Пример #1
0
static mitk::Image::Pointer GenerateMaskImage(unsigned int dimX,
                                              unsigned int dimY,
                                              unsigned int dimZ,
                                              float spacingX = 1,
                                              float spacingY = 1,
                                              float spacingZ = 1)
{
  typedef itk::Image< TPixelType, 3 > ImageType;
  typename ImageType::RegionType imageRegion;
  imageRegion.SetSize(0, dimX);
  imageRegion.SetSize(1, dimY);
  imageRegion.SetSize(2, dimZ);
  typename ImageType::SpacingType spacing;
  spacing[0] = spacingX;
  spacing[1] = spacingY;
  spacing[2] = spacingZ;

  mitk::Point3D                       origin; origin.Fill(0.0);
  itk::Matrix<double, 3, 3>           directionMatrix; directionMatrix.SetIdentity();

  typename ImageType::Pointer image = ImageType::New();
  image->SetSpacing( spacing );
  image->SetOrigin( origin );
  image->SetDirection( directionMatrix );
  image->SetLargestPossibleRegion( imageRegion );
  image->SetBufferedRegion( imageRegion );
  image->SetRequestedRegion( imageRegion );
  image->Allocate();
  image->FillBuffer(1);

  mitk::Image::Pointer mitkImage = mitk::Image::New();
  mitkImage->InitializeByItk( image.GetPointer() );
  mitkImage->SetVolume( image->GetBufferPointer() );
  return mitkImage;
}
Пример #2
0
static mitk::Image::Pointer GenerateGradientWithDimXImage(unsigned int dimX,
                                                          unsigned int dimY,
                                                          unsigned int dimZ,
                                                          float spacingX = 1,
                                                          float spacingY = 1,
                                                          float spacingZ = 1)
{
  typedef itk::Image< TPixelType, 3 > ImageType;
  typename ImageType::RegionType imageRegion;
  imageRegion.SetSize(0, dimX);
  imageRegion.SetSize(1, dimY);
  imageRegion.SetSize(2, dimZ);
  typename ImageType::SpacingType spacing;
  spacing[0] = spacingX;
  spacing[1] = spacingY;
  spacing[2] = spacingZ;

  mitk::Point3D                       origin; origin.Fill(0.0);
  itk::Matrix<double, 3, 3>           directionMatrix; directionMatrix.SetIdentity();

  typename ImageType::Pointer image = ImageType::New();
  image->SetSpacing( spacing );
  image->SetOrigin( origin );
  image->SetDirection( directionMatrix );
  image->SetLargestPossibleRegion( imageRegion );
  image->SetBufferedRegion( imageRegion );
  image->SetRequestedRegion( imageRegion );
  image->Allocate();
  image->FillBuffer(0.0);

  typedef itk::ImageRegionIterator<ImageType>      IteratorOutputType;
  IteratorOutputType it(image, imageRegion);
  it.GoToBegin();

  TPixelType val = 0;
  while(!it.IsAtEnd())
  {
    it.Set(val % dimX);
    val++;
    ++it;
  }

  mitk::Image::Pointer mitkImage = mitk::Image::New();
  mitkImage->InitializeByItk( image.GetPointer() );
  mitkImage->SetVolume( image->GetBufferPointer() );
  return mitkImage;
}
Пример #3
0
void WorkbenchUtils::addPaddingItk(itk::Image <PixelType, ImageDimension> *itkImage, Axis axis, bool append,
                                   int numberOfSlices, float pixelValue, Image::Pointer outImage) {
    // pixel type is templated. The input field for the value is set to float, so the user might enter some invalid values for the image type at hand.
    // since all primitive built-in types have well defined casting behaviour between each other, we'll just do a typecast. we will clip the entered
    // value at PixelTypes min/max to prevent an overflow. The possible loss of precision is ignored.
    float lower = itk::NumericTraits<PixelType>::min();
    float upper = itk::NumericTraits<PixelType>::max();
    float clippedPixelValue = std::max(lower, std::min(pixelValue, upper));

    PixelType paddingPixelValue = (PixelType) clippedPixelValue;

    typedef itk::Image <PixelType, ImageDimension> ImageType;

    // gather all data
    typename ImageType::SizeType lowerBound;
    typename ImageType::SizeType upperBound;
    lowerBound.Fill(0);
    upperBound.Fill(0);

    unsigned int itkAxis = convertToItkAxis(axis);
    if (append) {
        upperBound[itkAxis] = numberOfSlices;
    } else {
        lowerBound[itkAxis] = numberOfSlices;
    }

    // setup the filter
    typedef itk::ConstantPadImageFilter <ImageType, ImageType> PadFilterType;
    typename PadFilterType::Pointer padFilter = PadFilterType::New();
    padFilter->SetInput(itkImage);
    padFilter->SetConstant(paddingPixelValue);
    padFilter->SetPadLowerBound(lowerBound);
    padFilter->SetPadUpperBound(upperBound);
    padFilter->UpdateLargestPossibleRegion();

    // Update the origin, since padding creates negative index that is lost when returned to MITK
    typename ImageType::Pointer paddedImage = padFilter->GetOutput();
    typename ImageType::RegionType paddedImageRegion = paddedImage->GetLargestPossibleRegion();
    typename ImageType::PointType origin;
    paddedImage->TransformIndexToPhysicalPoint(paddedImageRegion.GetIndex(), origin);
    paddedImage->SetOrigin(origin);

    // get the results and cast them back to mitk. return via out parameter.
    outImage->InitializeByItk(paddedImage.GetPointer());
    CastToMitkImage(paddedImage, outImage);
}