ITK/Examples/Broken/Statistics/ImageToHistogramFilter: Difference between revisions

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Iterator not increasing over the second two components?
The iterator is not increasing over all of the components? The second two components of the cell centers do not move from 0? All of the frequencies are 0?


Output is
The current output is
<source lang="text">
<source lang="text">
Index = [32.6719, 0, 0]Frequency = 0
Index = [0, 2, 0] Histogram cell center = [66.9375, 0, 0] Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [1, 2, 0] Histogram cell center = [200.812, 0, 0] Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [0, 2, 0] Histogram cell center = [66.9375, 0, 0] Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [1, 2, 0] Histogram cell center = [200.812, 0, 0] Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [0, 2, 1] Histogram cell center = [66.9375, 0, 0] Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [1, 2, 1] Histogram cell center = [200.812, 0, 0] Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [0, 2, 1] Histogram cell center = [66.9375, 0, 0] Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [1, 2, 1] Histogram cell center = [200.812, 0, 0] Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Index = [32.6719, 0, 0]Frequency = 0
Index = [98.0156, 0, 0]Frequency = 0
Index = [163.359, 0, 0]Frequency = 0
Index = [228.703, 0, 0]Frequency = 0
Frequency = 0
Frequency = 0
</source>
</source>
I would expect to see the index counting from (0,0,0) to (2,2,2), the Cell center following the same pattern as the index, and some of the frequencies to be non-zero.


==ImageToHistogramFilter.cxx==
==ImageToHistogramFilter.cxx==
Line 76: Line 24:
#include "itkRGBPixel.h"
#include "itkRGBPixel.h"
#include "itkImageRegionIteratorWithIndex.h"
#include "itkImageRegionIteratorWithIndex.h"
 
#include <fstream>
#include <fstream>
 
typedef itk::RGBPixel<unsigned char> RGBPixelType;
typedef itk::RGBPixel<unsigned char> RGBPixelType;
typedef itk::Image< RGBPixelType, 2> RGBImageType;
typedef itk::Image< RGBPixelType, 2> RGBImageType;
 
void CreateImage(RGBImageType::Pointer image);
void CreateImage(RGBImageType::Pointer image);
 
int main(int, char *[])
int main(int, char *[])
{
{
   const unsigned int MeasurementVectorSize = 3; // RGB
   const unsigned int MeasurementVectorSize = 3; // RGB
 
   RGBImageType::Pointer image = RGBImageType::New();
   RGBImageType::Pointer image = RGBImageType::New();
   CreateImage(image);
   CreateImage(image);
 
   typedef itk::Statistics::ImageToHistogramFilter< RGBImageType >        HistogramFilterType;
   typedef itk::Statistics::ImageToHistogramFilter< RGBImageType >        HistogramFilterType;
   typedef HistogramFilterType::HistogramMeasurementVectorType            HistogramMeasurementVectorType;
   typedef HistogramFilterType::HistogramMeasurementVectorType            HistogramMeasurementVectorType;
   typedef HistogramFilterType::HistogramSizeType                          HistogramSizeType;
   typedef HistogramFilterType::HistogramSizeType                          HistogramSizeType;
   typedef HistogramFilterType::HistogramType                              HistogramType;
   typedef HistogramFilterType::HistogramType                              HistogramType;
 
   HistogramFilterType::Pointer filter = HistogramFilterType::New();
   HistogramFilterType::Pointer filter = HistogramFilterType::New();
   filter->SetInput(image);
   filter->SetInput(image);
   filter->SetAutoMinimumMaximum(true);
   filter->SetAutoMinimumMaximum(true);
 
   HistogramSizeType histogramSize( MeasurementVectorSize );
   HistogramSizeType histogramSize( MeasurementVectorSize );
 
   histogramSize[0] = 4;  // number of bins for the Red  channel
   histogramSize[0] = 2;  // number of bins for the Red  channel
   histogramSize[1] = 4;  // number of bins for the Green channel
   histogramSize[1] = 2;  // number of bins for the Green channel
   histogramSize[2] = 4;  // number of bins for the Blue  channel
   histogramSize[2] = 2;  // number of bins for the Blue  channel
 
   filter->SetHistogramSize(histogramSize);
   filter->SetHistogramSize(histogramSize);
   filter->SetMarginalScale(10); // Required (could this be set in the filter?)
   filter->SetMarginalScale(10); // Required (could this be set in the filter?)
   filter->Update();
   filter->Update();
 
   const HistogramType * histogram = filter->GetOutput();
   const HistogramType * histogram = filter->GetOutput();
 
   HistogramType::ConstIterator histogramIterator = histogram->Begin();
   HistogramType::ConstIterator histogramIterator = histogram->Begin();
 
  //std::string filename = "/home/doriad/histogram.txt";
  //std::ofstream fout(filename.c_str());
 
   while( histogramIterator  != histogram->End() )
   while( histogramIterator  != histogram->End() )
     {
     {
     std::cout << "Index = " << histogramIterator.GetMeasurementVector() << "Frequency = " << histogramIterator.GetFrequency() << std::endl;
     std::cout << "Index = " << histogram->GetIndex(histogramIterator.GetMeasurementVector())
    //fout << "Index = " << histogram->GetIndex(histogramItr.GetMeasurementVector()) << "Frequency = " << histogramItr.GetFrequency() << std::endl;
      << " Histogram cell center = " << histogramIterator.GetMeasurementVector()  
      << " Frequency = " << histogramIterator.GetFrequency() << std::endl;
 
     ++histogramIterator ;
     ++histogramIterator ;
     }
     }
  //fout.close();
 
   HistogramType::MeasurementVectorType mv(3);
   HistogramType::MeasurementVectorType mv(3);
   mv[0] = 255;
   mv[0] = 255;
Line 132: Line 78:
   return EXIT_SUCCESS;
   return EXIT_SUCCESS;
}
}
 
void CreateImage(RGBImageType::Pointer image)
void CreateImage(RGBImageType::Pointer image)
{
{
Line 140: Line 86:
   size[0] = 3;
   size[0] = 3;
   size[1] = 3;
   size[1] = 3;
 
   RGBImageType::IndexType  start;
   RGBImageType::IndexType  start;
   start[0] = 0;
   start[0] = 0;
   start[1] = 0;
   start[1] = 0;
 
   RGBImageType::RegionType region;
   RGBImageType::RegionType region;
   region.SetIndex(start);
   region.SetIndex(start);
   region.SetSize(size);
   region.SetSize(size);
 
   image->SetRegions(region);
   image->SetRegions(region);
   image->Allocate();
   image->Allocate();
 
   itk::ImageRegionIteratorWithIndex< RGBImageType > iterator( image, image->GetLargestPossibleRegion() );
   itk::ImageRegionIteratorWithIndex< RGBImageType > iterator( image, image->GetLargestPossibleRegion() );
   iterator.GoToBegin();
   iterator.GoToBegin();
 
   RGBPixelType redPixel;
   RGBPixelType redPixel;
   redPixel.SetRed(255);
   redPixel.SetRed(255);
   redPixel.SetGreen(0);
   redPixel.SetGreen(0);
   redPixel.SetBlue(0);
   redPixel.SetBlue(0);
 
   RGBPixelType blackPixel;
   RGBPixelType blackPixel;
   blackPixel.SetRed(0);
   blackPixel.SetRed(0);
   blackPixel.SetGreen(0);
   blackPixel.SetGreen(0);
   blackPixel.SetBlue(0);
   blackPixel.SetBlue(0);
 
   itk::ImageRegionIterator<RGBImageType> imageIterator(image,region);
   itk::ImageRegionIterator<RGBImageType> imageIterator(image,region);
 
   while(!imageIterator.IsAtEnd())
   while(!imageIterator.IsAtEnd())
     {
     {
Line 172: Line 118:
     ++imageIterator;
     ++imageIterator;
     }
     }
 
   RGBImageType::IndexType index;
   RGBImageType::IndexType index;
   index[0] = 0; index[1] = 0;
   index[0] = 0; index[1] = 0;
   image->SetPixel(index, redPixel);
   image->SetPixel(index, redPixel);
 
   index[0] = 1; index[1] = 0;
   index[0] = 1; index[1] = 0;
   image->SetPixel(index, redPixel);   
   image->SetPixel(index, redPixel);   

Revision as of 22:16, 16 November 2010

The iterator is not increasing over all of the components? The second two components of the cell centers do not move from 0? All of the frequencies are 0?

The current output is <source lang="text"> Index = [0, 2, 0] Histogram cell center = [66.9375, 0, 0] Frequency = 0 Index = [1, 2, 0] Histogram cell center = [200.812, 0, 0] Frequency = 0 Index = [0, 2, 0] Histogram cell center = [66.9375, 0, 0] Frequency = 0 Index = [1, 2, 0] Histogram cell center = [200.812, 0, 0] Frequency = 0 Index = [0, 2, 1] Histogram cell center = [66.9375, 0, 0] Frequency = 0 Index = [1, 2, 1] Histogram cell center = [200.812, 0, 0] Frequency = 0 Index = [0, 2, 1] Histogram cell center = [66.9375, 0, 0] Frequency = 0 Index = [1, 2, 1] Histogram cell center = [200.812, 0, 0] Frequency = 0 Frequency = 0

</source>

I would expect to see the index counting from (0,0,0) to (2,2,2), the Cell center following the same pattern as the index, and some of the frequencies to be non-zero.


ImageToHistogramFilter.cxx

<source lang="cpp">

  1. include "itkImageToHistogramFilter.h"
  2. include "itkImage.h"
  3. include "itkRGBPixel.h"
  4. include "itkImageRegionIteratorWithIndex.h"
  1. include <fstream>

typedef itk::RGBPixel<unsigned char> RGBPixelType; typedef itk::Image< RGBPixelType, 2> RGBImageType;

void CreateImage(RGBImageType::Pointer image);

int main(int, char *[]) { 

 const unsigned int MeasurementVectorSize = 3; // RGB

 RGBImageType::Pointer image = RGBImageType::New();
 CreateImage(image);

 typedef itk::Statistics::ImageToHistogramFilter< RGBImageType >         HistogramFilterType;
 typedef HistogramFilterType::HistogramMeasurementVectorType             HistogramMeasurementVectorType;
 typedef HistogramFilterType::HistogramSizeType                          HistogramSizeType;
 typedef HistogramFilterType::HistogramType                              HistogramType;

 HistogramFilterType::Pointer filter = HistogramFilterType::New();
 filter->SetInput(image);
 filter->SetAutoMinimumMaximum(true);

 HistogramSizeType histogramSize( MeasurementVectorSize );

 histogramSize[0] = 2;  // number of bins for the Red   channel
 histogramSize[1] = 2;  // number of bins for the Green channel
 histogramSize[2] = 2;  // number of bins for the Blue  channel

 filter->SetHistogramSize(histogramSize);
 filter->SetMarginalScale(10); // Required (could this be set in the filter?)
 filter->Update();

 const HistogramType * histogram = filter->GetOutput();

 HistogramType::ConstIterator histogramIterator = histogram->Begin();

 while( histogramIterator  != histogram->End() )
   {
   std::cout << "Index = " << histogram->GetIndex(histogramIterator.GetMeasurementVector())

<< " Histogram cell center = " << histogramIterator.GetMeasurementVector() << " Frequency = " << histogramIterator.GetFrequency() << std::endl; 

   ++histogramIterator ;
   }

 HistogramType::MeasurementVectorType mv(3);
 mv[0] = 255;
 mv[1] = 0;
 mv[2] = 0;
 std::cout << "Frequency = " << histogram->GetFrequency(histogram->GetIndex(mv)) << std::endl;
 return EXIT_SUCCESS;

}

void CreateImage(RGBImageType::Pointer image) { 

 // Create a black image with a red square and a green square.
 // This should produce a histogram with very strong spikes.
 RGBImageType::SizeType   size;
 size[0] = 3;
 size[1] = 3;

 RGBImageType::IndexType  start;
 start[0] = 0;
 start[1] = 0;

 RGBImageType::RegionType region;
 region.SetIndex(start);
 region.SetSize(size);

 image->SetRegions(region);
 image->Allocate();

 itk::ImageRegionIteratorWithIndex< RGBImageType > iterator( image, image->GetLargestPossibleRegion() );
 iterator.GoToBegin();

 RGBPixelType redPixel;
 redPixel.SetRed(255);
 redPixel.SetGreen(0);
 redPixel.SetBlue(0);

 RGBPixelType blackPixel;
 blackPixel.SetRed(0);
 blackPixel.SetGreen(0);
 blackPixel.SetBlue(0);

 itk::ImageRegionIterator<RGBImageType> imageIterator(image,region);

 while(!imageIterator.IsAtEnd())
   {
   imageIterator.Set(blackPixel);
   ++imageIterator;
   }

 RGBImageType::IndexType index;
 index[0] = 0; index[1] = 0;
 image->SetPixel(index, redPixel);

 index[0] = 1; index[1] = 0;
 image->SetPixel(index, redPixel);

} </source>

CMakeLists.txt

<source lang="cmake"> cmake_minimum_required(VERSION 2.6)

PROJECT(ImageToHistogramFilter)

FIND_PACKAGE(ITK REQUIRED) INCLUDE(${ITK_USE_FILE})

ADD_EXECUTABLE(ImageToHistogramFilter ImageToHistogramFilter.cxx) TARGET_LINK_LIBRARIES(ImageToHistogramFilter ITKBasicFilters ITKCommon ITKIO ITKStatistics)

</source>

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