ITK/Examples/WishList/Segmentation/OtsuMultipleThresholdsCalculator: Difference between revisions
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/* | /* | ||
Just a script to make one image out of otsu's multiple threshold scheme. Say, if one defines two threshold | Just a script to make one image out of otsu's multiple threshold scheme. Say, if one defines two threshold | ||
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add_executable(OtsuMultipleThresholdsCalculator OtsuMultipleThresholdsCalculator.cxx) | add_executable(OtsuMultipleThresholdsCalculator OtsuMultipleThresholdsCalculator.cxx) | ||
TARGET_LINK_LIBRARIES(OtsuMultipleThresholdsCalculator | TARGET_LINK_LIBRARIES(OtsuMultipleThresholdsCalculator ITKIO ITKStatistics) |
Revision as of 23:00, 1 July 2011
/* Just a script to make one image out of otsu's multiple threshold scheme. Say, if one defines two threshold values, then there will be an image with three values: value 1 for (min value of the image < first threshold),( first threshold < value 2. < second threshold) and (second threshold < value 3 < max value of the image). Just change the imagetype for different images.
example:
OtsuMultipleThresholdCalculator.exe inputimagename.png outputimagename .png 128 2
- /
- include "itkOtsuMultipleThresholdsCalculator.h"
- include "itkImage.h"
- include "itkImageFileReader.h"
- include "itkImageFileWriter.h"
- include "itkScalarImageToHistogramGenerator.h"
- include "itkBinaryThresholdImageFilter.h"
- include "itkNumericTraits.h"
- include <itkAddImageFilter.h>
- include <stdio.h>
- include <math.h>
typedef unsigned char PixelType; typedef itk::Image<PixelType, 2> ImageType;
void CreateImage(ImageType::Pointer image);
int main( int argc, char * argv[]) {
if( argc < 6) { std::cerr << "Usage: " << argv[0]; std::cerr << " inputImageFile outputImageFileBase "; std::cerr << " outputImageFileExtension numberOfhistogrambins " ;
std::cerr << " numberOfThresholdsToCalculate "<< std::endl;
return EXIT_FAILURE; }
typedef itk::ImageFileReader< ImageType > ReaderType; ReaderType::Pointer reader = ReaderType::New(); reader->SetFileName( argv[1] ); reader->Update();
ImageType::Pointer image = reader -> GetOutput();
ImageType::Pointer sumimage = ImageType::New();
ImageType::RegionType region = image->GetLargestPossibleRegion(); ImageType::SizeType size = region.GetSize(); ImageType::IndexType start; start.Fill(0);
region.SetIndex( start ); region.SetSize( size ); sumimage->SetRegions(region); sumimage->Allocate(); sumimage->FillBuffer(0) ;
typedef itk::ImageFileWriter< ImageType > WriterType; typedef itk::Statistics::ScalarImageToHistogramGenerator<ImageType > ScalarImageToHistogramGeneratorType; typedef itk::OtsuMultipleThresholdsCalculator<ScalarImageToHistogramGeneratorType::HistogramType > CalculatorType; typedef itk::BinaryThresholdImageFilter< ImageType, ImageType > FilterType; typedef itk::AddImageFilter< ImageType, ImageType ,ImageType> AddFilterType; ScalarImageToHistogramGeneratorType::Pointer scalarImageToHistogramGenerator = ScalarImageToHistogramGeneratorType::New(); CalculatorType::Pointer calculator = CalculatorType::New(); FilterType::Pointer filter = FilterType::New(); AddFilterType::Pointer addFilter = AddFilterType::New();
WriterType::Pointer writer = WriterType::New();
scalarImageToHistogramGenerator->SetNumberOfBins( atoi( argv[4] ) ); calculator->SetNumberOfThresholds(atoi( argv[5] ) ); scalarImageToHistogramGenerator->SetInput(image); scalarImageToHistogramGenerator->Compute(); calculator->SetInputHistogram(scalarImageToHistogramGenerator->GetOutput()); filter->SetInput(image );
calculator->Update(); const CalculatorType::OutputType &thresholdVector = calculator->GetOutput(); CalculatorType::OutputType::const_iterator itNum = thresholdVector.begin(); PixelType min = 0; PixelType max = 255; const PixelType outsideValue = 0; std::string outputFileBase = argv[2]; std::string outputFile; std::string format = argv[2];
char outputFilename[1000]; outputFile = outputFileBase; outputFile += argv[3]; // filename extension
PixelType lowerThreshold = min; PixelType upperThreshold; filter->SetOutsideValue(outsideValue ); PixelType step =floor(255/(atoi( argv[5] )+1) ); PixelType count=step; for(; itNum < thresholdVector.end(); itNum++) {
const PixelType insideValue = count; filter->SetInsideValue( insideValue ); upperThreshold =static_cast<PixelType>(*itNum); filter->SetLowerThreshold( lowerThreshold ); filter->SetUpperThreshold(upperThreshold ); filter->Update(); lowerThreshold = upperThreshold; addFilter->SetInput1( filter->GetOutput() ); addFilter->SetInput2( sumimage ); addFilter->Update(); sumimage = addFilter->GetOutput() ; count = count + step; } PixelType insideValue = 255; filter->SetInsideValue( insideValue ); filter->SetLowerThreshold( lowerThreshold ); filter->SetUpperThreshold(max ); filter->Update(); addFilter->SetInput1( filter->GetOutput() ); addFilter->SetInput2( sumimage ); addFilter->Update(); sumimage = addFilter->GetOutput() ; writer->SetInput(sumimage ); writer->SetFileName( outputFile.c_str()); try { writer->Update(); } catch( itk::ExceptionObject & excp ) { std::cerr << "Exception thrown " << excp << std::endl; } // Software Guide : BeginCodeSnippet return EXIT_SUCCESS;
}
CMakeLists.txt
cmake_minimum_required(VERSION 2.6)
project(OtsuMultipleThresholdsCalculator)
find_package(ITK REQUIRED) include(${ITK_USE_FILE})
add_executable(OtsuMultipleThresholdsCalculator OtsuMultipleThresholdsCalculator.cxx) TARGET_LINK_LIBRARIES(OtsuMultipleThresholdsCalculator ITKIO ITKStatistics)