mitk::DataNode::Pointer mitk::Tool::CreateEmptySegmentationNode( Image* original, const std::string& organName, const mitk::Color& color ) { // we NEED a reference image for size etc. if (!original) return NULL; // actually create a new empty segmentation PixelType pixelType(mitk::MakeScalarPixelType<DefaultSegmentationDataType>() ); Image::Pointer segmentation = Image::New(); if (original->GetDimension() == 2) { const unsigned int dimensions[] = { original->GetDimension(0), original->GetDimension(1), 1 }; segmentation->Initialize(pixelType, 3, dimensions); } else { segmentation->Initialize(pixelType, original->GetDimension(), original->GetDimensions()); } unsigned int byteSize = sizeof(DefaultSegmentationDataType); for (unsigned int dim = 0; dim < segmentation->GetDimension(); ++dim) { byteSize *= segmentation->GetDimension(dim); } memset( segmentation->GetData(), 0, byteSize ); if (original->GetTimeSlicedGeometry() ) { AffineGeometryFrame3D::Pointer originalGeometryAGF = original->GetTimeSlicedGeometry()->Clone(); TimeSlicedGeometry::Pointer originalGeometry = dynamic_cast<TimeSlicedGeometry*>( originalGeometryAGF.GetPointer() ); segmentation->SetGeometry( originalGeometry ); } else { Tool::ErrorMessage("Original image does not have a 'Time sliced geometry'! Cannot create a segmentation."); return NULL; } return CreateSegmentationNode( segmentation, organName, color ); }
void mitk::CorrectorAlgorithm::GenerateData() { Image::Pointer inputImage = const_cast<Image*>(ImageToImageFilter::GetInput(0)); if (inputImage.IsNull() || inputImage->GetDimension() != 2) { itkExceptionMacro("CorrectorAlgorithm needs a 2D image as input."); } if (m_Contour.IsNull()) { itkExceptionMacro("CorrectorAlgorithm needs a Contour object as input."); } // copy the input (since m_WorkingImage will be changed later) m_WorkingImage = Image::New(); m_WorkingImage->Initialize( inputImage ); m_WorkingImage->SetVolume( inputImage.GetPointer()->GetData() ); if (inputImage->GetTimeSlicedGeometry() ) { AffineGeometryFrame3D::Pointer originalGeometryAGF = inputImage->GetTimeSlicedGeometry()->Clone(); TimeSlicedGeometry::Pointer originalGeometry = dynamic_cast<TimeSlicedGeometry*>( originalGeometryAGF.GetPointer() ); m_WorkingImage->SetGeometry( originalGeometry ); } else { itkExceptionMacro("Original image does not have a 'Time sliced geometry'! Cannot copy."); } // Convert to ipMITKSegmentationTYPE (because TobiasHeimannCorrectionAlgorithm relys on that data type) itk::Image< ipMITKSegmentationTYPE, 2 >::Pointer correctPixelTypeImage; CastToItkImage( m_WorkingImage, correctPixelTypeImage ); assert (correctPixelTypeImage.IsNotNull() ); // possible bug in CastToItkImage ? // direction maxtrix is wrong/broken/not working after CastToItkImage, leading to a failed assertion in // mitk/Core/DataStructures/mitkSlicedGeometry3D.cpp, 479: // virtual void mitk::SlicedGeometry3D::SetSpacing(const mitk::Vector3D&): Assertion `aSpacing[0]>0 && aSpacing[1]>0 && aSpacing[2]>0' failed // solution here: we overwrite it with an unity matrix itk::Image< ipMITKSegmentationTYPE, 2 >::DirectionType imageDirection; imageDirection.SetIdentity(); correctPixelTypeImage->SetDirection(imageDirection); Image::Pointer temporarySlice = this->GetOutput(); // temporarySlice = ImportItkImage( correctPixelTypeImage ); CastToMitkImage( correctPixelTypeImage, temporarySlice ); TobiasHeimannCorrectionAlgorithm( temporarySlice->GetSliceData()->GetPicDescriptor() ); // temporarySlice is our return value (user can get it by calling GetOutput() ) CalculateDifferenceImage( temporarySlice, inputImage ); if ( m_DifferenceImage.IsNotNull() && inputImage->GetTimeSlicedGeometry() ) { AffineGeometryFrame3D::Pointer originalGeometryAGF = inputImage->GetTimeSlicedGeometry()->Clone(); TimeSlicedGeometry::Pointer originalGeometry = dynamic_cast<TimeSlicedGeometry*>( originalGeometryAGF.GetPointer() ); m_DifferenceImage->SetGeometry( originalGeometry ); } else { itkExceptionMacro("Original image does not have a 'Time sliced geometry'! Cannot copy."); } }