예제 #1
0
  void ImageCastToItkAndBack_SamePointer_Success()
  {
    typedef itk::Image<short, 3> ItkImageType;
    ItkImageType::Pointer itkImage = ItkImageType::New();

    std::string m_ImagePath = GetTestDataFilePath("Pic3D.nrrd");
    mitk::Image::Pointer testDataImage = mitk::IOUtil::LoadImage(m_ImagePath);

    // modify ITK image
    itk::Matrix<double, 3, 3> dir = itkImage->GetDirection();
    dir *= 2;
    itkImage->SetDirection(dir);

    CPPUNIT_ASSERT_THROW_MESSAGE("No exception thrown for casting back the same memory",
                                 testDataImage = mitk::GrabItkImageMemory(itkImage, testDataImage),
                                 itk::ExceptionObject);
    CPPUNIT_ASSERT(testDataImage.IsNotNull());
  }
예제 #2
0
void mitk::RegistrationWrapper::ApplyTransformationToImage(mitk::Image::Pointer img, const mitk::RegistrationWrapper::RidgidTransformType &transformation,double* offset, mitk::Image* resampleReference,  bool binary)
{
  typedef mitk::DiffusionImage<short> DiffusionImageType;

  if (dynamic_cast<DiffusionImageType*> (img.GetPointer()) == NULL)
  {

    ItkImageType::Pointer itkImage = ItkImageType::New();


    MITK_ERROR << "imgCopy  0 " <<  "/" << img->GetReferenceCount();
    MITK_ERROR << "pixel type  " << img->GetPixelType().GetComponentTypeAsString();

    CastToItkImage(img, itkImage);



    typedef itk::Euler3DTransform< double > RigidTransformType;
    RigidTransformType::Pointer rtransform = RigidTransformType::New();
    RigidTransformType::ParametersType parameters(RigidTransformType::ParametersDimension);

    for (int i = 0; i<6;++i)
      parameters[i] = transformation[i];

    rtransform->SetParameters( parameters );

    mitk::Point3D origin = itkImage->GetOrigin();
    origin[0]-=offset[0];
    origin[1]-=offset[1];
    origin[2]-=offset[2];

    mitk::Point3D newOrigin = rtransform->GetInverseTransform()->TransformPoint(origin);

    itk::Matrix<double,3,3> dir = itkImage->GetDirection();
    itk::Matrix<double,3,3> transM  ( vnl_inverse(rtransform->GetMatrix().GetVnlMatrix()));
    itk::Matrix<double,3,3> newDirection = transM * dir;

    itkImage->SetOrigin(newOrigin);
    itkImage->SetDirection(newDirection);

    // Perform Resampling if reference image is provided
    if (resampleReference != NULL)
    {
      typedef itk::ResampleImageFilter<ItkImageType, ItkImageType>  ResampleFilterType;

      ItkImageType::Pointer itkReference = ItkImageType::New();
      CastToItkImage(resampleReference,itkReference);

      typedef itk::WindowedSincInterpolateImageFunction< ItkImageType, 3> WindowedSincInterpolatorType;
      WindowedSincInterpolatorType::Pointer sinc_interpolator = WindowedSincInterpolatorType::New();

      typedef itk::NearestNeighborInterpolateImageFunction< ItkImageType, double > NearestNeighborInterpolatorType;
      NearestNeighborInterpolatorType::Pointer nn_interpolator = NearestNeighborInterpolatorType::New();


      ResampleFilterType::Pointer resampler = ResampleFilterType::New();
      resampler->SetInput(itkImage);
      resampler->SetReferenceImage( itkReference );
      resampler->UseReferenceImageOn();
      if (binary)
        resampler->SetInterpolator(nn_interpolator);
      else
        resampler->SetInterpolator(sinc_interpolator);

      resampler->Update();

      GrabItkImageMemory(resampler->GetOutput(), img);
    }
    else
    {
      // !! CastToItk behaves very differently depending on the original data type
      // if the target type is the same as the original, only a pointer to the data is set
      // and an additional GrabItkImageMemory will cause a segfault when the image is destroyed
      // GrabItkImageMemory - is not necessary in this case since we worked on the original data
      // See Bug 17538.
      if (img->GetPixelType().GetComponentTypeAsString() != "double")
        img = GrabItkImageMemory(itkImage);
    }
  }
  else
  {
    DiffusionImageType::Pointer diffImages = dynamic_cast<DiffusionImageType*>(img.GetPointer());

    typedef itk::Euler3DTransform< double > RigidTransformType;
    RigidTransformType::Pointer rtransform = RigidTransformType::New();
    RigidTransformType::ParametersType parameters(RigidTransformType::ParametersDimension);

    for (int i = 0; i<6;++i)
    {
      parameters[i] = transformation[i];
    }

    rtransform->SetParameters( parameters );

    mitk::Point3D b0origin = diffImages->GetVectorImage()->GetOrigin();
    b0origin[0]-=offset[0];
    b0origin[1]-=offset[1];
    b0origin[2]-=offset[2];

    mitk::Point3D newOrigin = rtransform->GetInverseTransform()->TransformPoint(b0origin);

    itk::Matrix<double,3,3> dir = diffImages->GetVectorImage()->GetDirection();
    itk::Matrix<double,3,3> transM  ( vnl_inverse(rtransform->GetMatrix().GetVnlMatrix()));
    itk::Matrix<double,3,3> newDirection = transM * dir;

    diffImages->GetVectorImage()->SetOrigin(newOrigin);
    diffImages->GetVectorImage()->SetDirection(newDirection);
    diffImages->Modified();

    mitk::DiffusionImageCorrectionFilter<short>::Pointer correctionFilter = mitk::DiffusionImageCorrectionFilter<short>::New();

    // For Diff. Images: Need to rotate the gradients (works in-place)
    correctionFilter->SetImage(diffImages);
    correctionFilter->CorrectDirections(transM.GetVnlMatrix());
    img = diffImages;
  }
}