83#include "vtkFiltersCoreModule.h"
86#define VTK_SCALE_BY_SCALAR 0
87#define VTK_SCALE_BY_VECTOR 1
88#define VTK_SCALE_BY_VECTORCOMPONENTS 2
89#define VTK_DATA_SCALING_OFF 3
91#define VTK_COLOR_BY_SCALE 0
92#define VTK_COLOR_BY_SCALAR 1
93#define VTK_COLOR_BY_VECTOR 2
95#define VTK_USE_VECTOR 0
96#define VTK_USE_NORMAL 1
97#define VTK_VECTOR_ROTATION_OFF 2
98#define VTK_FOLLOW_CAMERA_DIRECTION 3
100#define VTK_INDEXING_OFF 0
101#define VTK_INDEXING_BY_SCALAR 1
102#define VTK_INDEXING_BY_VECTOR 2
145 this->SetSourceConnection(0, algOutput);
167 vtkSetMacro(ScaleMode,
int);
168 vtkGetMacro(ScaleMode,
int);
176 const char* GetScaleModeAsString();
183 vtkSetMacro(ColorMode,
int);
184 vtkGetMacro(ColorMode,
int);
188 const char* GetColorModeAsString();
195 vtkSetMacro(ScaleFactor,
double);
196 vtkGetMacro(ScaleFactor,
double);
204 vtkGetVectorMacro(
Range,
double, 2);
230 vtkSetMacro(VectorMode,
int);
231 vtkGetMacro(VectorMode,
int);
236 const char* GetVectorModeAsString();
244 vtkSetVectorMacro(FollowedCameraPosition,
double, 3);
245 vtkGetVectorMacro(FollowedCameraPosition,
double, 3);
252 vtkSetVectorMacro(FollowedCameraViewUp,
double, 3);
253 vtkGetVectorMacro(FollowedCameraViewUp,
double, 3);
264 vtkSetMacro(IndexMode,
int);
265 vtkGetMacro(IndexMode,
int);
269 const char* GetIndexModeAsString();
289 vtkSetStringMacro(PointIdsName);
290 vtkGetStringMacro(PointIdsName);
331 vtkSetMacro(OutputPointsPrecision,
int);
332 vtkGetMacro(OutputPointsPrecision,
int);
365 FollowedCameraPosition[3];
366 double FollowedCameraViewUp[3];
387 return "ScaleByScalar";
391 return "ScaleByVector";
395 return "DataScalingOff";
406 return "ColorByScalar";
410 return "ColorByVector";
414 return "ColorByScale";
433 return "FollowCameraDirection";
437 return "VectorRotationOff";
448 return "IndexingOff";
452 return "IndexingByScalar";
456 return "IndexingByVector";
Proxy object to connect input/output ports.
abstract superclass for arrays of numeric data
abstract class to specify dataset behavior
copy oriented and scaled glyph geometry to every input point
void SetIndexModeToScalar()
Index into table of sources by scalar, by vector/normal magnitude, or no indexing.
void SetSourceData(int id, vtkPolyData *pd)
Specify a source object at a specified table location.
void SetScaleModeToScaleByVector()
Either scale by scalar or by vector/normal magnitude.
int OutputPointsPrecision
void SetVectorModeToUseNormal()
Specify whether to use vector or normal to perform vector operations.
const char * GetVectorModeAsString()
Return the vector mode as a character string.
void SetScaleModeToScaleByVectorComponents()
Either scale by scalar or by vector/normal magnitude.
void SetIndexModeToOff()
Index into table of sources by scalar, by vector/normal magnitude, or no indexing.
void SetScaleModeToScaleByScalar()
Either scale by scalar or by vector/normal magnitude.
void SetColorModeToColorByScalar()
Either color by scale, scalar or by vector/normal magnitude.
void SetSourceTransform(vtkTransform *)
When set, this is use to transform the source polydata before using it to generate the glyph.
const char * GetIndexModeAsString()
Return the index mode as a character string.
void PrintSelf(ostream &os, vtkIndent indent) override
Methods invoked by print to print information about the object including superclasses.
const char * GetScaleModeAsString()
Return the method of scaling as a descriptive character string.
void SetVectorModeToUseVector()
Specify whether to use vector or normal to perform vector operations.
void SetScaleModeToDataScalingOff()
Either scale by scalar or by vector/normal magnitude.
vtkMTimeType GetMTime() override
Overridden to include SourceTransform's MTime.
virtual int IsPointVisible(vtkDataSet *, vtkIdType)
This can be overwritten by subclass to return 0 when a point is blanked.
const char * GetColorModeAsString()
Return the method of coloring as a descriptive character string.
void SetSourceConnection(int id, vtkAlgorithmOutput *algOutput)
Specify a source object at a specified table location.
int RequestData(vtkInformation *, vtkInformationVector **, vtkInformationVector *) override
This is called by the superclass.
vtkPolyData * GetSource(int id=0)
Get a pointer to a source object at a specified table location.
void SetColorModeToColorByScale()
Either color by scale, scalar or by vector/normal magnitude.
virtual bool Execute(vtkDataSet *input, vtkInformationVector *sourceVector, vtkPolyData *output, vtkDataArray *inSScalars, vtkDataArray *inVectors)
Method called in RequestData() to do the actual data processing.
void SetColorModeToColorByVector()
Either color by scale, scalar or by vector/normal magnitude.
void SetSourceConnection(vtkAlgorithmOutput *algOutput)
Specify a source object at a specified table location.
int FillInputPortInformation(int, vtkInformation *) override
Fill the input port information objects for this algorithm.
vtkPolyData * GetSource(int idx, vtkInformationVector *sourceInfo)
void SetVectorModeToFollowCameraDirection()
Specify whether to use vector or normal to perform vector operations.
int RequestUpdateExtent(vtkInformation *, vtkInformationVector **, vtkInformationVector *) override
This is called by the superclass.
vtkTransform * SourceTransform
void SetIndexModeToVector()
Index into table of sources by scalar, by vector/normal magnitude, or no indexing.
void SetSourceData(vtkPolyData *pd)
Set the source to use for the glyph.
void SetVectorModeToVectorRotationOff()
Specify whether to use vector or normal to perform vector operations.
vtkTypeBool GeneratePointIds
virtual bool Execute(vtkDataSet *input, vtkInformationVector *sourceVector, vtkPolyData *output)
Method called in RequestData() to do the actual data processing.
static vtkGlyph3D * New()
Construct object with scaling on, scaling mode is by scalar value, scale factor = 1....
a simple class to control print indentation
Superclass for algorithms that produce only polydata as output.
concrete dataset represents vertices, lines, polygons, and triangle strips
auto Range(IterablePtr iterable, Options &&... opts) -> typename detail::IterableTraits< typename detail::StripPointers< IterablePtr >::type >::RangeType
Generate an iterable STL proxy object for a VTK container.
#define VTK_COLOR_BY_VECTOR
#define VTK_FOLLOW_CAMERA_DIRECTION
#define VTK_SCALE_BY_SCALAR
#define VTK_INDEXING_BY_SCALAR
#define VTK_DATA_SCALING_OFF
#define VTK_VECTOR_ROTATION_OFF
#define VTK_COLOR_BY_SCALAR
#define VTK_INDEXING_BY_VECTOR
#define VTK_SCALE_BY_VECTOR
#define VTK_COLOR_BY_SCALE
#define VTK_SCALE_BY_VECTORCOMPONENTS
vtkTypeUInt32 vtkMTimeType