vtkImageRectilinearWipe Class Reference

#include <vtkImageRectilinearWipe.h>

Inheritance diagram for vtkImageRectilinearWipe:

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Collaboration diagram for vtkImageRectilinearWipe:

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List of all members.

Detailed Description

make a rectilinear combination of two images.

vtkImageRectilinearWipe makes a rectilinear combination of two images. The two input images must correspond in size, scalar type and number of components. The resulting image has four possible configurations called: Quad - alternate input 0 and input 1 horizontally and vertically. Select this with SetWipeModeToQuad. The Position specifies the location of the quad intersection. Corner - 3 of one input and 1 of the other. Select the location of input 0 with with SetWipeModeToLowerLeft, SetWipeModeToLowerRight, SetWipeModeToUpperLeft and SetWipeModeToUpperRight. The Position selects the location of the corner. Horizontal - alternate input 0 and input 1 with a vertical split. Select this with SetWipeModeToHorizontal. Position[0] specifies the location of the vertical transition between input 0 and input 1. Vertical - alternate input 0 and input 1 with a horizontal split. Only the y The intersection point of the rectilinear points is controlled with the Point ivar.

Thanks:: This work was supported by PHS Research Grant No. 1 P41 RR13218-01 from the National Center for Research Resources.

See also:: vtkImageCheckerboard

Tests:: vtkImageRectilinearWipe (Tests)

Definition at line 62 of file vtkImageRectilinearWipe.h.


Public Types
typedef vtkThreadedImageAlgorithm	Superclass
Public Member Functions
virtual const char *	GetClassName ()
virtual int	IsA (const char *type)
void	PrintSelf (ostream &os, vtkIndent indent)

virtual void	SetPosition (int, int)
void	SetPosition (int[2])
virtual int *	GetPosition ()
virtual void	GetPosition (int data[2])

virtual void	SetInput1 (vtkDataObject *in)
virtual void	SetInput2 (vtkDataObject *in)

virtual void	SetWipe (int)
virtual int	GetWipe ()
void	SetWipeToQuad ()
void	SetWipeToHorizontal ()
void	SetWipeToVertical ()
void	SetWipeToLowerLeft ()
void	SetWipeToLowerRight ()
void	SetWipeToUpperLeft ()
void	SetWipeToUpperRight ()
Static Public Member Functions
static vtkImageRectilinearWipe *	New ()
static int	IsTypeOf (const char *type)
static vtkImageRectilinearWipe *	SafeDownCast (vtkObject *o)
Protected Member Functions
	vtkImageRectilinearWipe ()
	~vtkImageRectilinearWipe ()
virtual void	ThreadedRequestData (vtkInformation request, vtkInformationVector inputVector, vtkInformationVector outputVector, vtkImageData *inData, vtkImageData outData, int extent[6], int threadId)
Protected Attributes
int	Position [2]
int	Wipe

Member Typedef Documentation

typedef vtkThreadedImageAlgorithm vtkImageRectilinearWipe::Superclass

Reimplemented from vtkThreadedImageAlgorithm.

Definition at line 66 of file vtkImageRectilinearWipe.h.

Constructor & Destructor Documentation

vtkImageRectilinearWipe::vtkImageRectilinearWipe ( ) [protected]

vtkImageRectilinearWipe::~vtkImageRectilinearWipe ( ) [inline, protected]

Definition at line 117 of file vtkImageRectilinearWipe.h.

Member Function Documentation

static vtkImageRectilinearWipe* vtkImageRectilinearWipe::New ( ) [static]

Create an object with Debug turned off, modified time initialized to zero, and reference counting on.

Reimplemented from vtkAlgorithm.

virtual const char* vtkImageRectilinearWipe::GetClassName ( ) [virtual]

Reimplemented from vtkThreadedImageAlgorithm.

static int vtkImageRectilinearWipe::IsTypeOf ( const char * name ) [static]

Return 1 if this class type is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeRevisionMacro found in vtkSetGet.h.

Reimplemented from vtkThreadedImageAlgorithm.

virtual int vtkImageRectilinearWipe::IsA ( const char * name ) [virtual]

Return 1 if this class is the same type of (or a subclass of) the named class. Returns 0 otherwise. This method works in combination with vtkTypeRevisionMacro found in vtkSetGet.h.

Reimplemented from vtkThreadedImageAlgorithm.

static vtkImageRectilinearWipe* vtkImageRectilinearWipe::SafeDownCast ( vtkObject * o ) [static]

Reimplemented from vtkThreadedImageAlgorithm.

void vtkImageRectilinearWipe::PrintSelf	(	ostream &	os,
		vtkIndent	indent
	)			`[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 vtkThreadedImageAlgorithm.

virtual void vtkImageRectilinearWipe::SetPosition	(	int	,
		int
	)			`[virtual]`

Set/Get the location of the image transition. Note that position is specified in pixels.

void vtkImageRectilinearWipe::SetPosition ( int [2] )

Set/Get the location of the image transition. Note that position is specified in pixels.

virtual int* vtkImageRectilinearWipe::GetPosition ( ) [virtual]

Set/Get the location of the image transition. Note that position is specified in pixels.

virtual void vtkImageRectilinearWipe::GetPosition ( int data[2] ) [virtual]

Set/Get the location of the image transition. Note that position is specified in pixels.

virtual void vtkImageRectilinearWipe::SetInput1 ( vtkDataObject * in ) [inline, virtual]

Set the two inputs to this filter.

Definition at line 78 of file vtkImageRectilinearWipe.h.

virtual void vtkImageRectilinearWipe::SetInput2 ( vtkDataObject * in ) [inline, virtual]

Set the two inputs to this filter.

Definition at line 79 of file vtkImageRectilinearWipe.h.

virtual void vtkImageRectilinearWipe::SetWipe ( int ) [virtual]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

virtual int vtkImageRectilinearWipe::GetWipe ( ) [virtual]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

void vtkImageRectilinearWipe::SetWipeToQuad ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 99 of file vtkImageRectilinearWipe.h.

void vtkImageRectilinearWipe::SetWipeToHorizontal ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 101 of file vtkImageRectilinearWipe.h.

void vtkImageRectilinearWipe::SetWipeToVertical ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 103 of file vtkImageRectilinearWipe.h.

void vtkImageRectilinearWipe::SetWipeToLowerLeft ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 105 of file vtkImageRectilinearWipe.h.

void vtkImageRectilinearWipe::SetWipeToLowerRight ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 107 of file vtkImageRectilinearWipe.h.

void vtkImageRectilinearWipe::SetWipeToUpperLeft ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 109 of file vtkImageRectilinearWipe.h.

void vtkImageRectilinearWipe::SetWipeToUpperRight ( ) [inline]

Specify the wipe mode. This mode determnis how input 0 and input 1 are combined to produce the output. Each mode uses one or both of the values stored in Position. SetWipeToQuad - alternate input 0 and input 1 horizontally and vertically. The Position specifies the location of the quad intersection. SetWipeToLowerLeft{LowerRight,UpperLeft.UpperRight} - 3 of one input and 1 of the other. Select the location of input 0 to the LowerLeft{LowerRight,UpperLeft,UpperRight}. Position selects the location of the corner. SetWipeToHorizontal - alternate input 0 and input 1 with a vertical split. Position[0] specifies the location of the vertical transition between input 0 and input 1. SetWipeToVertical - alternate input 0 and input 1 with a horizontal split. Position[1] specifies the location of the horizonal transition between input 0 and input 1.

Definition at line 111 of file vtkImageRectilinearWipe.h.

virtual void vtkImageRectilinearWipe::ThreadedRequestData	(	vtkInformation *	request,
		vtkInformationVector **	inputVector,
		vtkInformationVector *	outputVector,
		vtkImageData ***	inData,
		vtkImageData **	outData,
		int	extent[6],
		int	threadId
	)			`[protected, virtual]`

If the subclass does not define an Execute method, then the task will be broken up, multiple threads will be spawned, and each thread will call this method. It is public so that the thread functions can call this method.

Reimplemented from vtkThreadedImageAlgorithm.