예제 #1
0
/*
 * What is the input requested region that is required to produce the output
 * requested region? By default, the largest possible region is always
 * required but this is overridden in many subclasses. For instance, for an
 * image processing filter where an output pixel is a simple function of an
 * input pixel, the input requested region will be set to the output
 * requested region. For an image processing filter where an output pixel is
 * a function of the pixels in a neighborhood of an input pixel, then the
 * input requested region will need to be larger than the output requested
 * region (to avoid introducing artificial boundary conditions). This
 * function should never request an input region that is outside the the
 * input largest possible region (i.e. implementations of this method should
 * crop the input requested region at the boundaries of the input largest
 * possible region). 
 */
void mitk::ExtractImageFilter::GenerateInputRequestedRegion()
{
  Superclass::GenerateInputRequestedRegion();

  ImageToImageFilter::InputImagePointer input = const_cast< ImageToImageFilter::InputImageType* > ( this->GetInput() );
  Image::Pointer output = this->GetOutput();

  if (input->GetDimension() == 2)
  {
    input->SetRequestedRegionToLargestPossibleRegion();
    return;
  }

  Image::RegionType requestedRegion;
  requestedRegion = output->GetRequestedRegion();
  requestedRegion.SetIndex(0, 0);
  requestedRegion.SetIndex(1, 0);
  requestedRegion.SetIndex(2, 0);
  requestedRegion.SetSize(0, input->GetDimension(0));
  requestedRegion.SetSize(1, input->GetDimension(1));
  requestedRegion.SetSize(2, input->GetDimension(2));

  requestedRegion.SetIndex( m_SliceDimension, m_SliceIndex ); // only one slice needed
  requestedRegion.SetSize( m_SliceDimension, 1 );

  input->SetRequestedRegion( &requestedRegion );
}
예제 #2
0
void mitk::ImageTimeSelector::GenerateInputRequestedRegion()
{
  Superclass::GenerateInputRequestedRegion();

  ImageToImageFilter::InputImagePointer input =
    const_cast< mitk::ImageToImageFilter::InputImageType * > ( this->GetInput() );
  Image::Pointer output = this->GetOutput();

  Image::RegionType requestedRegion;
  requestedRegion = output->GetRequestedRegion();
  requestedRegion.SetIndex(3, m_TimeNr);
  requestedRegion.SetIndex(4, m_ChannelNr);
  requestedRegion.SetSize(3, 1);
  requestedRegion.SetSize(4, 1);

  input->SetRequestedRegion( & requestedRegion );
}
void mitk::CylindricToCartesianFilter::GenerateInputRequestedRegion()
{
  Superclass::GenerateInputRequestedRegion();

  mitk::ImageToImageFilter::InputImagePointer input =
    const_cast< mitk::ImageToImageFilter::InputImageType * > ( this->GetInput() );
  mitk::Image::Pointer output = this->GetOutput();

  Image::RegionType requestedRegion;
  requestedRegion = output->GetRequestedRegion();
  requestedRegion.SetIndex(0, 0);
  requestedRegion.SetIndex(1, 0);
  requestedRegion.SetIndex(2, 0);
  requestedRegion.SetSize(0, input->GetDimension(0));
  requestedRegion.SetSize(1, input->GetDimension(1));
  requestedRegion.SetSize(2, input->GetDimension(2));

  input->SetRequestedRegion( & requestedRegion );
}
void mitk::AngleCorrectByPointFilter::GenerateInputRequestedRegion()
{
  Superclass::GenerateInputRequestedRegion();

  mitk::ImageToImageFilter::InputImagePointer input =
    const_cast< mitk::ImageToImageFilter::InputImageType * > ( this->GetInput() );
  mitk::Image::Pointer output = this->GetOutput();

  Image::RegionType requestedRegion;
  requestedRegion = output->GetRequestedRegion();
  requestedRegion.SetIndex(0, 0);
  requestedRegion.SetIndex(1, 0);
  requestedRegion.SetIndex(2, 0);
  //requestedRegion.SetIndex(3, 0);
  //requestedRegion.SetIndex(4, 0);
  requestedRegion.SetSize(0, input->GetDimension(0));
  requestedRegion.SetSize(1, input->GetDimension(1));
  requestedRegion.SetSize(2, input->GetDimension(2));
  //requestedRegion.SetSize(3, output->GetDimension(3));
  //requestedRegion.SetSize(4, output->GetNumberOfChannels());

  input->SetRequestedRegion( & requestedRegion );
}