Esempio n. 1
0
bool SoMVTVolumeCalculator::validateInput()
{
	if (!inputVolume.getValue() || !refVolume.getValue())
		return false;

	// check if images have the same size
    SoItkDataImage* resultImage = inputVolume.getValue();
    SoItkDataImage* referenceImage = refVolume.getValue();

	if( resultImage->getNumDimension() != 3 || referenceImage->getNumDimension() != 3 )
	{
		SoDebugError::post( __FILE__, "Image dimension not supported yet" );
		SoDebugError::post( __FILE__, "Only works with volume data" );
		return false;
	}

	SegmentationType* itkResultImage = static_cast< SegmentationType* >( resultImage->getPointer() );
	SegmentationType::RegionType resRegion = itkResultImage->GetLargestPossibleRegion();

	SegmentationType* itkValidationImage = static_cast< SegmentationType* >( referenceImage->getPointer() );
	SegmentationType::RegionType valRegion = itkValidationImage->GetLargestPossibleRegion();

	if (resRegion.GetSize() != valRegion.GetSize())
	{
		SoDebugError::post( __FILE__, "Image format not supported yet" );
		SoDebugError::post( __FILE__, "Only works with UNSIGNED_SHORT" );
		return false;
	}

	SegmentationType::SpacingType valSpacing = itkValidationImage->GetSpacing();
	volumeFactor = 0.001*valSpacing[0]*valSpacing[1]*valSpacing[2];
	SegmentationType::SpacingType resSpacing = itkResultImage->GetSpacing();
	if (resSpacing[0]!=valSpacing[0] || resSpacing[1]!=valSpacing[1] || resSpacing[2]!=valSpacing[2]) 
	{
		SoDebugError::post( __FILE__, "WARNING: Spacing of segmentation different from reference! Adjusting values..." );
	}

	return true;
}
Esempio n. 2
0
int main(int argc, char* argv[])
{
  if (argc < 3)
  {
    std::cout << "Usage: " << argv[0] << " segmentation reference [-o OutputName] [-t threshold]" << std::endl;
    std::cout << "Output: resultFilename, referenceFilename, sensitivity, specificity, PPV" << std::endl;
    return -1;
  }

  // initialisation
  SegmentationReaderType::Pointer resultReader = SegmentationReaderType::New();
  FloatSegmentationReaderType::Pointer validationReader = FloatSegmentationReaderType::New();
  SegmentationPointer resultImage = resultReader->GetOutput();
  FloatSegmentationPointer validationImage = validationReader->GetOutput();

  char resultFilename[512];
  sprintf( resultFilename, "%s", argv[1] );
  char referenceFilename[512];
  sprintf( referenceFilename, "%s", argv[2] );

  double threshold = 0.5;
  for (int i = 3; i < argc; i++) {
    if (strcmp(argv[i], "-t") == 0 && i < (argc - 1)) {
       threshold = atof(argv[i+1]);
    }
  }

  std::cerr << "setting threhold as " << threshold << std::endl;

  // read result image:
  try {
    //cout << "loading result image ... " << endl;
    resultReader->SetFileName( resultFilename );
    resultReader->Update();
  }
  catch(...) {
    printf( "Could not load image %s\n", resultFilename );
    return -2;
  }
  // read validation image:
  try {
    //cout << "loading reference image ... " << endl;
    validationReader->SetFileName( referenceFilename );
    validationReader->Update();
  }
  catch(...) {
    printf( "Could not load image %s\n", referenceFilename );
    return -2;
  }
  // check if images have the same size
  SegmentationType::RegionType resRegion = resultImage->GetLargestPossibleRegion();
  FloatSegmentationType::RegionType valRegion = validationImage->GetLargestPossibleRegion();
  if (resRegion.GetSize() != valRegion.GetSize())
  {
    printf( "Image sizes for %s and %s are different!\n", resultFilename, referenceFilename );
    return -3;
  }

  FloatSegmentationType::SpacingType valSpacing = validationImage->GetSpacing();
  double volumeFactor = 0.001*valSpacing[0]*valSpacing[1]*valSpacing[2];
  SegmentationType::SpacingType resSpacing = resultImage->GetSpacing();
  if (resSpacing[0]!=valSpacing[0] || resSpacing[1]!=valSpacing[1] || resSpacing[2]!=valSpacing[2]) 
  {
    std::cerr << "WARNING: Spacing of segmentation different from reference! Sum "
            << fabs(resSpacing[0] - valSpacing[0]) + fabs(resSpacing[1] - valSpacing[1]) + fabs(resSpacing[2] - valSpacing[2])
            << std::endl;

  }


  // Tanimoto overlap metric
  unsigned long tp = 0, tn = 0, fp = 0, fn = 0;
  IteratorType resIt( resultImage, resRegion );
  FloatIteratorType valIt( validationImage, valRegion );

  for ( resIt.GoToBegin(), valIt.GoToBegin(); !resIt.IsAtEnd(); ++resIt, ++valIt ) {
    if (resIt.Get()!=0) {
      if (valIt.Get()>threshold) {
		tp ++;
      } else {
		fp ++;
	  }	
    } else {
      if (valIt.Get()>threshold) {
		fn ++;
	  } else {
		tn ++;
      }
    }
  }


  double sensitivity = double(tp) / double(tp + fn);
  double specificity = double(tn) / double(tn + fp);
  double ppv = double(tp) / double(tp + fp);

  char resultBuffer[1024];
  sprintf(resultBuffer, "%s; %s; %d; %d; %d; %d; %.4f; %.4f; %.4f;\n", resultFilename, referenceFilename, tp, fp, tn, fn, sensitivity, specificity, ppv);
  printf(resultBuffer);

  return 0;
}