27 #ifndef __vtkVolumeMapper_h
28 #define __vtkVolumeMapper_h
36 #define VTK_CROP_SUBVOLUME 0x0002000
37 #define VTK_CROP_FENCE 0x2ebfeba
38 #define VTK_CROP_INVERTED_FENCE 0x5140145
39 #define VTK_CROP_CROSS 0x0417410
40 #define VTK_CROP_INVERTED_CROSS 0x7be8bef
64 vtkSetMacro( BlendMode,
int );
73 vtkGetMacro( BlendMode,
int );
79 vtkSetClampMacro(Cropping,
int,0,1);
80 vtkGetMacro(Cropping,
int);
81 vtkBooleanMacro(Cropping,
int);
88 vtkSetVector6Macro( CroppingRegionPlanes,
double );
89 vtkGetVectorMacro( CroppingRegionPlanes,
double, 6 );
95 vtkGetVectorMacro( VoxelCroppingRegionPlanes,
double, 6 );
108 vtkSetClampMacro( CroppingRegionFlags,
int, 0x0, 0x7ffffff );
109 vtkGetMacro( CroppingRegionFlags,
int );
152 double CroppingRegionPlanes[6];
153 double VoxelCroppingRegionPlanes[6];
155 void ConvertCroppingRegionPlanesToVoxels();
void SetBlendModeToAdditive()
represents a volume (data & properties) in a rendered scene
Abstract class for a volume mapper.
virtual void Render(vtkRenderer *ren, vtkVolume *vol)=0
abstract class to specify dataset behavior
void SetCroppingRegionFlagsToCross()
Abstract class for a volume mapper.
abstract specification for renderers
void PrintSelf(ostream &os, vtkIndent indent)
void SetCroppingRegionFlagsToSubVolume()
window superclass for vtkRenderWindow
void SetCroppingRegionFlagsToInvertedFence()
virtual void SetInput(vtkDataSet *)
#define VTK_CROP_INVERTED_CROSS
void SetBlendModeToComposite()
a simple class to control print indentation
topologically and geometrically regular array of data
void SetCroppingRegionFlagsToFence()
#define VTK_CROP_SUBVOLUME
void SetCroppingRegionFlagsToInvertedCross()
virtual int FillInputPortInformation(int port, vtkInformation *info)
void SetBlendModeToMinimumIntensity()
virtual void ReleaseGraphicsResources(vtkWindow *)
void SetBlendModeToMaximumIntensity()
#define VTK_CROP_INVERTED_FENCE