vtkClipClosedSurface Class Reference

#include <vtkClipClosedSurface.h>

Inheritance diagram for vtkClipClosedSurface:

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Collaboration diagram for vtkClipClosedSurface:

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List of all members.


Detailed Description

Clip a closed surface with a plane collection.

vtkClipClosedSurface will clip a closed polydata surface with a collection of clipping planes. It will produce a new closed surface by creating new polygonal faces where the input data was clipped. If GenerateOutline is on, it will also generate an outline wherever the clipping planes intersect the data. The ScalarMode option will add cell scalars to the output, so that the generated faces can be visualized in a different color from the original surface.

Warning:
The triangulation of new faces is done in O(n) time for simple convex inputs, but for non-convex inputs the worst-case time is O(n^2*m^2) where n is the number of points and m is the number of 3D cavities. The best triangulation algorithms, in contrast, are O(n log n). There are also rare cases where the triangulation will fail to produce a watertight output. Turn on TriangulationErrorDisplay to be notified of these failures.
See also:
vtkOutlineFilter vtkOutlineSource vtkVolumeOutlineSource
Thanks:
Thanks to David Gobbi for contributing this class to VTK.
Tests:
vtkClipClosedSurface (Tests)

Definition at line 64 of file vtkClipClosedSurface.h.


Public Types

typedef vtkPolyDataAlgorithm Superclass

Public Member Functions

virtual const char * GetClassName ()
virtual int IsA (const char *type)
void PrintSelf (ostream &os, vtkIndent indent)
void SetGenerateColorScalars (int)
int GetGenerateColorScalars ()
void GenerateColorScalarsOn ()
void GenerateColorScalarsOff ()
virtual void SetClippingPlanes (vtkPlaneCollection *planes)
virtual vtkPlaneCollectionGetClippingPlanes ()
virtual void SetTolerance (double)
virtual double GetTolerance ()
virtual void SetPassPointData (int)
virtual void PassPointDataOn ()
virtual void PassPointDataOff ()
virtual int GetPassPointData ()
virtual void SetGenerateOutline (int)
virtual void GenerateOutlineOn ()
virtual void GenerateOutlineOff ()
virtual int GetGenerateOutline ()
virtual void SetGenerateFaces (int)
virtual void GenerateFacesOn ()
virtual void GenerateFacesOff ()
virtual int GetGenerateFaces ()
virtual void SetScalarMode (int)
void SetScalarModeToNone ()
void SetScalarModeToColors ()
void SetScalarModeToLabels ()
virtual int GetScalarMode ()
const char * GetScalarModeAsString ()
virtual void SetBaseColor (double, double, double)
virtual void SetBaseColor (double[3])
virtual double * GetBaseColor ()
virtual void GetBaseColor (double &, double &, double &)
virtual void GetBaseColor (double[3])
virtual void SetClipColor (double, double, double)
virtual void SetClipColor (double[3])
virtual double * GetClipColor ()
virtual void GetClipColor (double &, double &, double &)
virtual void GetClipColor (double[3])
virtual void SetActivePlaneId (int)
virtual int GetActivePlaneId ()
virtual void SetActivePlaneColor (double, double, double)
virtual void SetActivePlaneColor (double[3])
virtual double * GetActivePlaneColor ()
virtual void GetActivePlaneColor (double &, double &, double &)
virtual void GetActivePlaneColor (double[3])
virtual void SetTriangulationErrorDisplay (int)
virtual void TriangulationErrorDisplayOn ()
virtual void TriangulationErrorDisplayOff ()
virtual int GetTriangulationErrorDisplay ()

Static Public Member Functions

static vtkClipClosedSurfaceNew ()
static int IsTypeOf (const char *type)
static vtkClipClosedSurfaceSafeDownCast (vtkObject *o)

Protected Member Functions

 vtkClipClosedSurface ()
 ~vtkClipClosedSurface ()
virtual int ComputePipelineMTime (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector, int requestFromOutputPort, unsigned long *mtime)
virtual int RequestData (vtkInformation *request, vtkInformationVector **inputVector, vtkInformationVector *outputVector)
void ClipLines (vtkPoints *points, vtkDoubleArray *pointScalars, vtkPointData *pointData, vtkCCSEdgeLocator *edgeLocator, vtkCellArray *inputCells, vtkCellArray *outputLines, vtkCellData *inCellData, vtkCellData *outLineData)
void ClipAndContourPolys (vtkPoints *points, vtkDoubleArray *pointScalars, vtkPointData *pointData, vtkCCSEdgeLocator *edgeLocator, int triangulate, vtkCellArray *inputCells, vtkCellArray *outputPolys, vtkCellArray *outputLines, vtkCellData *inPolyData, vtkCellData *outPolyData, vtkCellData *outLineData)
int TriangulatePolygon (vtkIdList *polygon, vtkPoints *points, vtkCellArray *triangles)
void MakePolysFromContours (vtkPolyData *data, vtkIdType firstLine, vtkIdType numLines, vtkCellArray *outputPolys, const double normal[3])

Static Protected Member Functions

static int InterpolateEdge (vtkPoints *points, vtkPointData *pointData, vtkCCSEdgeLocator *edgeLocator, double tol, vtkIdType i0, vtkIdType i1, double v0, double v1, vtkIdType &i)
static void BreakPolylines (vtkCellArray *inputLines, vtkCellArray *outputLines, vtkUnsignedCharArray *inputScalars, vtkIdType firstLineScalar, vtkUnsignedCharArray *outputScalars, const unsigned char color[3])
static void CopyPolygons (vtkCellArray *inputPolys, vtkCellArray *outputPolys, vtkUnsignedCharArray *inputScalars, vtkIdType firstPolyScalar, vtkUnsignedCharArray *outputScalars, const unsigned char color[3])
static void BreakTriangleStrips (vtkCellArray *inputStrips, vtkCellArray *outputPolys, vtkUnsignedCharArray *inputScalars, vtkIdType firstStripScalar, vtkUnsignedCharArray *outputScalars, const unsigned char color[3])
static void SqueezeOutputPoints (vtkPolyData *output, vtkPoints *points, vtkPointData *pointData, int outputPointDataType)
static void CreateColorValues (const double color1[3], const double color2[3], const double color3[3], unsigned char colors[3][3])

Protected Attributes

vtkPlaneCollectionClippingPlanes
double Tolerance
int PassPointData
int GenerateOutline
int GenerateFaces
int ActivePlaneId
int ScalarMode
double BaseColor [3]
double ClipColor [3]
double ActivePlaneColor [3]
int TriangulationErrorDisplay
vtkIdListIdList
vtkCellArrayCellArray
vtkPolygonPolygon

Member Typedef Documentation

Reimplemented from vtkPolyDataAlgorithm.

Definition at line 68 of file vtkClipClosedSurface.h.


Constructor & Destructor Documentation

vtkClipClosedSurface::vtkClipClosedSurface (  )  [protected]

vtkClipClosedSurface::~vtkClipClosedSurface (  )  [protected]


Member Function Documentation

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

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

Reimplemented from vtkPolyDataAlgorithm.

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

Reimplemented from vtkPolyDataAlgorithm.

static int vtkClipClosedSurface::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 vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkPolyDataAlgorithm.

virtual int vtkClipClosedSurface::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 vtkTypeMacro found in vtkSetGet.h.

Reimplemented from vtkPolyDataAlgorithm.

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

Reimplemented from vtkPolyDataAlgorithm.

void vtkClipClosedSurface::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 vtkPolyDataAlgorithm.

virtual void vtkClipClosedSurface::SetClippingPlanes ( vtkPlaneCollection planes  )  [virtual]

Set the vtkPlaneCollection that holds the clipping planes.

virtual vtkPlaneCollection* vtkClipClosedSurface::GetClippingPlanes (  )  [virtual]

Set the vtkPlaneCollection that holds the clipping planes.

virtual void vtkClipClosedSurface::SetTolerance ( double   )  [virtual]

Set the tolerance for creating new points while clipping. If the tolerance is too small, then degenerate triangles might be produced. The default tolerance is 1e-6.

virtual double vtkClipClosedSurface::GetTolerance (  )  [virtual]

Set the tolerance for creating new points while clipping. If the tolerance is too small, then degenerate triangles might be produced. The default tolerance is 1e-6.

virtual void vtkClipClosedSurface::SetPassPointData ( int   )  [virtual]

Pass the point data to the output. Point data will be interpolated when new points are generated. This is off by default.

virtual void vtkClipClosedSurface::PassPointDataOn (  )  [virtual]

Pass the point data to the output. Point data will be interpolated when new points are generated. This is off by default.

virtual void vtkClipClosedSurface::PassPointDataOff (  )  [virtual]

Pass the point data to the output. Point data will be interpolated when new points are generated. This is off by default.

virtual int vtkClipClosedSurface::GetPassPointData (  )  [virtual]

Pass the point data to the output. Point data will be interpolated when new points are generated. This is off by default.

virtual void vtkClipClosedSurface::SetGenerateOutline ( int   )  [virtual]

Set whether to generate an outline wherever an input face was cut by a plane. This is off by default.

virtual void vtkClipClosedSurface::GenerateOutlineOn (  )  [virtual]

Set whether to generate an outline wherever an input face was cut by a plane. This is off by default.

virtual void vtkClipClosedSurface::GenerateOutlineOff (  )  [virtual]

Set whether to generate an outline wherever an input face was cut by a plane. This is off by default.

virtual int vtkClipClosedSurface::GetGenerateOutline (  )  [virtual]

Set whether to generate an outline wherever an input face was cut by a plane. This is off by default.

virtual void vtkClipClosedSurface::SetGenerateFaces ( int   )  [virtual]

Set whether to generate polygonal faces for the output. This is on by default. If it is off, then the output will have no polys.

virtual void vtkClipClosedSurface::GenerateFacesOn (  )  [virtual]

Set whether to generate polygonal faces for the output. This is on by default. If it is off, then the output will have no polys.

virtual void vtkClipClosedSurface::GenerateFacesOff (  )  [virtual]

Set whether to generate polygonal faces for the output. This is on by default. If it is off, then the output will have no polys.

virtual int vtkClipClosedSurface::GetGenerateFaces (  )  [virtual]

Set whether to generate polygonal faces for the output. This is on by default. If it is off, then the output will have no polys.

virtual void vtkClipClosedSurface::SetScalarMode ( int   )  [virtual]

Set whether to add cell scalars, so that new faces and outlines can be distinguished from original faces and lines. The options are "None", "Colors", and "Labels". For the "Labels" option, a scalar value of "0" indicates an original cell, "1" indicates a new cell on a cut face, and "2" indicates a new cell on the ActivePlane as set by the SetActivePlane() method. The default scalar mode is "None".

void vtkClipClosedSurface::SetScalarModeToNone (  )  [inline]

Set whether to add cell scalars, so that new faces and outlines can be distinguished from original faces and lines. The options are "None", "Colors", and "Labels". For the "Labels" option, a scalar value of "0" indicates an original cell, "1" indicates a new cell on a cut face, and "2" indicates a new cell on the ActivePlane as set by the SetActivePlane() method. The default scalar mode is "None".

Definition at line 118 of file vtkClipClosedSurface.h.

void vtkClipClosedSurface::SetScalarModeToColors (  )  [inline]

Set whether to add cell scalars, so that new faces and outlines can be distinguished from original faces and lines. The options are "None", "Colors", and "Labels". For the "Labels" option, a scalar value of "0" indicates an original cell, "1" indicates a new cell on a cut face, and "2" indicates a new cell on the ActivePlane as set by the SetActivePlane() method. The default scalar mode is "None".

Definition at line 120 of file vtkClipClosedSurface.h.

void vtkClipClosedSurface::SetScalarModeToLabels (  )  [inline]

Set whether to add cell scalars, so that new faces and outlines can be distinguished from original faces and lines. The options are "None", "Colors", and "Labels". For the "Labels" option, a scalar value of "0" indicates an original cell, "1" indicates a new cell on a cut face, and "2" indicates a new cell on the ActivePlane as set by the SetActivePlane() method. The default scalar mode is "None".

Definition at line 122 of file vtkClipClosedSurface.h.

virtual int vtkClipClosedSurface::GetScalarMode (  )  [virtual]

Set whether to add cell scalars, so that new faces and outlines can be distinguished from original faces and lines. The options are "None", "Colors", and "Labels". For the "Labels" option, a scalar value of "0" indicates an original cell, "1" indicates a new cell on a cut face, and "2" indicates a new cell on the ActivePlane as set by the SetActivePlane() method. The default scalar mode is "None".

const char* vtkClipClosedSurface::GetScalarModeAsString (  ) 

Set whether to add cell scalars, so that new faces and outlines can be distinguished from original faces and lines. The options are "None", "Colors", and "Labels". For the "Labels" option, a scalar value of "0" indicates an original cell, "1" indicates a new cell on a cut face, and "2" indicates a new cell on the ActivePlane as set by the SetActivePlane() method. The default scalar mode is "None".

virtual void vtkClipClosedSurface::SetBaseColor ( double  ,
double  ,
double   
) [virtual]

Set the color for all cells were part of the original geometry. If the the input data already has color cell scalars, then those values will be used and parameter will be ignored. The default color is red. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::SetBaseColor ( double  [3]  )  [virtual]

Set the color for all cells were part of the original geometry. If the the input data already has color cell scalars, then those values will be used and parameter will be ignored. The default color is red. Requires SetScalarModeToColors.

virtual double* vtkClipClosedSurface::GetBaseColor (  )  [virtual]

Set the color for all cells were part of the original geometry. If the the input data already has color cell scalars, then those values will be used and parameter will be ignored. The default color is red. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::GetBaseColor ( double &  ,
double &  ,
double &   
) [virtual]

Set the color for all cells were part of the original geometry. If the the input data already has color cell scalars, then those values will be used and parameter will be ignored. The default color is red. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::GetBaseColor ( double  [3]  )  [virtual]

Set the color for all cells were part of the original geometry. If the the input data already has color cell scalars, then those values will be used and parameter will be ignored. The default color is red. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::SetClipColor ( double  ,
double  ,
double   
) [virtual]

Set the color for any new geometry, either faces or outlines, that are created as a result of the clipping. The default color is orange. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::SetClipColor ( double  [3]  )  [virtual]

Set the color for any new geometry, either faces or outlines, that are created as a result of the clipping. The default color is orange. Requires SetScalarModeToColors.

virtual double* vtkClipClosedSurface::GetClipColor (  )  [virtual]

Set the color for any new geometry, either faces or outlines, that are created as a result of the clipping. The default color is orange. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::GetClipColor ( double &  ,
double &  ,
double &   
) [virtual]

Set the color for any new geometry, either faces or outlines, that are created as a result of the clipping. The default color is orange. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::GetClipColor ( double  [3]  )  [virtual]

Set the color for any new geometry, either faces or outlines, that are created as a result of the clipping. The default color is orange. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::SetActivePlaneId ( int   )  [virtual]

Set the active plane, so that the clipping from that plane can be displayed in a different color. Set this to -1 if there is no active plane. The default value is -1.

virtual int vtkClipClosedSurface::GetActivePlaneId (  )  [virtual]

Set the active plane, so that the clipping from that plane can be displayed in a different color. Set this to -1 if there is no active plane. The default value is -1.

virtual void vtkClipClosedSurface::SetActivePlaneColor ( double  ,
double  ,
double   
) [virtual]

Set the color for any new geometry produced by clipping with the ActivePlane, if ActivePlaneId is set. Default is yellow. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::SetActivePlaneColor ( double  [3]  )  [virtual]

Set the color for any new geometry produced by clipping with the ActivePlane, if ActivePlaneId is set. Default is yellow. Requires SetScalarModeToColors.

virtual double* vtkClipClosedSurface::GetActivePlaneColor (  )  [virtual]

Set the color for any new geometry produced by clipping with the ActivePlane, if ActivePlaneId is set. Default is yellow. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::GetActivePlaneColor ( double &  ,
double &  ,
double &   
) [virtual]

Set the color for any new geometry produced by clipping with the ActivePlane, if ActivePlaneId is set. Default is yellow. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::GetActivePlaneColor ( double  [3]  )  [virtual]

Set the color for any new geometry produced by clipping with the ActivePlane, if ActivePlaneId is set. Default is yellow. Requires SetScalarModeToColors.

virtual void vtkClipClosedSurface::SetTriangulationErrorDisplay ( int   )  [virtual]

Generate errors when the triangulation fails. Usually the triangulation errors are too small to see, but they result in a surface that is not watertight. This option has no impact on performance.

virtual void vtkClipClosedSurface::TriangulationErrorDisplayOn (  )  [virtual]

Generate errors when the triangulation fails. Usually the triangulation errors are too small to see, but they result in a surface that is not watertight. This option has no impact on performance.

virtual void vtkClipClosedSurface::TriangulationErrorDisplayOff (  )  [virtual]

Generate errors when the triangulation fails. Usually the triangulation errors are too small to see, but they result in a surface that is not watertight. This option has no impact on performance.

virtual int vtkClipClosedSurface::GetTriangulationErrorDisplay (  )  [virtual]

Generate errors when the triangulation fails. Usually the triangulation errors are too small to see, but they result in a surface that is not watertight. This option has no impact on performance.

void vtkClipClosedSurface::SetGenerateColorScalars ( int   ) 

int vtkClipClosedSurface::GetGenerateColorScalars (  ) 

void vtkClipClosedSurface::GenerateColorScalarsOn (  ) 

void vtkClipClosedSurface::GenerateColorScalarsOff (  ) 

virtual int vtkClipClosedSurface::ComputePipelineMTime ( vtkInformation request,
vtkInformationVector **  inInfoVec,
vtkInformationVector outInfoVec,
int  requestFromOutputPort,
unsigned long *  mtime 
) [protected, virtual]

A special version of ProcessRequest meant specifically for the pipeline modified time request. See vtkExecutive::ComputePipelineMTime() for details.

Reimplemented from vtkAlgorithm.

virtual int vtkClipClosedSurface::RequestData ( vtkInformation request,
vtkInformationVector **  inputVector,
vtkInformationVector outputVector 
) [protected, virtual]

This is called by the superclass. This is the method you should override.

Reimplemented from vtkPolyDataAlgorithm.

void vtkClipClosedSurface::ClipLines ( vtkPoints points,
vtkDoubleArray pointScalars,
vtkPointData pointData,
vtkCCSEdgeLocator *  edgeLocator,
vtkCellArray inputCells,
vtkCellArray outputLines,
vtkCellData inCellData,
vtkCellData outLineData 
) [protected]

Method for clipping lines and copying the scalar data.

void vtkClipClosedSurface::ClipAndContourPolys ( vtkPoints points,
vtkDoubleArray pointScalars,
vtkPointData pointData,
vtkCCSEdgeLocator *  edgeLocator,
int  triangulate,
vtkCellArray inputCells,
vtkCellArray outputPolys,
vtkCellArray outputLines,
vtkCellData inPolyData,
vtkCellData outPolyData,
vtkCellData outLineData 
) [protected]

Clip and contour polys in one step, in order to guarantee that the contour lines exactly match the new free edges of the clipped polygons. This exact correspondence is necessary in order to guarantee that the surface remains closed.

static int vtkClipClosedSurface::InterpolateEdge ( vtkPoints points,
vtkPointData pointData,
vtkCCSEdgeLocator *  edgeLocator,
double  tol,
vtkIdType  i0,
vtkIdType  i1,
double  v0,
double  v1,
vtkIdType i 
) [static, protected]

A helper function for interpolating a new point along an edge. It stores the index of the interpolated point in "i", and returns 1 if a new point was added to the points. The values i0, i1, v0, v1 are the edge enpoints and scalar values, respectively.

int vtkClipClosedSurface::TriangulatePolygon ( vtkIdList polygon,
vtkPoints points,
vtkCellArray triangles 
) [protected]

A robust method for triangulating a polygon. It cleans up the polygon and then applies the ear-cut method that is implemented in vtkPolygon. A zero return value indicates that triangulation failed.

void vtkClipClosedSurface::MakePolysFromContours ( vtkPolyData data,
vtkIdType  firstLine,
vtkIdType  numLines,
vtkCellArray outputPolys,
const double  normal[3] 
) [protected]

Given some closed contour lines, create a triangle mesh that fills those lines. The input lines must be single-segment lines, not polylines. The input lines do not have to be in order. Only lines from firstLine to will be used. Specify the normal of the clip plane, which will be opposite the the normals of the polys that will be produced. If outCD has scalars, then color scalars will be added for each poly that is created.

static void vtkClipClosedSurface::BreakPolylines ( vtkCellArray inputLines,
vtkCellArray outputLines,
vtkUnsignedCharArray inputScalars,
vtkIdType  firstLineScalar,
vtkUnsignedCharArray outputScalars,
const unsigned char  color[3] 
) [static, protected]

Break polylines into individual lines, copying scalar values from inputScalars starting at firstLineScalar. If inputScalars is zero, then scalars will be set to color. If scalars is zero, then no scalars will be generated.

static void vtkClipClosedSurface::CopyPolygons ( vtkCellArray inputPolys,
vtkCellArray outputPolys,
vtkUnsignedCharArray inputScalars,
vtkIdType  firstPolyScalar,
vtkUnsignedCharArray outputScalars,
const unsigned char  color[3] 
) [static, protected]

Copy polygons and their associated scalars to a new array. If inputScalars is set to zero, set polyScalars to color instead. If polyScalars is set to zero, don't generate scalars.

static void vtkClipClosedSurface::BreakTriangleStrips ( vtkCellArray inputStrips,
vtkCellArray outputPolys,
vtkUnsignedCharArray inputScalars,
vtkIdType  firstStripScalar,
vtkUnsignedCharArray outputScalars,
const unsigned char  color[3] 
) [static, protected]

Break triangle strips and add the triangles to the output. See CopyPolygons for more information.

static void vtkClipClosedSurface::SqueezeOutputPoints ( vtkPolyData output,
vtkPoints points,
vtkPointData pointData,
int  outputPointDataType 
) [static, protected]

Squeeze the points and store them in the output. Only the points that are used by the cells will be saved, and the pointIds of the cells will be modified.

static void vtkClipClosedSurface::CreateColorValues ( const double  color1[3],
const double  color2[3],
const double  color3[3],
unsigned char  colors[3][3] 
) [static, protected]

Take three colors as doubles, and convert to unsigned char.


Member Data Documentation

Definition at line 181 of file vtkClipClosedSurface.h.

double vtkClipClosedSurface::Tolerance [protected]

Definition at line 183 of file vtkClipClosedSurface.h.

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double vtkClipClosedSurface::BaseColor[3] [protected]

Definition at line 190 of file vtkClipClosedSurface.h.

double vtkClipClosedSurface::ClipColor[3] [protected]

Definition at line 191 of file vtkClipClosedSurface.h.

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

Generated on Wed Aug 24 11:31:04 2011 for VTK by  doxygen 1.5.6