ITK  5.0.0
Insight Segmentation and Registration Toolkit
Public Types | Public Member Functions | Static Public Member Functions | Protected Member Functions | Private Member Functions | Private Attributes | List of all members
itk::AnalyzeObjectEntry Class Reference

#include <itkAnalyzeObjectEntry.h>

+ Inheritance diagram for itk::AnalyzeObjectEntry:
+ Collaboration diagram for itk::AnalyzeObjectEntry:

Detailed Description

This class encapsulates a single object in an Analyze object file.

Definition at line 40 of file itkAnalyzeObjectEntry.h.

Public Types

using ConstPointer = SmartPointer< const Self >
 
using Index = itk::Index< 3 >
 
using intRGBPixel = itk::RGBPixel< int >
 
using Pointer = SmartPointer< Self >
 
using Self = AnalyzeObjectEntry
 
using Superclass = Object
 
- Public Types inherited from itk::Object
using ConstPointer = SmartPointer< const Self >
 
using Pointer = SmartPointer< Self >
 
using Self = Object
 
using Superclass = LightObject
 
- Public Types inherited from itk::LightObject
using ConstPointer = SmartPointer< const Self >
 
using Pointer = SmartPointer< Self >
 
using Self = LightObject
 

Public Member Functions

void Copy (AnalyzeObjectEntry::Pointer rhs)
 
virtual ::itk::LightObject::Pointer CreateAnother () const
 
virtual const char * GetNameOfClass () const
 
void Print (std::ostream &myfile)
 
void ReadFromFilePointer (std::ifstream &inputFileStream, const bool NeedByteSwap, const bool)
 
void SwapObjectEndedness ()
 
void Write (std::ofstream &outputFileStream)
 
virtual std::string GetName (void) const
 
virtual void SetName (const std::string _arg)
 
virtual int GetDisplayFlag () const
 
virtual void SetDisplayFlag (int _arg)
 
virtual unsigned char GetCopyFlag () const
 
virtual void SetCopyFlag (unsigned char _arg)
 
virtual unsigned char GetMirrorFlag () const
 
virtual void SetMirrorFlag (unsigned char _arg)
 
virtual unsigned char GetStatusFlag () const
 
virtual void SetStatusFlag (unsigned char _arg)
 
virtual unsigned char GetNeighborsUsedFlag () const
 
virtual void SetNeighborsUsedFlag (unsigned char _arg)
 
virtual int GetShades () const
 
virtual void SetShades (int _arg)
 
virtual int GetStartRed () const
 
virtual void SetStartRed (int _arg)
 
virtual int GetStartGreen () const
 
virtual void SetStartGreen (int _arg)
 
virtual int GetStartBlue () const
 
virtual void SetStartBlue (int _arg)
 
virtual int GetEndRed () const
 
virtual void SetEndRed (int _arg)
 
virtual int GetEndGreen () const
 
virtual void SetEndGreen (int _arg)
 
virtual int GetEndBlue () const
 
virtual void SetEndBlue (int _arg)
 
virtual int GetXRotation () const
 
virtual void SetXRotation (int _arg)
 
virtual int GetXRotationIncrement () const
 
virtual void SetXRotationIncrement (int _arg)
 
virtual int GetYRotation () const
 
virtual void SetYRotation (int _arg)
 
virtual int GetYRotationIncrement () const
 
virtual void SetYRotationIncrement (int _arg)
 
virtual int GetZRotation () const
 
virtual void SetZRotation (int _arg)
 
virtual int GetZRotationIncrement () const
 
virtual void SetZRotationIncrement (int _arg)
 
virtual int GetXTranslation () const
 
virtual void SetXTranslation (int _arg)
 
virtual int GetXTranslationIncrement () const
 
virtual void SetXTranslationIncrement (int _arg)
 
virtual int GetYTranslation () const
 
virtual void SetYTranslation (int _arg)
 
virtual int GetYTranslationIncrement () const
 
virtual void SetYTranslationIncrement (int _arg)
 
virtual int GetZTranslation () const
 
virtual void SetZTranslation (int _arg)
 
virtual int GetZTranslationIncrement () const
 
virtual void SetZTranslationIncrement (int _arg)
 
virtual int GetXCenter () const
 
virtual void SetXCenter (int _arg)
 
virtual int GetYCenter () const
 
virtual void SetYCenter (int _arg)
 
virtual int GetZCenter () const
 
virtual void SetZCenter (int _arg)
 
virtual short int GetMinimumXValue () const
 
virtual void SetMinimumXValue (int _arg)
 
virtual short int GetMinimumYValue () const
 
virtual void SetMinimumYValue (int _arg)
 
virtual short int GetMinimumZValue () const
 
virtual void SetMinimumZValue (int _arg)
 
virtual short int GetMaximumXValue () const
 
virtual void SetMaximumXValue (int _arg)
 
virtual short int GetMaximumYValue () const
 
virtual void SetMaximumYValue (int _arg)
 
virtual short int GetMaximumZValue () const
 
virtual void SetMaximumZValue (int _arg)
 
virtual float GetOpacity () const
 
virtual void SetOpacity (float _arg)
 
virtual int GetOpacityThickness () const
 
virtual void SetOpacityThickness (int _arg)
 
virtual float GetBlendFactor () const
 
virtual void SetBlendFactor (float _arg)
 
- Public Member Functions inherited from itk::Object
unsigned long AddObserver (const EventObject &event, Command *)
 
unsigned long AddObserver (const EventObject &event, Command *) const
 
virtual void DebugOff () const
 
virtual void DebugOn () const
 
CommandGetCommand (unsigned long tag)
 
bool GetDebug () const
 
MetaDataDictionaryGetMetaDataDictionary ()
 
const MetaDataDictionaryGetMetaDataDictionary () const
 
virtual ModifiedTimeType GetMTime () const
 
virtual const TimeStampGetTimeStamp () const
 
bool HasObserver (const EventObject &event) const
 
void InvokeEvent (const EventObject &)
 
void InvokeEvent (const EventObject &) const
 
virtual void Modified () const
 
void Register () const override
 
void RemoveAllObservers ()
 
void RemoveObserver (unsigned long tag)
 
void SetDebug (bool debugFlag) const
 
void SetReferenceCount (int) override
 
void UnRegister () const noexceptoverride
 
void SetMetaDataDictionary (const MetaDataDictionary &rhs)
 
void SetMetaDataDictionary (MetaDataDictionary &&rrhs)
 
virtual void SetObjectName (std::string _arg)
 
virtual const std::string & GetObjectName () const
 
- Public Member Functions inherited from itk::LightObject
virtual void Delete ()
 
virtual int GetReferenceCount () const
 
 itkCloneMacro (Self)
 
void Print (std::ostream &os, Indent indent=0) const
 

Static Public Member Functions

static Pointer New ()
 
- Static Public Member Functions inherited from itk::Object
static bool GetGlobalWarningDisplay ()
 
static void GlobalWarningDisplayOff ()
 
static void GlobalWarningDisplayOn ()
 
static Pointer New ()
 
static void SetGlobalWarningDisplay (bool flag)
 
- Static Public Member Functions inherited from itk::LightObject
static void BreakOnError ()
 
static Pointer New ()
 

Protected Member Functions

 AnalyzeObjectEntry (void)
 
void PrintSelf (std::ostream &os, Indent indent) const override
 
 ~AnalyzeObjectEntry (void) override
 
- Protected Member Functions inherited from itk::Object
 Object ()
 
bool PrintObservers (std::ostream &os, Indent indent) const
 
virtual void SetTimeStamp (const TimeStamp &time)
 
 ~Object () override
 
- Protected Member Functions inherited from itk::LightObject
virtual LightObject::Pointer InternalClone () const
 
 LightObject ()
 
virtual void PrintHeader (std::ostream &os, Indent indent) const
 
virtual void PrintTrailer (std::ostream &os, Indent indent) const
 
virtual ~LightObject ()
 

Private Member Functions

template<typename TValue >
void ReadBytes (std::ifstream &inputFileStream, TValue *dest, const int Replications, const bool NeedByteSwap)
 

Private Attributes

float m_BlendFactor
 
unsigned char m_CopyFlag
 
int m_DisplayFlag
 
int m_EndBlue
 
int m_EndGreen
 
int m_EndRed
 
short int m_MaximumXValue
 
short int m_MaximumYValue
 
short int m_MaximumZValue
 
short int m_MinimumXValue
 
short int m_MinimumYValue
 
short int m_MinimumZValue
 
unsigned char m_MirrorFlag
 
char m_Name [33]
 
unsigned char m_NeighborsUsedFlag
 
float m_Opacity
 
int m_OpacityThickness
 
int m_Shades
 
int m_StartBlue
 
int m_StartGreen
 
int m_StartRed
 
unsigned char m_StatusFlag
 
int m_XCenter
 
int m_XRotation
 
int m_XRotationIncrement
 
int m_XTranslation
 
int m_XTranslationIncrement
 
int m_YCenter
 
int m_YRotation
 
int m_YRotationIncrement
 
int m_YTranslation
 
int m_YTranslationIncrement
 
int m_ZCenter
 
int m_ZRotation
 
int m_ZRotationIncrement
 
int m_ZTranslation
 
int m_ZTranslationIncrement
 

Additional Inherited Members

- Protected Attributes inherited from itk::LightObject
std::atomic< int > m_ReferenceCount
 

Member Typedef Documentation

Definition at line 48 of file itkAnalyzeObjectEntry.h.

Definition at line 50 of file itkAnalyzeObjectEntry.h.

Definition at line 49 of file itkAnalyzeObjectEntry.h.

Definition at line 47 of file itkAnalyzeObjectEntry.h.

Standard type alias.

Definition at line 45 of file itkAnalyzeObjectEntry.h.

Definition at line 46 of file itkAnalyzeObjectEntry.h.

Constructor & Destructor Documentation

itk::AnalyzeObjectEntry::AnalyzeObjectEntry ( void  )
protected

AnalyzeObjectEntry( ) is the default constructor, initializes to 0 or NULL Possible Causes of Failure:

  • unknown
itk::AnalyzeObjectEntry::~AnalyzeObjectEntry ( void  )
overrideprotected

~AnalyzeObjectEntry( void ) is the destructor, which does nothing explicitly due to no use of dynamic allocation Possible Causes of Failure:

Member Function Documentation

void itk::AnalyzeObjectEntry::Copy ( AnalyzeObjectEntry::Pointer  rhs)

Copy.

This function will copy all of the ivars except the name of the entry. The reason why the function does not copy the name, is that each object entry should have a unique name.

virtual::itk::LightObject::Pointer itk::AnalyzeObjectEntry::CreateAnother ( ) const
virtual

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::Object.

virtual float itk::AnalyzeObjectEntry::GetBlendFactor ( ) const
virtual

getBlendFactor/setBlendFactor

Determines the amount of object color verses composite color. A value of 1.0, causes all the color to come from the object. A value of 0.0 causes all the color to come from the alpha map. A value of .5 will cause half to come from each.

virtual unsigned char itk::AnalyzeObjectEntry::GetCopyFlag ( ) const
virtual

getCopyFlag gets the Copy Flag

CopyFlag indicates object translation, rotation, and mirroring are applied to a copy of the actual object, rather than the object itself. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetDisplayFlag ( ) const
virtual

getDisplayFlag/setDisplayFlag

DisplayFlag is used to enable or disable the display of this particular object. A value of zero value indicates that voxels of this object type are ignored or assumed to be outside the threshold range during the raycasting process.

virtual int itk::AnalyzeObjectEntry::GetEndBlue ( ) const
virtual

getEndBlue/setEndBlue

EndBlue specify the ending color for this object.

virtual int itk::AnalyzeObjectEntry::GetEndGreen ( ) const
virtual

getEndGreen/setEndGreen

EndGreen specify the ending color for this object.

virtual int itk::AnalyzeObjectEntry::GetEndRed ( ) const
virtual

getEndRed/setEndRed

EndRed specify the ending color for this object.

virtual short int itk::AnalyzeObjectEntry::GetMaximumXValue ( ) const
virtual

getMaximumXValue/setMaximumXValue

MaximumXValue specify the maximum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual short int itk::AnalyzeObjectEntry::GetMaximumYValue ( ) const
virtual

getMaximumYValue/setMaximumYValue

MaximumYValue specify the maximum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual short int itk::AnalyzeObjectEntry::GetMaximumZValue ( ) const
virtual

getMaximumZValue/setMaximumZValue

MaximumZValue specify the maximum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual short int itk::AnalyzeObjectEntry::GetMinimumXValue ( ) const
virtual

getMinimumXValue/setMinimumXValue

MinimumXValue specify the minimum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual short int itk::AnalyzeObjectEntry::GetMinimumYValue ( ) const
virtual

getMinimumYValue/setMinimumYValue

MinimumYValue specify the minimum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual short int itk::AnalyzeObjectEntry::GetMinimumZValue ( ) const
virtual

getMinimumZValue/setMinimumZValue

MinimumZValue specify the minimum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual unsigned char itk::AnalyzeObjectEntry::GetMirrorFlag ( ) const
virtual

getMirrorFlag/setMirrorFlag

MirrorFlag indicates the axis this object is mirrored around. [ANALYZE only]

virtual std::string itk::AnalyzeObjectEntry::GetName ( void  ) const
inlinevirtual

getName/setName

The Name member of the AVW_Object structure contains a user defined name for this object. Any zero-terminated string can be used, including stringswith embedded spaces.

Definition at line 73 of file itkAnalyzeObjectEntry.h.

References m_Name.

virtual const char* itk::AnalyzeObjectEntry::GetNameOfClass ( ) const
virtual

Run-time type information (and related methods).

Reimplemented from itk::Object.

virtual unsigned char itk::AnalyzeObjectEntry::GetNeighborsUsedFlag ( ) const
virtual

getNeighborsUsedFlag/setNeighborsUsedFlag

NeighborsUsedFlag indicates which neighboring voxels are used in calculating the objects shading. [ANALYZE only]

virtual float itk::AnalyzeObjectEntry::GetOpacity ( ) const
virtual

getOpacity/setOpacity

Opacity and OpacityThickness are used only when rendering 24-bit transparency images. Opacity is a floating point value between .0001 (very transparent) and 1.0 (opaque). The Opacity value is multiplied times the color of each surface voxel intersected, it is also subtracted from 1.0 to determine the amount of shading which can be applied by objects intersected after this object. Ray-casting continues as long as it is possible for remaining objects along the ray path to make contributions. The OpacityThickness parameter allows the surface determined color, to be added in multiple times for thicker objects. This allows the thickness of each object to make a contribution into what can be seen behind it. A value of 1 for OpacityThickness results in only the surface of each object having a contribution.

virtual int itk::AnalyzeObjectEntry::GetOpacityThickness ( ) const
virtual

getOpacityThickness/setOpacityThickness

The thickness of the object

virtual int itk::AnalyzeObjectEntry::GetShades ( ) const
virtual

getShades/setShades

Shades indicates the number of shades available for this object. Only 256 (250 in ANALYZE) total shades are available.

virtual int itk::AnalyzeObjectEntry::GetStartBlue ( ) const
virtual

getStartBlue/setStartBlue

StartBlue specify the starting color for this object. This is usually a darker shade of the ending color. ANALYZE defaults these values to 10% of the ending color.

virtual int itk::AnalyzeObjectEntry::GetStartGreen ( ) const
virtual

getStartGreen/setStartGreen

StartGreen specify the starting color for this object. This is usually a darker shade of the ending color. ANALYZE defaults these values to 10% of the ending color.

virtual int itk::AnalyzeObjectEntry::GetStartRed ( ) const
virtual

getStartRed/setStartRed

StartRed specify the starting color for this object. This is usually a darker shade of the ending color. ANALYZE defaults these values to 10% of the ending color.

virtual unsigned char itk::AnalyzeObjectEntry::GetStatusFlag ( ) const
virtual

getStatusFlag/setStatusFlag

StatusFlag is used to indicate when an object has changed and may need it's minimum bounding box recomputed. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetXCenter ( ) const
virtual

getXCenter/setXCenter

XCenter specify the rotation center, relative to the volumes center, which the XRotation, YRotation, and ZRotation are rotated around. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetXRotation ( ) const
virtual

getXRotation

XRotation specify a rotation which is applied to this object only. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetXRotationIncrement ( ) const
virtual

getXRotationIncrement

XRotationIncrement specify increments that are applies to XRotation, YRotation, and ZRotation when making a sequence. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetXTranslation ( ) const
virtual

getXTranslation

XTranslation specify a translation which is applied to this object only. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetXTranslationIncrement ( ) const
virtual

getXTranslation

XTranslationIncrement specify increments that are applies to XTranslation, YTranslation, and ZTranslation when making a sequence. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetYCenter ( ) const
virtual

getYCenter/setYCenter

YCenter specify the rotation center, relative to the volumes center, which the XRotation, YRotation, and ZRotation are rotated around. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetYRotation ( ) const
virtual

getYRotation

YRotation specify a rotation which is applied to this object only. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetYRotationIncrement ( ) const
virtual

getYRotationIncrement

YRotationIncrement specify increments that are applies to XRotation, YRotation, and ZRotation when making a sequence. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetYTranslation ( ) const
virtual

getYTranslation

YTranslation specify a translation which is applied to this object only. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetYTranslationIncrement ( ) const
virtual

getYTranslationIncrement

YTranslationIncrement specify increments that are applies to XTranslation, YTranslation, and ZTranslation when making a sequence. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetZCenter ( ) const
virtual

getZCenter/setZCenter

ZCenter specify the rotation center, relative to the volumes center, which the XRotation, YRotation, and ZRotation are rotated around. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetZRotation ( ) const
virtual

getZRotation

ZRotation specify a rotation which is applied to this object only. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetZRotationIncrement ( ) const
virtual

getZRotationIncrement

ZRotationIncrement specify increments that are applies to XRotation, YRotation, and ZRotation when making a sequence. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetZTranslation ( ) const
virtual

getZTranslation

ZTranslation specify a translation which is applied to this object only. [ANALYZE only]

virtual int itk::AnalyzeObjectEntry::GetZTranslationIncrement ( ) const
virtual

getZTranslation

ZTranslationIncrement specify increments that are applies to XTranslation, YTranslation, and ZTranslation when making a sequence. [ANALYZE only]

static Pointer itk::AnalyzeObjectEntry::New ( )
static

Method for creation through the object factory.

void itk::AnalyzeObjectEntry::Print ( std::ostream &  myfile)

Print.

This function will print out all of the ivars out to any file that the user wants. This is mostly used for debugging purposes.

void itk::AnalyzeObjectEntry::PrintSelf ( std::ostream &  os,
Indent  indent 
) const
overrideprotectedvirtual

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::Object.

template<typename TValue >
void itk::AnalyzeObjectEntry::ReadBytes ( std::ifstream &  inputFileStream,
TValue *  dest,
const int  Replications,
const bool  NeedByteSwap 
)
private
void itk::AnalyzeObjectEntry::ReadFromFilePointer ( std::ifstream &  inputFileStream,
const bool  NeedByteSwap,
const bool   
)

ReadFromFilePointer.

This function will read in all of the ivars from a file location that is passed into it.

virtual void itk::AnalyzeObjectEntry::SetBlendFactor ( float  _arg)
virtual

getBlendFactor/setBlendFactor

Determines the amount of object color verses composite color. A value of 1.0, causes all the color to come from the object. A value of 0.0 causes all the color to come from the alpha map. A value of .5 will cause half to come from each.

virtual void itk::AnalyzeObjectEntry::SetCopyFlag ( unsigned char  _arg)
virtual

getCopyFlag gets the Copy Flag

CopyFlag indicates object translation, rotation, and mirroring are applied to a copy of the actual object, rather than the object itself. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetDisplayFlag ( int  _arg)
virtual

Set built-in type. Creates member Set"name"() (e.g., SetVisibility());

virtual void itk::AnalyzeObjectEntry::SetEndBlue ( int  _arg)
virtual

getEndBlue/setEndBlue

EndBlue specify the ending color for this object.

virtual void itk::AnalyzeObjectEntry::SetEndGreen ( int  _arg)
virtual

getEndGreen/setEndGreen

EndGreen specify the ending color for this object.

virtual void itk::AnalyzeObjectEntry::SetEndRed ( int  _arg)
virtual

getEndRed/setEndRed

EndRed specify the ending color for this object.

virtual void itk::AnalyzeObjectEntry::SetMaximumXValue ( int  _arg)
virtual

getMaximumXValue/setMaximumXValue

MaximumXValue specify the maximum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetMaximumYValue ( int  _arg)
virtual

getMaximumYValue/setMaximumYValue

MaximumYValue specify the maximum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetMaximumZValue ( int  _arg)
virtual

getMaximumZValue/setMaximumZValue

MaximumZValue specify the maximum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetMinimumXValue ( int  _arg)
virtual

getMinimumXValue/setMinimumXValue

MinimumXValue specify the minimum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetMinimumYValue ( int  _arg)
virtual

getMinimumYValue/setMinimumYValue

MinimumYValue specify the minimum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetMinimumZValue ( int  _arg)
virtual

getMinimumZValue/setMinimumZValue

MinimumZValue specify the minimum enclosing brick used by ANALYZE to increase the rendering speed of individual objects during object translations and rotations. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetMirrorFlag ( unsigned char  _arg)
virtual

getMirrorFlag/setMirrorFlag

MirrorFlag indicates the axis this object is mirrored around. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetName ( const std::string  _arg)
inlinevirtual

Set built-in type. Creates member Set"name"() (e.g., SetVisibility());

Definition at line 81 of file itkAnalyzeObjectEntry.h.

References m_Name, and itk::Object::Modified().

virtual void itk::AnalyzeObjectEntry::SetNeighborsUsedFlag ( unsigned char  _arg)
virtual

getNeighborsUsedFlag/setNeighborsUsedFlag

NeighborsUsedFlag indicates which neighboring voxels are used in calculating the objects shading. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetOpacity ( float  _arg)
virtual

getOpacity/setOpacity

Opacity and OpacityThickness are used only when rendering 24-bit transparency images. Opacity is a floating point value between .0001 (very transparent) and 1.0 (opaque). The Opacity value is multiplied times the color of each surface voxel intersected, it is also subtracted from 1.0 to determine the amount of shading which can be applied by objects intersected after this object. Ray-casting continues as long as it is possible for remaining objects along the ray path to make contributions. The OpacityThickness parameter allows the surface determined color, to be added in multiple times for thicker objects. This allows the thickness of each object to make a contribution into what can be seen behind it. A value of 1 for OpacityThickness results in only the surface of each object having a contribution.

virtual void itk::AnalyzeObjectEntry::SetOpacityThickness ( int  _arg)
virtual

getOpacityThickness/setOpacityThickness

The thickness of the object

virtual void itk::AnalyzeObjectEntry::SetShades ( int  _arg)
virtual

getShades/setShades

Shades indicates the number of shades available for this object. Only 256 (250 in ANALYZE) total shades are available.

virtual void itk::AnalyzeObjectEntry::SetStartBlue ( int  _arg)
virtual

getStartBlue/setStartBlue

StartBlue specify the starting color for this object. This is usually a darker shade of the ending color. ANALYZE defaults these values to 10% of the ending color.

virtual void itk::AnalyzeObjectEntry::SetStartGreen ( int  _arg)
virtual

getStartGreen/setStartGreen

StartGreen specify the starting color for this object. This is usually a darker shade of the ending color. ANALYZE defaults these values to 10% of the ending color.

virtual void itk::AnalyzeObjectEntry::SetStartRed ( int  _arg)
virtual

getStartRed/setStartRed

StartRed specify the starting color for this object. This is usually a darker shade of the ending color. ANALYZE defaults these values to 10% of the ending color.

virtual void itk::AnalyzeObjectEntry::SetStatusFlag ( unsigned char  _arg)
virtual

getStatusFlag/setStatusFlag

StatusFlag is used to indicate when an object has changed and may need it's minimum bounding box recomputed. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetXCenter ( int  _arg)
virtual

getXCenter/setXCenter

XCenter specify the rotation center, relative to the volumes center, which the XRotation, YRotation, and ZRotation are rotated around. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetXRotation ( int  _arg)
virtual

getXRotation

XRotation specify a rotation which is applied to this object only. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetXRotationIncrement ( int  _arg)
virtual

getXRotationIncrement

XRotationIncrement specify increments that are applies to XRotation, YRotation, and ZRotation when making a sequence. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetXTranslation ( int  _arg)
virtual

getXTranslation

XTranslation specify a translation which is applied to this object only. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetXTranslationIncrement ( int  _arg)
virtual

getXTranslation

XTranslationIncrement specify increments that are applies to XTranslation, YTranslation, and ZTranslation when making a sequence. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetYCenter ( int  _arg)
virtual

getYCenter/setYCenter

YCenter specify the rotation center, relative to the volumes center, which the XRotation, YRotation, and ZRotation are rotated around. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetYRotation ( int  _arg)
virtual

getYRotation

YRotation specify a rotation which is applied to this object only. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetYRotationIncrement ( int  _arg)
virtual

getYRotationIncrement

YRotationIncrement specify increments that are applies to XRotation, YRotation, and ZRotation when making a sequence. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetYTranslation ( int  _arg)
virtual

getYTranslation

YTranslation specify a translation which is applied to this object only. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetYTranslationIncrement ( int  _arg)
virtual

getYTranslationIncrement

YTranslationIncrement specify increments that are applies to XTranslation, YTranslation, and ZTranslation when making a sequence. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetZCenter ( int  _arg)
virtual

getZCenter/setZCenter

ZCenter specify the rotation center, relative to the volumes center, which the XRotation, YRotation, and ZRotation are rotated around. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetZRotation ( int  _arg)
virtual

getZRotation

ZRotation specify a rotation which is applied to this object only. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetZRotationIncrement ( int  _arg)
virtual

getZRotationIncrement

ZRotationIncrement specify increments that are applies to XRotation, YRotation, and ZRotation when making a sequence. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetZTranslation ( int  _arg)
virtual

getZTranslation

ZTranslation specify a translation which is applied to this object only. [ANALYZE only]

virtual void itk::AnalyzeObjectEntry::SetZTranslationIncrement ( int  _arg)
virtual

getZTranslation

ZTranslationIncrement specify increments that are applies to XTranslation, YTranslation, and ZTranslation when making a sequence. [ANALYZE only]

void itk::AnalyzeObjectEntry::SwapObjectEndedness ( )

SwapObjectEndeness.

This function will change the object endedness if the computer is a little endian machine, since the object maps are written in big endian.

void itk::AnalyzeObjectEntry::Write ( std::ofstream &  outputFileStream)

Write.

This function will write out all of the ivars to a file location that is passed into it.

Member Data Documentation

float itk::AnalyzeObjectEntry::m_BlendFactor
private

Definition at line 660 of file itkAnalyzeObjectEntry.h.

unsigned char itk::AnalyzeObjectEntry::m_CopyFlag
private

Definition at line 626 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_DisplayFlag
private

Definition at line 625 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_EndBlue
private

Definition at line 636 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_EndGreen
private

Definition at line 635 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_EndRed
private

Definition at line 634 of file itkAnalyzeObjectEntry.h.

short int itk::AnalyzeObjectEntry::m_MaximumXValue
private

Definition at line 655 of file itkAnalyzeObjectEntry.h.

short int itk::AnalyzeObjectEntry::m_MaximumYValue
private

Definition at line 656 of file itkAnalyzeObjectEntry.h.

short int itk::AnalyzeObjectEntry::m_MaximumZValue
private

Definition at line 657 of file itkAnalyzeObjectEntry.h.

short int itk::AnalyzeObjectEntry::m_MinimumXValue
private

Definition at line 652 of file itkAnalyzeObjectEntry.h.

short int itk::AnalyzeObjectEntry::m_MinimumYValue
private

Definition at line 653 of file itkAnalyzeObjectEntry.h.

short int itk::AnalyzeObjectEntry::m_MinimumZValue
private

Definition at line 654 of file itkAnalyzeObjectEntry.h.

unsigned char itk::AnalyzeObjectEntry::m_MirrorFlag
private

Definition at line 627 of file itkAnalyzeObjectEntry.h.

char itk::AnalyzeObjectEntry::m_Name[33]
private

Definition at line 624 of file itkAnalyzeObjectEntry.h.

Referenced by GetName(), and SetName().

unsigned char itk::AnalyzeObjectEntry::m_NeighborsUsedFlag
private

Definition at line 629 of file itkAnalyzeObjectEntry.h.

float itk::AnalyzeObjectEntry::m_Opacity
private

Definition at line 658 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_OpacityThickness
private

Definition at line 659 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_Shades
private

Definition at line 630 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_StartBlue
private

Definition at line 633 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_StartGreen
private

Definition at line 632 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_StartRed
private

Definition at line 631 of file itkAnalyzeObjectEntry.h.

unsigned char itk::AnalyzeObjectEntry::m_StatusFlag
private

Definition at line 628 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_XCenter
private

Definition at line 643 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_XRotation
private

Definition at line 637 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_XRotationIncrement
private

Definition at line 646 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_XTranslation
private

Definition at line 640 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_XTranslationIncrement
private

Definition at line 649 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_YCenter
private

Definition at line 644 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_YRotation
private

Definition at line 638 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_YRotationIncrement
private

Definition at line 647 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_YTranslation
private

Definition at line 641 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_YTranslationIncrement
private

Definition at line 650 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_ZCenter
private

Definition at line 645 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_ZRotation
private

Definition at line 639 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_ZRotationIncrement
private

Definition at line 648 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_ZTranslation
private

Definition at line 642 of file itkAnalyzeObjectEntry.h.

int itk::AnalyzeObjectEntry::m_ZTranslationIncrement
private

Definition at line 651 of file itkAnalyzeObjectEntry.h.


The documentation for this class was generated from the following file: