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vtkImageToPolyDataFilter Class Reference

#include <vtkImageToPolyDataFilter.h>

Inheritance diagram for vtkImageToPolyDataFilter:

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Collaboration diagram for vtkImageToPolyDataFilter:

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List of all members.

Detailed Description

generate linear primitives (vtkPolyData) from an image

vtkImageToPolyDataFilter converts raster data (i.e., an image) into polygonal data (i.e., quads or n-sided polygons), with each polygon assigned a constant color. This is useful for writers that generate vector formats (i.e., CGM or PostScript). To use this filter, you specify how to quantize the color (or whether to use an image with a lookup table), and what style the output should be. The output is always polygons, but the choice is n x m quads (where n and m define the input image dimensions) "Pixelize" option; arbitrary polygons "Polygonalize" option; or variable number of quads of constant color generated along scan lines "RunLength" option.

The algorithm quantizes color in order to create coherent regions that the polygons can represent with good compression. By default, the input image is quantized to 256 colors using a 3-3-2 bits for red-green-blue. However, you can also supply a single component image and a lookup table, with the single component assumed to be an index into the table. (Note: a quantized image can be generated with the filter vtkImageQuantizeRGBToIndex.) The number of colors on output is equal to the number of colors in the input lookup table (or 256 if the built in linear ramp is used).

The output of the filter is polygons with a single color per polygon cell. If the output style is set to "Polygonalize", the polygons may have an large number of points (bounded by something like 2*(n+m)); and the polygon may not be convex which may cause rendering problems on some systems (use vtkTriangleFilter). Otherwise, each polygon will have four vertices. The output also contains scalar data defining RGB color in unsigned char form.

Warning:
The input linear lookup table must be of the form of 3-component unsigned char.

This filter defines constant cell colors. If you have a plotting device that supports Gouraud shading (linear interpolation of color), then superior algorithms are available for generating polygons from images.

Note that many plotting devices/formats support only a limited number of colors.

See also:
vtkCGMWriter vtkImageQuantizeRGBToIndex vtkTriangleFilter
Created by:
  • Schroeder, Will
CVS contributions (if > 5%):
  • Schroeder, Will (82%)
CVS logs (CVSweb):
  • .cxx (/Hybrid/vtkImageToPolyDataFilter.cxx)
  • .h (/Hybrid/vtkImageToPolyDataFilter.h)
Tests:
vtkImageToPolyDataFilter (Tests)

Definition at line 98 of file vtkImageToPolyDataFilter.h.

Public Types

typedef vtkStructuredPointsToPolyDataFilter Superclass

Public Member Functions

virtual const char * GetClassName ()
virtual int IsA (const char *type)
void PrintSelf (ostream &os, vtkIndent indent)
virtual void SetOutputStyle (int)
virtual int GetOutputStyle ()
void SetOutputStyleToPixelize ()
void SetOutputStyleToPolygonalize ()
void SetOutputStyleToRunLength ()
virtual void SetColorMode (int)
virtual int GetColorMode ()
void SetColorModeToLUT ()
void SetColorModeToLinear256 ()
virtual void SetLookupTable (vtkScalarsToColors *)
virtual vtkScalarsToColorsGetLookupTable ()
virtual void SetSmoothing (int)
virtual int GetSmoothing ()
virtual void SmoothingOn ()
virtual void SmoothingOff ()
virtual void SetNumberOfSmoothingIterations (int)
virtual int GetNumberOfSmoothingIterations ()
virtual void SetDecimation (int)
virtual int GetDecimation ()
virtual void DecimationOn ()
virtual void DecimationOff ()
virtual void SetDecimationError (double)
virtual double GetDecimationError ()
virtual void SetError (int)
virtual int GetError ()
virtual void SetSubImageSize (int)
virtual int GetSubImageSize ()

Static Public Member Functions

int IsTypeOf (const char *type)
vtkImageToPolyDataFilterSafeDownCast (vtkObject *o)
vtkImageToPolyDataFilterNew ()

Protected Member Functions

 vtkImageToPolyDataFilter ()
 ~vtkImageToPolyDataFilter ()
void Execute ()
virtual void PixelizeImage (vtkUnsignedCharArray *pixels, int dims[3], double origin[3], double spacing[3], vtkPolyData *output)
virtual void PolygonalizeImage (vtkUnsignedCharArray *pixels, int dims[3], double origin[3], double spacing[3], vtkPolyData *output)
virtual void RunLengthImage (vtkUnsignedCharArray *pixels, int dims[3], double origin[3], double spacing[3], vtkPolyData *output)

Protected Attributes

int OutputStyle
int ColorMode
int Smoothing
int NumberOfSmoothingIterations
int Decimation
double DecimationError
int Error
int SubImageSize
vtkScalarsToColorsLookupTable


Member Typedef Documentation

typedef vtkStructuredPointsToPolyDataFilter vtkImageToPolyDataFilter::Superclass
 

Reimplemented from vtkStructuredPointsToPolyDataFilter.

Definition at line 101 of file vtkImageToPolyDataFilter.h.


Constructor & Destructor Documentation

vtkImageToPolyDataFilter::vtkImageToPolyDataFilter  )  [protected]
 

vtkImageToPolyDataFilter::~vtkImageToPolyDataFilter  )  [protected]
 


Member Function Documentation

virtual const char* vtkImageToPolyDataFilter::GetClassName  )  [virtual]
 

Reimplemented from vtkStructuredPointsToPolyDataFilter.

int vtkImageToPolyDataFilter::IsTypeOf const char *  type  )  [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 vtkTypeRevisionMacro found in vtkSetGet.h.

Reimplemented from vtkStructuredPointsToPolyDataFilter.

virtual int vtkImageToPolyDataFilter::IsA const char *  type  )  [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 vtkTypeRevisionMacro found in vtkSetGet.h.

Reimplemented from vtkStructuredPointsToPolyDataFilter.

vtkImageToPolyDataFilter* vtkImageToPolyDataFilter::SafeDownCast vtkObject o  )  [static]
 

Reimplemented from vtkStructuredPointsToPolyDataFilter.

void vtkImageToPolyDataFilter::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 vtkStructuredPointsToPolyDataFilter.

vtkImageToPolyDataFilter* vtkImageToPolyDataFilter::New  )  [static]
 

Instantiate object with initial number of colors 256.

Reimplemented from vtkAlgorithm.

virtual void vtkImageToPolyDataFilter::SetOutputStyle int   )  [virtual]
 

Specify how to create the output. Pixelize means converting the image to quad polygons with a constant color per quad. Polygonalize means merging colors together into polygonal regions, and then smoothing the regions (if smoothing is turned on). RunLength means creating quad polygons that may encompass several pixels on a scan line. The default behavior is Polygonalize.

virtual int vtkImageToPolyDataFilter::GetOutputStyle  )  [virtual]
 

Specify how to create the output. Pixelize means converting the image to quad polygons with a constant color per quad. Polygonalize means merging colors together into polygonal regions, and then smoothing the regions (if smoothing is turned on). RunLength means creating quad polygons that may encompass several pixels on a scan line. The default behavior is Polygonalize.

void vtkImageToPolyDataFilter::SetOutputStyleToPixelize  )  [inline]
 

Specify how to create the output. Pixelize means converting the image to quad polygons with a constant color per quad. Polygonalize means merging colors together into polygonal regions, and then smoothing the regions (if smoothing is turned on). RunLength means creating quad polygons that may encompass several pixels on a scan line. The default behavior is Polygonalize.

Definition at line 116 of file vtkImageToPolyDataFilter.h.

References VTK_STYLE_PIXELIZE.

void vtkImageToPolyDataFilter::SetOutputStyleToPolygonalize  )  [inline]
 

Specify how to create the output. Pixelize means converting the image to quad polygons with a constant color per quad. Polygonalize means merging colors together into polygonal regions, and then smoothing the regions (if smoothing is turned on). RunLength means creating quad polygons that may encompass several pixels on a scan line. The default behavior is Polygonalize.

Definition at line 118 of file vtkImageToPolyDataFilter.h.

References VTK_STYLE_POLYGONALIZE.

void vtkImageToPolyDataFilter::SetOutputStyleToRunLength  )  [inline]
 

Specify how to create the output. Pixelize means converting the image to quad polygons with a constant color per quad. Polygonalize means merging colors together into polygonal regions, and then smoothing the regions (if smoothing is turned on). RunLength means creating quad polygons that may encompass several pixels on a scan line. The default behavior is Polygonalize.

Definition at line 120 of file vtkImageToPolyDataFilter.h.

References VTK_STYLE_RUN_LENGTH.

virtual void vtkImageToPolyDataFilter::SetColorMode int   )  [virtual]
 

Specify how to quantize color.

virtual int vtkImageToPolyDataFilter::GetColorMode  )  [virtual]
 

Specify how to quantize color.

void vtkImageToPolyDataFilter::SetColorModeToLUT  )  [inline]
 

Specify how to quantize color.

Definition at line 128 of file vtkImageToPolyDataFilter.h.

References VTK_COLOR_MODE_LUT.

void vtkImageToPolyDataFilter::SetColorModeToLinear256  )  [inline]
 

Specify how to quantize color.

Definition at line 130 of file vtkImageToPolyDataFilter.h.

References VTK_COLOR_MODE_LINEAR_256.

virtual void vtkImageToPolyDataFilter::SetLookupTable vtkScalarsToColors  )  [virtual]
 

Set/Get the vtkLookupTable to use. The lookup table is used when the color mode is set to LUT and a single component scalar is input.

virtual vtkScalarsToColors* vtkImageToPolyDataFilter::GetLookupTable  )  [virtual]
 

Set/Get the vtkLookupTable to use. The lookup table is used when the color mode is set to LUT and a single component scalar is input.

virtual void vtkImageToPolyDataFilter::SetSmoothing int   )  [virtual]
 

If the output style is set to polygonalize, then you can control whether to smooth boundaries.

virtual int vtkImageToPolyDataFilter::GetSmoothing  )  [virtual]
 

If the output style is set to polygonalize, then you can control whether to smooth boundaries.

virtual void vtkImageToPolyDataFilter::SmoothingOn  )  [virtual]
 

If the output style is set to polygonalize, then you can control whether to smooth boundaries.

virtual void vtkImageToPolyDataFilter::SmoothingOff  )  [virtual]
 

If the output style is set to polygonalize, then you can control whether to smooth boundaries.

virtual void vtkImageToPolyDataFilter::SetNumberOfSmoothingIterations int   )  [virtual]
 

Specify the number of smoothing iterations to smooth polygons. (Only in effect if output style is Polygonalize and smoothing is on.)

virtual int vtkImageToPolyDataFilter::GetNumberOfSmoothingIterations  )  [virtual]
 

Specify the number of smoothing iterations to smooth polygons. (Only in effect if output style is Polygonalize and smoothing is on.)

virtual void vtkImageToPolyDataFilter::SetDecimation int   )  [virtual]
 

Turn on/off whether the final polygons should be decimated. whether to smooth boundaries.

virtual int vtkImageToPolyDataFilter::GetDecimation  )  [virtual]
 

Turn on/off whether the final polygons should be decimated. whether to smooth boundaries.

virtual void vtkImageToPolyDataFilter::DecimationOn  )  [virtual]
 

Turn on/off whether the final polygons should be decimated. whether to smooth boundaries.

virtual void vtkImageToPolyDataFilter::DecimationOff  )  [virtual]
 

Turn on/off whether the final polygons should be decimated. whether to smooth boundaries.

virtual void vtkImageToPolyDataFilter::SetDecimationError double   )  [virtual]
 

Specify the error to use for decimation (if decimation is on). The error is an absolute number--the image spacing and dimensions are used to create points so the error should be consistent with the image size.

virtual double vtkImageToPolyDataFilter::GetDecimationError  )  [virtual]
 

Specify the error to use for decimation (if decimation is on). The error is an absolute number--the image spacing and dimensions are used to create points so the error should be consistent with the image size.

virtual void vtkImageToPolyDataFilter::SetError int   )  [virtual]
 

Specify the error value between two colors where the colors are considered the same. Only use this if the color mode uses the default 256 table.

virtual int vtkImageToPolyDataFilter::GetError  )  [virtual]
 

Specify the error value between two colors where the colors are considered the same. Only use this if the color mode uses the default 256 table.

virtual void vtkImageToPolyDataFilter::SetSubImageSize int   )  [virtual]
 

Specify the size (n by n pixels) of the largest region to polygonalize. When the OutputStyle is set to VTK_STYLE_POLYGONALIZE, large amounts of memory are used. In order to process large images, the image is broken into pieces that are at most Size pixels in width and height.

virtual int vtkImageToPolyDataFilter::GetSubImageSize  )  [virtual]
 

Specify the size (n by n pixels) of the largest region to polygonalize. When the OutputStyle is set to VTK_STYLE_POLYGONALIZE, large amounts of memory are used. In order to process large images, the image is broken into pieces that are at most Size pixels in width and height.

void vtkImageToPolyDataFilter::Execute  )  [protected, virtual]
 

This method is the old style execute method

Reimplemented from vtkSource.

virtual void vtkImageToPolyDataFilter::PixelizeImage vtkUnsignedCharArray pixels,
int  dims[3],
double  origin[3],
double  spacing[3],
vtkPolyData output
[protected, virtual]
 

virtual void vtkImageToPolyDataFilter::PolygonalizeImage vtkUnsignedCharArray pixels,
int  dims[3],
double  origin[3],
double  spacing[3],
vtkPolyData output
[protected, virtual]
 

virtual void vtkImageToPolyDataFilter::RunLengthImage vtkUnsignedCharArray pixels,
int  dims[3],
double  origin[3],
double  spacing[3],
vtkPolyData output
[protected, virtual]
 


Member Data Documentation

int vtkImageToPolyDataFilter::OutputStyle [protected]
 

Definition at line 197 of file vtkImageToPolyDataFilter.h.

int vtkImageToPolyDataFilter::ColorMode [protected]
 

Definition at line 198 of file vtkImageToPolyDataFilter.h.

int vtkImageToPolyDataFilter::Smoothing [protected]
 

Definition at line 199 of file vtkImageToPolyDataFilter.h.

int vtkImageToPolyDataFilter::NumberOfSmoothingIterations [protected]
 

Definition at line 200 of file vtkImageToPolyDataFilter.h.

int vtkImageToPolyDataFilter::Decimation [protected]
 

Definition at line 201 of file vtkImageToPolyDataFilter.h.

double vtkImageToPolyDataFilter::DecimationError [protected]
 

Definition at line 202 of file vtkImageToPolyDataFilter.h.

int vtkImageToPolyDataFilter::Error [protected]
 

Definition at line 203 of file vtkImageToPolyDataFilter.h.

int vtkImageToPolyDataFilter::SubImageSize [protected]
 

Definition at line 204 of file vtkImageToPolyDataFilter.h.

vtkScalarsToColors* vtkImageToPolyDataFilter::LookupTable [protected]
 

Definition at line 205 of file vtkImageToPolyDataFilter.h.


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