VTK-5.0.0/Imaging/vtkImageRGBToHSV.cxx

/*=========================================================================

  Program:   Visualization Toolkit
  Module:    $RCSfile: vtkImageRGBToHSV.cxx,v $

  Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
  All rights reserved.
  See Copyright.txt or http://www.kitware.com/Copyright.htm for details.

     This software is distributed WITHOUT ANY WARRANTY; without even
     the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
     PURPOSE.  See the above copyright notice for more information.

=========================================================================*/
#include "vtkImageRGBToHSV.h"

#include "vtkImageData.h"
#include "vtkImageProgressIterator.h"
#include "vtkMath.h"
#include "vtkObjectFactory.h"

vtkCxxRevisionMacro(vtkImageRGBToHSV, "$Revision: 1.30 $");
vtkStandardNewMacro(vtkImageRGBToHSV);

//----------------------------------------------------------------------------
vtkImageRGBToHSV::vtkImageRGBToHSV()
{
  this->Maximum = 255.0;
  this->SetNumberOfInputPorts(1);
  this->SetNumberOfOutputPorts(1);
}

//----------------------------------------------------------------------------
// This templated function executes the filter for any type of data.
template <class T>
void vtkImageRGBToHSVExecute(vtkImageRGBToHSV *self,
                             vtkImageData *inData,
                             vtkImageData *outData,
                             int outExt[6], int id, T *)
{
  vtkImageIterator<T> inIt(inData, outExt);
  vtkImageProgressIterator<T> outIt(outData, outExt, self, id);
  int idxC, maxC;
  double R, G, B, H, S, V;
  double max = self->GetMaximum();
  
  // find the region to loop over
  maxC = inData->GetNumberOfScalarComponents()-1;
  
  // Loop through ouput pixels
  while (!outIt.IsAtEnd())
    {
    T* inSI = inIt.BeginSpan();
    T* outSI = outIt.BeginSpan();
    T* outSIEnd = outIt.EndSpan();
    while (outSI != outSIEnd)
      {
      // Pixel operation
      R = (double)(*inSI) / max; inSI++;
      G = (double)(*inSI) / max; inSI++;
      B = (double)(*inSI) / max; inSI++;

      vtkMath::RGBToHSV(R, G, B, &H, &S, &V);

      H *= max;
      S *= max;
      V *= max;

      if (H > max)
        {
        H = max;
        }
      if (S > max)
        {
        S = max;
        }
      if (V > max)
        {
        V = max;
        }
      
      // assign output.
      *outSI = (T)(H); outSI++;
      *outSI = (T)(S); outSI++;
      *outSI = (T)(V); outSI++;
      
      for (idxC = 3; idxC <= maxC; idxC++)
        {
        *outSI++ = *inSI++;
        }
      }
    inIt.NextSpan();
    outIt.NextSpan();
    }
}

//----------------------------------------------------------------------------
void vtkImageRGBToHSV::ThreadedExecute (vtkImageData *inData, 
                                         vtkImageData *outData,
                                         int outExt[6], int id)
{
  vtkDebugMacro(<< "Execute: inData = " << inData 
  << ", outData = " << outData);
  
  // this filter expects that input is the same type as output.
  if (inData->GetScalarType() != outData->GetScalarType())
    {
    vtkErrorMacro(<< "Execute: input ScalarType, " << inData->GetScalarType()
    << ", must match out ScalarType " << outData->GetScalarType());
    return;
    }
  
  // need three components for input and output
  if (inData->GetNumberOfScalarComponents() < 3)
    {
    vtkErrorMacro("Input has too few components");
    return;
    }
  if (outData->GetNumberOfScalarComponents() < 3)
    {
    vtkErrorMacro("Output has too few components");
    return;
    }

  switch (inData->GetScalarType())
    {
    vtkTemplateMacro(
      vtkImageRGBToHSVExecute( this, inData, 
                               outData, outExt, id, 
                               static_cast<VTK_TT *>(0)));
    default:
      vtkErrorMacro(<< "Execute: Unknown ScalarType");
      return;
    }
}

void vtkImageRGBToHSV::PrintSelf(ostream& os, vtkIndent indent)
{
  this->Superclass::PrintSelf(os,indent);

  os << indent << "Maximum: " << this->Maximum << "\n";
}
Initial commit 2 years ago			`/*=========================================================================`

			`Program: Visualization Toolkit`
			`Module: $RCSfile: vtkImageRGBToHSV.cxx,v $`

			`Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen`
			`All rights reserved.`
			`See Copyright.txt or http://www.kitware.com/Copyright.htm for details.`

			`This software is distributed WITHOUT ANY WARRANTY; without even`
			`the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR`
			`PURPOSE. See the above copyright notice for more information.`

			`=========================================================================*/`
			`#include "vtkImageRGBToHSV.h"`

			`#include "vtkImageData.h"`
			`#include "vtkImageProgressIterator.h"`
			`#include "vtkMath.h"`
			`#include "vtkObjectFactory.h"`

			`vtkCxxRevisionMacro(vtkImageRGBToHSV, "$Revision: 1.30 $");`
			`vtkStandardNewMacro(vtkImageRGBToHSV);`

			`//----------------------------------------------------------------------------`
			`vtkImageRGBToHSV::vtkImageRGBToHSV()`
			`{`
			`this->Maximum = 255.0;`
			`this->SetNumberOfInputPorts(1);`
			`this->SetNumberOfOutputPorts(1);`
			`}`

			`//----------------------------------------------------------------------------`
			`// This templated function executes the filter for any type of data.`
			`template <class T>`
			`void vtkImageRGBToHSVExecute(vtkImageRGBToHSV *self,`
			`vtkImageData *inData,`
			`vtkImageData *outData,`
			`int outExt[6], int id, T *)`
			`{`
			`vtkImageIterator<T> inIt(inData, outExt);`
			`vtkImageProgressIterator<T> outIt(outData, outExt, self, id);`
			`int idxC, maxC;`
			`double R, G, B, H, S, V;`
			`double max = self->GetMaximum();`

			`// find the region to loop over`
			`maxC = inData->GetNumberOfScalarComponents()-1;`

			`// Loop through ouput pixels`
			`while (!outIt.IsAtEnd())`
			`{`
			`T* inSI = inIt.BeginSpan();`
			`T* outSI = outIt.BeginSpan();`
			`T* outSIEnd = outIt.EndSpan();`
			`while (outSI != outSIEnd)`
			`{`
			`// Pixel operation`
			`R = (double)(*inSI) / max; inSI++;`
			`G = (double)(*inSI) / max; inSI++;`
			`B = (double)(*inSI) / max; inSI++;`

			`vtkMath::RGBToHSV(R, G, B, &H, &S, &V);`

			`H *= max;`
			`S *= max;`
			`V *= max;`

			`if (H > max)`
			`{`
			`H = max;`
			`}`
			`if (S > max)`
			`{`
			`S = max;`
			`}`
			`if (V > max)`
			`{`
			`V = max;`
			`}`

			`// assign output.`
			`*outSI = (T)(H); outSI++;`
			`*outSI = (T)(S); outSI++;`
			`*outSI = (T)(V); outSI++;`

			`for (idxC = 3; idxC <= maxC; idxC++)`
			`{`
			`outSI++ = inSI++;`
			`}`
			`}`
			`inIt.NextSpan();`
			`outIt.NextSpan();`
			`}`
			`}`

			`//----------------------------------------------------------------------------`
			`void vtkImageRGBToHSV::ThreadedExecute (vtkImageData *inData,`
			`vtkImageData *outData,`
			`int outExt[6], int id)`
			`{`
			`vtkDebugMacro(<< "Execute: inData = " << inData`
			`<< ", outData = " << outData);`

			`// this filter expects that input is the same type as output.`
			`if (inData->GetScalarType() != outData->GetScalarType())`
			`{`
			`vtkErrorMacro(<< "Execute: input ScalarType, " << inData->GetScalarType()`
			`<< ", must match out ScalarType " << outData->GetScalarType());`
			`return;`
			`}`

			`// need three components for input and output`
			`if (inData->GetNumberOfScalarComponents() < 3)`
			`{`
			`vtkErrorMacro("Input has too few components");`
			`return;`
			`}`
			`if (outData->GetNumberOfScalarComponents() < 3)`
			`{`
			`vtkErrorMacro("Output has too few components");`
			`return;`
			`}`

			`switch (inData->GetScalarType())`
			`{`
			`vtkTemplateMacro(`
			`vtkImageRGBToHSVExecute( this, inData,`
			`outData, outExt, id,`
			`static_cast<VTK_TT *>(0)));`
			`default:`
			`vtkErrorMacro(<< "Execute: Unknown ScalarType");`
			`return;`
			`}`
			`}`

			`void vtkImageRGBToHSV::PrintSelf(ostream& os, vtkIndent indent)`
			`{`
			`this->Superclass::PrintSelf(os,indent);`

			`os << indent << "Maximum: " << this->Maximum << "\n";`
			`}`