49 #ifndef __vtkImageRectilinearWipe_h
50 #define __vtkImageRectilinearWipe_h
54 #define VTK_WIPE_QUAD 0
55 #define VTK_WIPE_HORIZONTAL 1
56 #define VTK_WIPE_VERTICAL 2
57 #define VTK_WIPE_LOWER_LEFT 3
58 #define VTK_WIPE_LOWER_RIGHT 4
59 #define VTK_WIPE_UPPER_LEFT 5
60 #define VTK_WIPE_UPPER_RIGHT 6
72 vtkSetVector2Macro(Position,
int);
73 vtkGetVectorMacro(Position,
int,2);
79 vtkSetVector2Macro(Axis,
int);
80 vtkGetVectorMacro(Axis,
int,2);
105 vtkGetMacro(Wipe,
int);
131 int extent[6],
int threadId);
#define VTK_WIPE_LOWER_LEFT
#define VTK_WIPE_LOWER_RIGHT
void SetWipeToUpperLeft()
void PrintSelf(ostream &os, vtkIndent indent)
#define VTK_WIPE_UPPER_RIGHT
Generic filter that has one input..
void SetInput(vtkDataObject *)
void SetWipeToLowerRight()
a simple class to control print indentation
topologically and geometrically regular array of data
#define VTK_WIPE_VERTICAL
#define VTK_WIPE_UPPER_LEFT
make a rectilinear combination of two images.
virtual void SetInput1(vtkDataObject *in)
void SetWipeToUpperRight()
virtual void ThreadedRequestData(vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector, vtkImageData ***inData, vtkImageData **outData, int extent[6], int threadId)
~vtkImageRectilinearWipe()
static vtkAlgorithm * New()
void SetWipeToLowerLeft()
#define VTK_WIPE_HORIZONTAL
void SetWipeToHorizontal()
general representation of visualization data
virtual void SetInput2(vtkDataObject *in)