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vtkExtractCTHPart Class Reference

Generates surface of an CTH volume fraction. More...

#include <vtkExtractCTHPart.h>

Inherits vtkMultiBlockDataSetAlgorithm.

Collaboration diagram for vtkExtractCTHPart:
[legend]

Public Types

typedef
vtkMultiBlockDataSetAlgorithm 
Superclass
 

Public Member Functions

virtual int IsA (const char *type)
 
vtkExtractCTHPartNewInstance () const
 
void PrintSelf (ostream &os, vtkIndent indent)
 
unsigned long GetMTime ()
 
void SetController (vtkMultiProcessController *controller)
 
void RemoveDoubleVolumeArrayNames ()
 
void RemoveFloatVolumeArrayNames ()
 
void RemoveUnsignedCharVolumeArrayNames ()
 
int GetNumberOfVolumeArrayNames ()
 
const char * GetVolumeArrayName (int idx)
 
void RemoveAllVolumeArrayNames ()
 
void AddDoubleVolumeArrayName (char *arrayName)
 
void AddFloatVolumeArrayName (char *arrayName)
 
void AddUnsignedCharVolumeArrayName (char *arrayName)
 
void AddVolumeArrayName (char *arrayName)
 
void SetClipPlane (vtkPlane *clipPlane)
 
virtual vtkPlane * GetClipPlane ()
 
virtual vtkMultiProcessController * GetController ()
 
virtual void SetVolumeFractionSurfaceValue (double)
 
virtual double GetVolumeFractionSurfaceValue ()
 

Static Public Member Functions

static int IsTypeOf (const char *type)
 
static vtkExtractCTHPartSafeDownCast (vtkObjectBase *o)
 
static vtkExtractCTHPartNew ()
 

Protected Member Functions

virtual vtkObjectBase * NewInstanceInternal () const
 
 vtkExtractCTHPart ()
 
 ~vtkExtractCTHPart ()
 
virtual int RequestInformation (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector)
 
virtual int RequestData (vtkInformation *, vtkInformationVector **, vtkInformationVector *)
 
void ExecutePart (const char *arrayName, vtkCompositeDataSet *input, vtkAppendPolyData *appendSurface, vtkAppendPolyData *append, float minProgress, float maxProgress)
 
void ExecutePartOnUniformGrid (const char *arrayName, vtkUniformGrid *input, vtkAppendPolyData *appendSurface, vtkAppendPolyData *append, float minProgress, float maxProgress)
 
void ExecutePartOnRectilinearGrid (const char *arrayName, vtkRectilinearGrid *input, vtkAppendPolyData *appendSurface, vtkAppendPolyData *append, float minProgress, float maxProgress)
 
void ExecuteCellDataToPointData (vtkDataArray *cellVolumeFraction, vtkDoubleArray *pointVolumeFraction, int *dims, float minProgress, float maxProgress, int reportProgress)
 
virtual int FillInputPortInformation (int port, vtkInformation *info)
 
void CreateInternalPipeline ()
 
void DeleteInternalPipeline ()
 
void ExecuteFaceQuads (vtkDataSet *input, vtkPolyData *output, int maxFlag, int originExtents[3], int ext[6], int aAxis, int bAxis, int cAxis)
 
void EvaluateVolumeFractionType (vtkRectilinearGrid *rg, vtkCompositeDataSet *input)
 
void ComputeBounds (vtkCompositeDataSet *input, int processNumber, int numProcessors)
 
int ExtractUniformGridSurface (vtkUniformGrid *input, vtkPolyData *output)
 
int ExtractRectilinearGridSurface (vtkRectilinearGrid *input, vtkPolyData *output)
 
int IsGhostFace (int axis0, int maxFlag, int dims[3], vtkUnsignedCharArray *ghostArray)
 

Protected Attributes

vtkPlane * ClipPlane
 
vtkExtractCTHPartInternal * Internals
 
vtkDoubleArray * PointVolumeFraction
 
vtkUniformGrid * Data
 
vtkContourFilterContour
 
vtkAppendPolyDataAppend2
 
vtkClipPolyDataClip1
 
vtkCutterCut
 
vtkClipPolyDataClip2
 
vtkPolyData * PolyData
 
vtkAlgorithm * PolyDataProducer
 
vtkPolyData * RPolyData
 
vtkAlgorithm * RPolyDataProducer
 
vtkPolyData * SurfacePolyData
 
vtkRectilinearGrid * RData
 
vtkContourFilterRContour
 
vtkAppendPolyDataRAppend2
 
vtkClipPolyDataRClip1
 
vtkCutterRCut
 
vtkClipPolyDataRClip2
 
int VolumeFractionType
 
double VolumeFractionSurfaceValue
 
double VolumeFractionSurfaceValueInternal
 
int OverwriteVolumeFractionSurfaceValue
 
vtkBoundingBox * Bounds
 
vtkMultiProcessController * Controller
 

Detailed Description

Generates surface of an CTH volume fraction.

vtkExtractCTHPart is a filter that is specialized for creating visualization of a CTH simulation. First it converts the cell data to point data. It contours the selected volume fraction at a value of 0.5. The user has the option of clipping the part with a plane. Clipped surfaces of the part are generated.

Tests:
vtkExtractCTHPart (Tests)

Definition at line 56 of file vtkExtractCTHPart.h.

Member Typedef Documentation

typedef vtkMultiBlockDataSetAlgorithm vtkExtractCTHPart::Superclass

Definition at line 59 of file vtkExtractCTHPart.h.

Constructor & Destructor Documentation

vtkExtractCTHPart::vtkExtractCTHPart ( )
protected
vtkExtractCTHPart::~vtkExtractCTHPart ( )
protected

Member Function Documentation

static int vtkExtractCTHPart::IsTypeOf ( const char *  type)
static
virtual int vtkExtractCTHPart::IsA ( const char *  type)
virtual
static vtkExtractCTHPart* vtkExtractCTHPart::SafeDownCast ( vtkObjectBase *  o)
static
virtual vtkObjectBase* vtkExtractCTHPart::NewInstanceInternal ( ) const
protectedvirtual
vtkExtractCTHPart* vtkExtractCTHPart::NewInstance ( ) const
void vtkExtractCTHPart::PrintSelf ( ostream &  os,
vtkIndent  indent 
)
static vtkExtractCTHPart* vtkExtractCTHPart::New ( )
static

Construct object with initial range (0,1) and single contour value of 0.0.

void vtkExtractCTHPart::RemoveDoubleVolumeArrayNames ( )

Names of cell volume fraction arrays to extract.

void vtkExtractCTHPart::RemoveFloatVolumeArrayNames ( )

Names of cell volume fraction arrays to extract.

void vtkExtractCTHPart::RemoveUnsignedCharVolumeArrayNames ( )

Names of cell volume fraction arrays to extract.

int vtkExtractCTHPart::GetNumberOfVolumeArrayNames ( )

Names of cell volume fraction arrays to extract.

const char* vtkExtractCTHPart::GetVolumeArrayName ( int  idx)

Names of cell volume fraction arrays to extract.

void vtkExtractCTHPart::RemoveAllVolumeArrayNames ( )

Names of cell volume fraction arrays to extract.

void vtkExtractCTHPart::AddDoubleVolumeArrayName ( char *  arrayName)

Names of cell volume fraction arrays to extract. Each of the volume fraction arrays must be of the same type. These three methods enforce that on input, removing any prior arrays of the wrong type whenever a new array is added.

void vtkExtractCTHPart::AddFloatVolumeArrayName ( char *  arrayName)

Names of cell volume fraction arrays to extract. Each of the volume fraction arrays must be of the same type. These three methods enforce that on input, removing any prior arrays of the wrong type whenever a new array is added.

void vtkExtractCTHPart::AddUnsignedCharVolumeArrayName ( char *  arrayName)

Names of cell volume fraction arrays to extract. Each of the volume fraction arrays must be of the same type. These three methods enforce that on input, removing any prior arrays of the wrong type whenever a new array is added.

void vtkExtractCTHPart::AddVolumeArrayName ( char *  arrayName)

Names of cell volume fraction arrays to extract. Each of the volume fraction arrays must be of the same type. These three methods enforce that on input, removing any prior arrays of the wrong type whenever a new array is added.

void vtkExtractCTHPart::SetClipPlane ( vtkPlane *  clipPlane)

Set, get or maninpulate the implicit clipping plane.

virtual vtkPlane* vtkExtractCTHPart::GetClipPlane ( )
virtual

Set, get or maninpulate the implicit clipping plane.

unsigned long vtkExtractCTHPart::GetMTime ( )

Look at clip plane to compute MTime.

void vtkExtractCTHPart::SetController ( vtkMultiProcessController *  controller)

Set the controller used to coordinate parallel processing.

virtual vtkMultiProcessController* vtkExtractCTHPart::GetController ( )
virtual

Return the controller used to coordinate parallel processing. By default, it is the global controller.

virtual void vtkExtractCTHPart::SetVolumeFractionSurfaceValue ( double  )
virtual

Set and get the volume fraction surface value. This value should be between 0 and 1

virtual double vtkExtractCTHPart::GetVolumeFractionSurfaceValue ( )
virtual

Set and get the volume fraction surface value. This value should be between 0 and 1

virtual int vtkExtractCTHPart::RequestInformation ( vtkInformation *  request,
vtkInformationVector **  inputVector,
vtkInformationVector *  outputVector 
)
protectedvirtual
virtual int vtkExtractCTHPart::RequestData ( vtkInformation *  ,
vtkInformationVector **  ,
vtkInformationVector *   
)
protectedvirtual
void vtkExtractCTHPart::ComputeBounds ( vtkCompositeDataSet *  input,
int  processNumber,
int  numProcessors 
)
protected

the input is a hierarchy of vtkUniformGrid or one level of vtkRectilinearGrid. The output is a hierarchy of vtkPolyData.

Compute the bounds over the composite dataset, some sub-dataset can be on other processors.

void vtkExtractCTHPart::ExecutePart ( const char *  arrayName,
vtkCompositeDataSet *  input,
vtkAppendPolyData appendSurface,
vtkAppendPolyData append,
float  minProgress,
float  maxProgress 
)
protected
void vtkExtractCTHPart::ExecutePartOnUniformGrid ( const char *  arrayName,
vtkUniformGrid *  input,
vtkAppendPolyData appendSurface,
vtkAppendPolyData append,
float  minProgress,
float  maxProgress 
)
protected
void vtkExtractCTHPart::ExecutePartOnRectilinearGrid ( const char *  arrayName,
vtkRectilinearGrid *  input,
vtkAppendPolyData appendSurface,
vtkAppendPolyData append,
float  minProgress,
float  maxProgress 
)
protected
void vtkExtractCTHPart::ExecuteCellDataToPointData ( vtkDataArray *  cellVolumeFraction,
vtkDoubleArray *  pointVolumeFraction,
int *  dims,
float  minProgress,
float  maxProgress,
int  reportProgress 
)
protected
virtual int vtkExtractCTHPart::FillInputPortInformation ( int  port,
vtkInformation *  info 
)
protectedvirtual
void vtkExtractCTHPart::CreateInternalPipeline ( )
protected
void vtkExtractCTHPart::DeleteInternalPipeline ( )
protected
int vtkExtractCTHPart::ExtractUniformGridSurface ( vtkUniformGrid *  input,
vtkPolyData *  output 
)
protected

Append quads for faces of the block that actually on the bounds of the hierarchical dataset. Deals with ghost cells. Return true if the output is not empty.

int vtkExtractCTHPart::ExtractRectilinearGridSurface ( vtkRectilinearGrid *  input,
vtkPolyData *  output 
)
protected

Append quads for faces of the block that actually on the bounds of the hierarchical dataset. Deals with ghost cells. Return true if the output is not empty.

void vtkExtractCTHPart::ExecuteFaceQuads ( vtkDataSet *  input,
vtkPolyData *  output,
int  maxFlag,
int  originExtents[3],
int  ext[6],
int  aAxis,
int  bAxis,
int  cAxis 
)
protected
int vtkExtractCTHPart::IsGhostFace ( int  axis0,
int  maxFlag,
int  dims[3],
vtkUnsignedCharArray *  ghostArray 
)
protected

Is block face on axis0 (either min or max depending on the maxFlag) composed of only ghost cells?

Precondition
valid_axis0: axis0>=0 && axis0<=2
void vtkExtractCTHPart::EvaluateVolumeFractionType ( vtkRectilinearGrid *  rg,
vtkCompositeDataSet *  input 
)
protected

Member Data Documentation

vtkPlane* vtkExtractCTHPart::ClipPlane
protected

Definition at line 214 of file vtkExtractCTHPart.h.

vtkExtractCTHPartInternal* vtkExtractCTHPart::Internals
protected

Definition at line 215 of file vtkExtractCTHPart.h.

vtkDoubleArray* vtkExtractCTHPart::PointVolumeFraction
protected

Definition at line 218 of file vtkExtractCTHPart.h.

vtkUniformGrid* vtkExtractCTHPart::Data
protected

Definition at line 223 of file vtkExtractCTHPart.h.

vtkContourFilter* vtkExtractCTHPart::Contour
protected

Definition at line 226 of file vtkExtractCTHPart.h.

vtkAppendPolyData* vtkExtractCTHPart::Append2
protected

Definition at line 227 of file vtkExtractCTHPart.h.

vtkClipPolyData* vtkExtractCTHPart::Clip1
protected

Definition at line 228 of file vtkExtractCTHPart.h.

vtkCutter* vtkExtractCTHPart::Cut
protected

Definition at line 229 of file vtkExtractCTHPart.h.

vtkClipPolyData* vtkExtractCTHPart::Clip2
protected

Definition at line 230 of file vtkExtractCTHPart.h.

vtkPolyData* vtkExtractCTHPart::PolyData
protected

Definition at line 232 of file vtkExtractCTHPart.h.

vtkAlgorithm* vtkExtractCTHPart::PolyDataProducer
protected

Definition at line 233 of file vtkExtractCTHPart.h.

vtkPolyData* vtkExtractCTHPart::RPolyData
protected

Definition at line 234 of file vtkExtractCTHPart.h.

vtkAlgorithm* vtkExtractCTHPart::RPolyDataProducer
protected

Definition at line 235 of file vtkExtractCTHPart.h.

vtkPolyData* vtkExtractCTHPart::SurfacePolyData
protected

Definition at line 236 of file vtkExtractCTHPart.h.

vtkRectilinearGrid* vtkExtractCTHPart::RData
protected

Definition at line 238 of file vtkExtractCTHPart.h.

vtkContourFilter* vtkExtractCTHPart::RContour
protected

Definition at line 239 of file vtkExtractCTHPart.h.

vtkAppendPolyData* vtkExtractCTHPart::RAppend2
protected

Definition at line 240 of file vtkExtractCTHPart.h.

vtkClipPolyData* vtkExtractCTHPart::RClip1
protected

Definition at line 241 of file vtkExtractCTHPart.h.

vtkCutter* vtkExtractCTHPart::RCut
protected

Definition at line 242 of file vtkExtractCTHPart.h.

vtkClipPolyData* vtkExtractCTHPart::RClip2
protected

Definition at line 243 of file vtkExtractCTHPart.h.

int vtkExtractCTHPart::VolumeFractionType
protected

Definition at line 247 of file vtkExtractCTHPart.h.

double vtkExtractCTHPart::VolumeFractionSurfaceValue
protected

Definition at line 248 of file vtkExtractCTHPart.h.

double vtkExtractCTHPart::VolumeFractionSurfaceValueInternal
protected

Definition at line 249 of file vtkExtractCTHPart.h.

int vtkExtractCTHPart::OverwriteVolumeFractionSurfaceValue
protected

Definition at line 250 of file vtkExtractCTHPart.h.

vtkBoundingBox* vtkExtractCTHPart::Bounds
protected

Definition at line 252 of file vtkExtractCTHPart.h.

vtkMultiProcessController* vtkExtractCTHPart::Controller
protected

Definition at line 254 of file vtkExtractCTHPart.h.


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