added by specifying an event to respond to and an itk::Command to execute. It returns an unsigned long tag which can be used later to remove the event or retrieve the command. The memory for the Command becomes the responsibility of this object, so don't pass the same instance of a command to two different objects

 void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::Allocate ( ) ` [inherited]`

Allocate the image memory. The size of the image must already be set, e.g. by calling SetRegions().

 static void itk::LightObject::BreakOnError ( ) ` [static, inherited]`

This method is called when itkExceptionMacro executes. It allows the debugger to break on error.

template<unsigned int VImageDimension = 2>
 IndexType itk::ImageBase< VImageDimension >::ComputeIndex ( OffsetValueType offset ) const` [inline, inherited]`

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::ComputeIndexToPhysicalPointMatrices ( ) ` [protected, virtual, inherited]`

Compute helper matrices used to transform Index coordinates to PhysicalPoint coordinates and back. This method is virtual and will be overloaded in derived classes in order to provide backward compatibility behavior in classes that did not used to take image orientation into account.

template<unsigned int VImageDimension = 2>
 OffsetValueType itk::ImageBase< VImageDimension >::ComputeOffset ( const IndexType & ind ) const` [inline, inherited]`

Compute an offset from the beginning of the buffer for a pixel at the specified index. The index is not checked as to whether it is inside the current buffer, so the computed offset could conceivably be outside the buffer. If bounds checking is needed, one can call ImageRegion::IsInside(ind) on the BufferedRegion prior to calling ComputeOffset.

Definition at line 285 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
 void itk::ImageBase< VImageDimension >::ComputeOffsetTable ( ) ` [protected, inherited]`

Calculate the offsets needed to move from one pixel to the next along a row, column, slice, volume, etc. These offsets are based on the size of the BufferedRegion. This should be called after the BufferedRegion is set.

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::CopyInformation ( const DataObject * data ) ` [virtual, inherited]`

 virtual LightObject::Pointer itk::Object::CreateAnother ( ) const` [virtual, inherited]`

Create an object from an instance, potentially deferring to a factory. This method allows you to create an instance of an object that is exactly the same type as the referring object. This is useful in cases where an object has been cast back to a base class.

Reimplemented from itk::LightObject.

 void itk::DataObject::DataHasBeenGenerated ( ) ` [inherited]`

Inform the pipeline mechanism that data has been generated. This method is called by ProcessObject::UpdateOutputData() once the process object has finished generating its data. This essentially marks the DataObject as being updated and ready for use.

 virtual void itk::Object::DebugOff ( ) const` [virtual, inherited]`

Turn debugging output off.

 virtual void itk::Object::DebugOn ( ) const` [virtual, inherited]`

Turn debugging output on.

 virtual void itk::LightObject::Delete ( ) ` [virtual, inherited]`

Delete an itk object. This method should always be used to delete an object when the new operator was used to create it. Using the C delete method will not work with reference counting.

 void itk::DataObject::DisconnectPipeline ( ) ` [inherited]`

Separate this data object from the pipeline. This routine disconnects a data object from the upstream pipeline. Hence an Update() from downstream will not propagate back past this data object. To completely isolate this data object from the pipeline, the application must remove this data object from any filters which it is connected as the input.

 void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::FillBuffer ( const TPixel & value ) ` [inherited]`

Fill the image buffer with a value. Be sure to call Allocate() first.

 const TPixel * itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetBufferPointer ( ) const` [inline, inherited]`

Definition at line 251 of file itkSpecialCoordinatesImage.h.

 TPixel * itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetBufferPointer ( ) ` [inline, inherited]`

Return a pointer to the beginning of the buffer. This is used by the image iterator class.

Definition at line 249 of file itkSpecialCoordinatesImage.h.

 Command* itk::Object::GetCommand ( unsigned long tag ) ` [inherited]`

Get the command associated with the given tag. NOTE: This returns a pointer to a Command, but it is safe to asign this to a Command::Pointer. Since Command inherits from LightObject, at this point in the code, only a pointer or a reference to the Command can be used.

 bool itk::DataObject::GetDataReleased ( ) const` [inline, inherited]`

Get the flag indicating the data has been released.

Definition at line 334 of file itkDataObject.h.

 bool itk::Object::GetDebug ( ) const` [inherited]`

Get the value of the debug flag.

template<unsigned int VImageDimension = 2>
 virtual const DirectionType& itk::ImageBase< VImageDimension >::GetDirection ( ) ` [virtual, inherited]`

Get the direction cosines of the image. The direction cosines are vectors that point from one pixel to the next. For ImageBase and Image, the default direction is identity.

 static bool itk::DataObject::GetGlobalReleaseDataFlag ( ) ` [static, inherited]`

 static bool itk::Object::GetGlobalWarningDisplay ( ) ` [static, inherited]`

template<unsigned int VImageDimension = 2>
 static unsigned int itk::ImageBase< VImageDimension >::GetImageDimension ( ) ` [inline, static, inherited]`

Image dimension. The dimension of an image is fixed at construction.

Definition at line 143 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
 virtual const RegionType& itk::ImageBase< VImageDimension >::GetLargestPossibleRegion ( ) const` [inline, virtual, inherited]`

 const MetaDataDictionary& itk::Object::GetMetaDataDictionary ( void ) const` [inherited]`

Returns:

 MetaDataDictionary& itk::Object::GetMetaDataDictionary ( void ) ` [inherited]`

Returns:
Warning:
This reference may be changed.

template<class TPixel>
 virtual const char* itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::GetNameOfClass ( ) const` [virtual]`

Run-time type information (and related methods).

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

template<unsigned int VImageDimension = 2>
 virtual unsigned int itk::ImageBase< VImageDimension >::GetNumberOfComponentsPerPixel ( ) const` [virtual, inherited]`

INTERNAL This method is used internally by filters to copy meta-data from the output to the input. Users should not have a need to use this method.

Filters that override the ProcessObject's GenerateOutputInformation() should generally have the following line if they want to propagate meta- data for both Image and VectorImage

``` outputImage->SetNumberOfComponentsPerPixel(
inputImage->GetNumberOfComponentsPerPixel() )
```

ImageBase, VectorImage
Returns/Sets the number of components in the image. Note that for all images this is 1. Even for Image< RGBPixel< T >, 3 >. This is >= 1 only for time-series images such as itk::VectorImage.

Reimplemented in itk::VectorImage< TPixel, VImageDimension >, and itk::VectorImage< TPixelType, Dimension >.

template<unsigned int VImageDimension = 2>
 const OffsetValueType* itk::ImageBase< VImageDimension >::GetOffsetTable ( ) const` [inline, inherited]`

Get the offset table. The offset table gives increments for moving from one pixel to next in the current row, column, slice, etc.. This table if of size [VImageDimension+1], because its values are computed progressively as: {1, N1, N1*N2, N1*N2*N3,...,(N1*...*Nn)} Where the values {N1,...,Nn} are the elements of the BufferedRegion::Size array. The last element of the OffsetTable is equivalent to the BufferSize. Having a [VImageDimension+1] size array, simplifies the implementation of some data accessing algorithms. The entries in the offset table are only valid after the BufferedRegion is set.

Definition at line 263 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
 virtual const PointType& itk::ImageBase< VImageDimension >::GetOrigin ( ) ` [virtual, inherited]`

Get the origin of the image. The origin is the geometric coordinates of the index (0,0). The value returned is a pointer to a double array. For ImageBase and Image, the default origin is 0.

 virtual const unsigned long& itk::DataObject::GetPipelineMTime ( ) ` [virtual, inherited]`

 TPixel & itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetPixel ( const IndexType & index ) ` [inline, inherited]`

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.

Definition at line 227 of file itkSpecialCoordinatesImage.h.

 const TPixel & itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetPixel ( const IndexType & index ) const` [inline, inherited]`

Get a pixel (read only version).

For efficiency, this function does not check that the image has actually been allocated yet.

Definition at line 217 of file itkSpecialCoordinatesImage.h.

 const AccessorType itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetPixelAccessor ( void ) const` [inline, inherited]`

Return the Pixel Accesor object

Definition at line 271 of file itkSpecialCoordinatesImage.h.

 AccessorType itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetPixelAccessor ( void ) ` [inline, inherited]`

Return the Pixel Accessor object

Definition at line 267 of file itkSpecialCoordinatesImage.h.

 const PixelContainer* itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetPixelContainer ( ) const` [inline, inherited]`

Definition at line 259 of file itkSpecialCoordinatesImage.h.

 PixelContainer* itk::SpecialCoordinatesImage< TPixel , VImageDimension >::GetPixelContainer ( ) ` [inline, inherited]`

Return a pointer to the container.

Definition at line 256 of file itkSpecialCoordinatesImage.h.

 virtual int itk::LightObject::GetReferenceCount ( ) const` [inline, virtual, inherited]`

Gets the reference count on this object.

Definition at line 106 of file itkLightObject.h.

 virtual const bool& itk::DataObject::GetReleaseDataFlag ( ) ` [virtual, inherited]`

 SmartPointerForwardReference itk::DataObject::GetSource ( ) const` [inherited]`

Get the process object that generated this data object. If there is no process object, then the data object has been disconnected from the pipeline, or the data object was created manually. (Note: we cannot use the GetObjectMacro() defined in itkMacro because the mutual dependency of DataObject and ProcessObject causes compile problems. Also, a forward reference smart pointer is returned, not a smart pointer, because of the circular dependency between the process and data object.)

GetSource() returns a SmartPointerForwardReference and not a WeakPointer because it is assumed the code calling GetSource() wants to hold a long term reference to the source.

 unsigned int itk::DataObject::GetSourceOutputIndex ( ) const` [inherited]`

Which of the source's outputs corresponds to this data object?

template<unsigned int VImageDimension = 2>
 virtual const SpacingType& itk::ImageBase< VImageDimension >::GetSpacing ( ) ` [virtual, inherited]`

Get the spacing (size of a pixel) `of the image. The spacing is the geometric distance between image samples. The value returned is a pointer to a double array. For ImageBase and Image, the default data spacing is unity.

 virtual unsigned long itk::DataObject::GetUpdateMTime ( ) const` [virtual, inherited]`

MTime for the last time this DataObject was generated.

 void itk::DataObject::GlobalReleaseDataFlagOff ( ) ` [inline, inherited]`

Definition at line 319 of file itkDataObject.h.

 void itk::DataObject::GlobalReleaseDataFlagOn ( ) ` [inline, inherited]`

Definition at line 317 of file itkDataObject.h.

 static void itk::Object::GlobalWarningDisplayOff ( ) ` [inline, static, inherited]`

Definition at line 100 of file itkObject.h.

References itk::Object::SetGlobalWarningDisplay().

 static void itk::Object::GlobalWarningDisplayOn ( ) ` [inline, static, inherited]`

Definition at line 98 of file itkObject.h.

References itk::Object::SetGlobalWarningDisplay().

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::Graft ( const DataObject * data ) ` [virtual, inherited]`

 bool itk::Object::HasObserver ( const EventObject & event ) const` [inherited]`

Return true if an observer is registered for this event.

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::Initialize ( void ) ` [virtual, inherited]`

Restore the data object to its initial state. This means releasing memory.

Reimplemented from itk::ImageBase< VImageDimension >.

 void itk::Object::InvokeEvent ( const EventObject & ) const` [inherited]`

Call Execute on all the Commands observing this event id. The actions triggered by this call doesn't modify this object.

 void itk::Object::InvokeEvent ( const EventObject & ) ` [inherited]`

Call Execute on all the Commands observing this event id.

 itk::SpecialCoordinatesImage< TPixel , VImageDimension >::itkStaticConstMacro ( ImageDimension , unsigned int, VImageDimension ) ` [inherited]`

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.

Reimplemented from itk::ImageBase< VImageDimension >.

template<class TPixel>
 itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::itkStaticConstMacro ( ImageDimension , unsigned int, 3 )

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.

template<class TPixel>
 static Pointer itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::New ( ) ` [static]`

Method for creation through the object factory.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

 const TPixel & itk::SpecialCoordinatesImage< TPixel , VImageDimension >::operator[] ( const IndexType & index ) const` [inline, inherited]`

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.

Definition at line 244 of file itkSpecialCoordinatesImage.h.

 TPixel & itk::SpecialCoordinatesImage< TPixel , VImageDimension >::operator[] ( const IndexType & index ) ` [inline, inherited]`

Access a pixel. This version can be an lvalue.

For efficiency, this function does not check that the image has actually been allocated yet.

Definition at line 237 of file itkSpecialCoordinatesImage.h.

 virtual void itk::DataObject::PrepareForNewData ( ) ` [inline, virtual, inherited]`

Setup a DataObject to receive new data. This method is called by the pipeline mechanism on each output of filter that needs to execute. The default implementation is to return a DataObject to its initial state. This may involve releasing previously allocated bulk data. Subclasses of DataObject may want to override this method and/or the Initialize() method if they want a different default behavior (for instance a DataObject might want finer control over its bulk data memory management).

Definition at line 389 of file itkDataObject.h.

 void itk::LightObject::Print ( std::ostream & os, Indent indent = `0` ) const` [inherited]`

Cause the object to print itself out.

Referenced by itk::WeakPointer< itk::ProcessObject >::Print().

 virtual void itk::LightObject::PrintHeader ( std::ostream & os, Indent indent ) const` [protected, virtual, inherited]`

 bool itk::Object::PrintObservers ( std::ostream & os, Indent indent ) const` [protected, inherited]`

template<class TPixel>
 void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::PrintSelf ( std::ostream & os, Indent indent ) const` [protected, virtual]`

Methods invoked by Print() to print information about the object including superclasses. Typically not called by the user (use Print() instead) but used in the hierarchical print process to combine the output of several classes.

Reimplemented from itk::SpecialCoordinatesImage< TPixel, 3 >.

 virtual void itk::LightObject::PrintTrailer ( std::ostream & os, Indent indent ) const` [protected, virtual, inherited]`

 virtual void itk::DataObject::PropagateResetPipeline ( ) ` [protected, virtual, inherited]`

Propagate a call to ResetPipeline(). Called only from ProcessObject.

 virtual void itk::Object::Register ( ) const` [virtual, inherited]`

Increase the reference count (mark as used by another object).

Reimplemented from itk::LightObject.

 void itk::DataObject::ReleaseData ( ) ` [inherited]`

Release data back to system to conserve memory resource. Used during pipeline execution. Releasing this data does not make down-stream data invalid, so it does not modify the MTime of this data object.

 virtual void itk::DataObject::ReleaseDataFlagOff ( ) ` [virtual, inherited]`

 virtual void itk::DataObject::ReleaseDataFlagOn ( ) ` [virtual, inherited]`

 void itk::Object::RemoveAllObservers ( ) ` [inherited]`

Remove all observers .

 void itk::Object::RemoveObserver ( unsigned long tag ) ` [inherited]`

Remove the observer with this tag value.

template<unsigned int VImageDimension = 2>
 virtual bool itk::ImageBase< VImageDimension >::RequestedRegionIsOutsideOfTheBufferedRegion ( ) ` [virtual, inherited]`

Determine whether the RequestedRegion is outside of the BufferedRegion. This method returns true if the RequestedRegion is outside the BufferedRegion (true if at least one pixel is outside). This is used by the pipeline mechanism to determine whether a filter needs to re-execute in order to satisfy the current request. If the current RequestedRegion is already inside the BufferedRegion from the previous execution (and the current filter is up to date), then a given filter does not need to re-execute

Reimplemented from itk::DataObject.

 virtual void itk::DataObject::ResetPipeline ( ) ` [virtual, inherited]`

Reset the pipeline. If an exception is thrown during an Update(), the pipeline may be in an inconsistent state. This method clears the internal state of the pipeline so Update() can be called.

template<class TPixel>
 virtual void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::SetAzimuthAngularSeparation ( double _arg ) ` [virtual]`

Set the number of radians between each azimuth unit.

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::SetBufferedRegion ( const RegionType & region ) ` [virtual, inherited]`

Set the region object that defines the size and starting index of the region of the image currently loaded in memory.

ImageRegion, SetLargestPossibleRegion(), SetRequestedRegion()

 void itk::Object::SetDebug ( bool debugFlag ) const` [inherited]`

Set the value of the debug flag. A non-zero value turns debugging on.

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::SetDirection ( const DirectionType direction ) ` [virtual, inherited]`

Set the direction cosines of the image. The direction cosines are vectors that point from one pixel to the next.

One row of the matrix indicates the direction cosines of the unit vector that is parallel to the lines of the image grid corresponding to that dimension. For example, and image with Direction matrix

0.866 0.500 -0.500 0.866

has an image grid were the fastest changing index (dimension[0]) walks over a line that in Physical space is oriented parallel to the vector (0.866,0.5). The second fastest changing index (dimension[1]) walks along a line that in Physical space is oriented parallel to the vector (-0.5,0.866)

The vectors whose direction cosines are stored in the Direction matrix, are expected to be orthogonal to each other, and they are expected to form a right handed coordinate system, but this is not checked nor enforced in the itk::ImageBase.

GetDirection()

template<class TPixel>
 virtual void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::SetElevationAngularSeparation ( double _arg ) ` [virtual]`

Set the number of radians between each elevation unit.

template<class TPixel>
 virtual void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::SetFirstSampleDistance ( double _arg ) ` [virtual]`

 static void itk::DataObject::SetGlobalReleaseDataFlag ( const bool val ) ` [static, inherited]`

Turn on/off a flag to control whether every object releases its data after being used by a filter. Being a global flag, it controls the behavior of all DataObjects and ProcessObjects.

 static void itk::Object::SetGlobalWarningDisplay ( bool flag ) ` [static, inherited]`

This is a global flag that controls whether any debug, warning or error messages are displayed.

Referenced by itk::Object::GlobalWarningDisplayOff(), and itk::Object::GlobalWarningDisplayOn().

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::SetLargestPossibleRegion ( const RegionType & region ) ` [virtual, inherited]`

Set the region object that defines the size and starting index for the largest possible region this image could represent. This is used in determining how much memory would be needed to load an entire dataset. It is also used to determine boundary conditions.

ImageRegion, SetBufferedRegion(), SetRequestedRegion()

 void itk::Object::SetMetaDataDictionary ( const MetaDataDictionary & rhs ) ` [inherited]`

Returns:

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::SetNumberOfComponentsPerPixel ( unsigned int ) ` [virtual, inherited]`

INTERNAL This method is used internally by filters to copy meta-data from the output to the input. Users should not have a need to use this method.

Filters that override the ProcessObject's GenerateOutputInformation() should generally have the following line if they want to propagate meta- data for both Image and VectorImage

``` outputImage->SetNumberOfComponentsPerPixel(
inputImage->GetNumberOfComponentsPerPixel() )
```

ImageBase, VectorImage
Returns/Sets the number of components in the image. Note that for all images this is 1. Even for Image< RGBPixel< T >, 3 >. This is >= 1 only for time-series images such as itk::VectorImage.

Reimplemented in itk::VectorImage< TPixel, VImageDimension >, and itk::VectorImage< TPixelType, Dimension >.

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetOrigin ( const float[VImageDimension] ) ` [inline, virtual, inherited]`

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 284 of file itkSpecialCoordinatesImage.h.

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetOrigin ( const double[VImageDimension] ) ` [inline, virtual, inherited]`

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 283 of file itkSpecialCoordinatesImage.h.

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetOrigin ( const PointType ) ` [inline, virtual, inherited]`

Set the origin of the image. The origin is the geometric coordinates of the image origin. It is stored internally as double but may be set from float.

GetOrigin()

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 282 of file itkSpecialCoordinatesImage.h.

 void itk::DataObject::SetPipelineMTime ( unsigned long time ) ` [inline, inherited]`

The maximum MTime of all upstream filters and data objects. This does not include the MTime of this data object.

Definition at line 373 of file itkDataObject.h.

 void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetPixel ( const IndexType & index, const TPixel & value ) ` [inline, inherited]`

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.

Definition at line 207 of file itkSpecialCoordinatesImage.h.

 void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetPixelContainer ( PixelContainer * container ) ` [inherited]`

Set the container to use. Note that this does not cause the DataObject to be modified.

template<class TPixel>
 virtual void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::SetRadiusSampleSize ( double _arg ) ` [virtual]`

Set the number of cartesian units between each unit along the R .

 virtual void itk::Object::SetReferenceCount ( int ) ` [virtual, inherited]`

Sets the reference count (use with care)

Reimplemented from itk::LightObject.

 void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetRegions ( SizeType size ) ` [inline, inherited]`

Definition at line 186 of file itkSpecialCoordinatesImage.h.

 void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetRegions ( RegionType region ) ` [inline, inherited]`

Convenience methods to set the LargestPossibleRegion, BufferedRegion and RequestedRegion. Allocate must still be called.

Definition at line 178 of file itkSpecialCoordinatesImage.h.

 void itk::DataObject::SetReleaseDataFlag ( bool flag ) ` [inline, inherited]`

Turn on/off a flag to control whether this object's data is released after being used by a filter.

Definition at line 304 of file itkDataObject.h.

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::SetRequestedRegion ( DataObject * data ) ` [virtual, inherited]`

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::SetRequestedRegion ( const RegionType & region ) ` [virtual, inherited]`

Set the region object that defines the size and starting index for the region of the image requested (i.e., the region of the image to be operated on by a filter). Setting the RequestedRegion does not cause the object to be modified. This method is called internally by the pipeline and therefore bypasses the modified time calculation.

ImageRegion, SetLargestPossibleRegion(), SetBufferedRegion()

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetSpacing ( const float[VImageDimension] ) ` [inline, virtual, inherited]`

Compute the index of the pixel at a specified offset from the beginning of the buffered region. Bounds checking is not performed. Thus, the computed index could be outside the BufferedRegion. To ensure a valid index, the parameter "offset" should be between 0 and the number of pixels in the BufferedRegion (the latter can be found using ImageRegion::GetNumberOfPixels()).

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 281 of file itkSpecialCoordinatesImage.h.

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetSpacing ( const double[VImageDimension] ) ` [inline, virtual, inherited]`

Compute the index of the pixel at a specified offset from the beginning of the buffered region. Bounds checking is not performed. Thus, the computed index could be outside the BufferedRegion. To ensure a valid index, the parameter "offset" should be between 0 and the number of pixels in the BufferedRegion (the latter can be found using ImageRegion::GetNumberOfPixels()).

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 280 of file itkSpecialCoordinatesImage.h.

 virtual void itk::SpecialCoordinatesImage< TPixel , VImageDimension >::SetSpacing ( const SpacingType & ) ` [inline, virtual, inherited]`

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.

Reimplemented from itk::ImageBase< VImageDimension >.

Definition at line 279 of file itkSpecialCoordinatesImage.h.

 bool itk::DataObject::ShouldIReleaseData ( ) const` [inherited]`

Return flag indicating whether data should be released after use by a filter.

template<unsigned int VImageDimension = 2>
template<class TCoordRep>
 void itk::ImageBase< VImageDimension >::TransformContinuousIndexToPhysicalPoint ( const ContinuousIndex< TCoordRep, VImageDimension > & index, Point< TCoordRep, VImageDimension > & point ) const` [inline, inherited]`

Get a physical point (in the space which the origin and spacing infomation comes from) from a continuous index (in the index space)

Transform

Definition at line 424 of file itkImageBase.h.

template<class TPixel>
template<class TCoordRep>
 void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::TransformContinuousIndexToPhysicalPoint ( const ContinuousIndex< TCoordRep, 3 > & index, Point< TCoordRep, 3 > & point ) const` [inline]`

Get a physical point (in the space which the origin and spacing infomation comes from) from a continuous index (in the index space)

Transform

Definition at line 251 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<unsigned int VImageDimension = 2>
template<class TCoordRep>
 void itk::ImageBase< VImageDimension >::TransformIndexToPhysicalPoint ( const IndexType & index, Point< TCoordRep, VImageDimension > & point ) const` [inline, inherited]`

Get a physical point (in the space which the origin and spacing infomation comes from) from a discrete index (in the index space)

Transform

Definition at line 456 of file itkImageBase.h.

template<class TPixel>
template<class TCoordRep>
 void itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::TransformIndexToPhysicalPoint ( const IndexType & index, Point< TCoordRep, 3 > & point ) const` [inline]`

Get a physical point (in the space which the origin and spacing infomation comes from) from a discrete index (in the index space)

Transform

Definition at line 284 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<unsigned int VImageDimension = 2>
template<class TCoordRep>
 void itk::ImageBase< VImageDimension >::TransformLocalVectorToPhysicalVector ( const FixedArray< TCoordRep, VImageDimension > & inputGradient, FixedArray< TCoordRep, VImageDimension > & outputGradient ) const` [inline, inherited]`

Get a physical point (in the space which the origin and spacing infomation comes from) from a discrete index (in the index space)

Transform Take a vector or covariant vector that has been computed in the coordinate system parallel to the image grid and rotate it by the direction cosines in order to get it in terms of the coordinate system of the image acquisition device. This implementation in the OrientedImage multiply the array (vector or covariant vector) by the matrix of Direction Cosines. The arguments of the method are of type FixedArray to make possible to use this method with both Vector and CovariantVector. The Method is implemented differently in the itk::Image.

Definition at line 491 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
template<class TCoordRep>
 bool itk::ImageBase< VImageDimension >::TransformPhysicalPointToContinuousIndex ( const Point< TCoordRep, VImageDimension > & point, ContinuousIndex< TCoordRep, VImageDimension > & index ) const` [inline, inherited]`

Get the continuous index from a physical point.

Returns true if the resulting index is within the image, false otherwise.

Transform

Definition at line 396 of file itkImageBase.h.

template<class TPixel>
template<class TCoordRep>
 bool itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::TransformPhysicalPointToContinuousIndex ( const Point< TCoordRep, 3 > & point, ContinuousIndex< TCoordRep, 3 > & index ) const` [inline]`

Get the continuous index from a physical point.

Returns true if the resulting index is within the image, false otherwise.

Transform

Definition at line 179 of file itkPhasedArray3DSpecialCoordinatesImage.h.

template<unsigned int VImageDimension = 2>
template<class TCoordRep>
 bool itk::ImageBase< VImageDimension >::TransformPhysicalPointToIndex ( const Point< TCoordRep, VImageDimension > & point, IndexType & index ) const` [inline, inherited]`

Get the index (discrete) from a physical point. Floating point index results are truncated to integers. Returns true if the resulting index is within the image, false otherwise

Transform

Definition at line 370 of file itkImageBase.h.

template<class TPixel>
template<class TCoordRep>
 bool itk::PhasedArray3DSpecialCoordinatesImage< TPixel >::TransformPhysicalPointToIndex ( const Point< TCoordRep, 3 > & point, IndexType & index ) const` [inline]`

Get the index (discrete) from a physical point. Floating point index results are truncated to integers. Returns true if the resulting index is within the image, false otherwise

Transform

Definition at line 213 of file itkPhasedArray3DSpecialCoordinatesImage.h.

 virtual void itk::Object::UnRegister ( ) const` [virtual, inherited]`

Decrease the reference count (release by another object).

Reimplemented from itk::LightObject.

 virtual void itk::DataObject::Update ( ) ` [virtual, inherited]`

template<unsigned int VImageDimension = 2>
 virtual void itk::ImageBase< VImageDimension >::UpdateOutputInformation ( ) ` [virtual, inherited]`

template<unsigned int VImageDimension = 2>
 virtual bool itk::ImageBase< VImageDimension >::VerifyRequestedRegion ( ) ` [virtual, inherited]`

Member Data Documentation

template<unsigned int VImageDimension = 2>
 DirectionType itk::ImageBase< VImageDimension >::m_Direction` [protected, inherited]`

Definition at line 621 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
 DirectionType itk::ImageBase< VImageDimension >::m_IndexToPhysicalPoint` [protected, inherited]`

Matrices intended to help with the conversion of Index coordinates to PhysicalPoint coordinates

Definition at line 625 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
 PointType itk::ImageBase< VImageDimension >::m_Origin` [protected, inherited]`

Definition at line 620 of file itkImageBase.h.

template<unsigned int VImageDimension = 2>
 DirectionType itk::ImageBase< VImageDimension >::m_PhysicalPointToIndex` [protected, inherited]`

Definition at line 626 of file itkImageBase.h.

 InternalReferenceCountType itk::LightObject::m_ReferenceCount` [mutable, protected, inherited]`

Number of uses of this object by other objects.

Definition at line 144 of file itkLightObject.h.

 SimpleFastMutexLock itk::LightObject::m_ReferenceCountLock` [mutable, protected, inherited]`

Mutex lock to protect modification to the reference count

Definition at line 147 of file itkLightObject.h.

template<unsigned int VImageDimension = 2>
 SpacingType itk::ImageBase< VImageDimension >::m_Spacing` [protected, inherited]`

Origin and spacing of physical coordinates. This variables are protected for efficiency. They are referenced frequently by inner loop calculations.

Definition at line 619 of file itkImageBase.h.

The documentation for this class was generated from the following file:
Generated at Thu Nov 6 09:43:39 2008 for ITK by 1.5.1 written by Dimitri van Heesch, © 1997-2000