void mitk::GeometryClipImageFilter::SetClippingGeometry(const mitk::BaseGeometry *aClippingGeometry) { if (aClippingGeometry != m_ClippingGeometry.GetPointer()) { m_ClippingGeometry = aClippingGeometry; m_ClippingGeometryData->SetGeometry(const_cast<mitk::BaseGeometry *>(aClippingGeometry)); SetNthInput(1, m_ClippingGeometryData); Modified(); } }
void mitk::GeometryClipImageFilter::SetClippingGeometry(const mitk::Geometry3D* aClippingGeometry) { if(aClippingGeometry != m_ClippingGeometry.GetPointer()) { m_ClippingGeometry = aClippingGeometry; m_TimeSlicedClippingGeometry = dynamic_cast<const TimeSlicedGeometry*>(aClippingGeometry); m_ClippingGeometryData->SetGeometry(const_cast<mitk::Geometry3D*>(aClippingGeometry)); SetNthInput(1, m_ClippingGeometryData); Modified(); } }
void RegistrationBase::SetReferenceImage(Image::Pointer fixedImage) { m_ReferenceImage = fixedImage; SetNthInput(1, m_ReferenceImage); Modified(); }
void ImageRegistrationMethod::SetFixedMask(Image::Pointer FixedMask) { m_FixedMask = FixedMask; SetNthInput(4, m_FixedMask); Modified(); }
void ImageRegistrationMethod::SetMovingMask(Image::Pointer movingMask) { m_MovingMask = movingMask; SetNthInput(3, m_MovingMask); Modified(); }