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itkCurvilinearArraySpecialCoordinatesImage.hxx
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itkCurvilinearArraySpecialCoordinatesImage.hxx
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/*=========================================================================
*
* Copyright NumFOCUS
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* https://www.apache.org/licenses/LICENSE-2.0.txt
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*=========================================================================*/
/*=========================================================================
*
* Portions of this file are subject to the VTK Toolkit Version 3 copyright.
*
* Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen
*
* For complete copyright, license and disclaimer of warranty information
* please refer to the NOTICE file at the top of the ITK source tree.
*
*=========================================================================*/
#ifndef itkCurvilinearArraySpecialCoordinatesImage_hxx
#define itkCurvilinearArraySpecialCoordinatesImage_hxx
#include <complex>
namespace itk
{
template <typename TPixel, unsigned int VDimension>
void
CurvilinearArraySpecialCoordinatesImage<TPixel, VDimension>::PrintSelf(std::ostream & os, Indent indent) const
{
Superclass::PrintSelf(os, indent);
os << indent << "RadiusSampleSize = " << m_RadiusSampleSize << std::endl;
os << indent << "LateralAngularSeparation = " << m_LateralAngularSeparation << std::endl;
os << indent << "FirstSampleDistance = " << m_FirstSampleDistance << std::endl;
}
template <typename TPixel, unsigned int VDimension>
void
CurvilinearArraySpecialCoordinatesImage<TPixel, VDimension>::CopyInformation(const DataObject * data)
{
Superclass::CopyInformation(data);
if (data)
{
// Attempt to cast data to an CurvilinearArraySpecialCoordinatesImage
const CurvilinearArraySpecialCoordinatesImage<TPixel, VDimension> * const curvilinearArray =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<TPixel, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<unsigned char, VDimension> * const curvilinearArrayUnsignedChar =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<unsigned char, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<signed char, VDimension> * const curvilinearArraySignedChar =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<signed char, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<unsigned short, VDimension> * const curvilinearArrayUnsignedShort =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<unsigned short, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<short, VDimension> * const curvilinearArrayShort =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<short, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<unsigned int, VDimension> * const curvilinearArrayUnsignedInt =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<unsigned int, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<int, VDimension> * const curvilinearArrayInt =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<int, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<unsigned long long, VDimension> * const
curvilinearArrayUnsignedLongLong =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<unsigned long long, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<long long, VDimension> * const curvilinearArrayLongLong =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<long long, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<float, VDimension> * const curvilinearArrayFloat =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<float, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<double, VDimension> * const curvilinearArrayDouble =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<double, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<std::complex<float>, VDimension> * const
curvilinearArrayComplexFloat =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<std::complex<float>, VDimension> *>(data);
const CurvilinearArraySpecialCoordinatesImage<std::complex<double>, VDimension> * const
curvilinearArrayComplexDouble =
dynamic_cast<const CurvilinearArraySpecialCoordinatesImage<std::complex<double>, VDimension> *>(data);
if (curvilinearArray != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArray->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArray->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArray->GetFirstSampleDistance());
}
else if (curvilinearArray != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArray->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArray->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArray->GetFirstSampleDistance());
}
else if (curvilinearArrayUnsignedChar != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayUnsignedChar->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayUnsignedChar->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayUnsignedChar->GetFirstSampleDistance());
}
else if (curvilinearArraySignedChar != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArraySignedChar->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArraySignedChar->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArraySignedChar->GetFirstSampleDistance());
}
else if (curvilinearArrayUnsignedShort != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayUnsignedShort->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayUnsignedShort->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayUnsignedShort->GetFirstSampleDistance());
}
else if (curvilinearArrayShort != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayShort->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayShort->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayShort->GetFirstSampleDistance());
}
else if (curvilinearArrayUnsignedInt != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayUnsignedInt->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayUnsignedInt->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayUnsignedInt->GetFirstSampleDistance());
}
else if (curvilinearArrayInt != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayInt->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayInt->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayInt->GetFirstSampleDistance());
}
else if (curvilinearArrayUnsignedLongLong != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayUnsignedLongLong->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayUnsignedLongLong->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayUnsignedLongLong->GetFirstSampleDistance());
}
else if (curvilinearArrayLongLong != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayLongLong->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayLongLong->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayLongLong->GetFirstSampleDistance());
}
else if (curvilinearArrayFloat != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayFloat->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayFloat->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayFloat->GetFirstSampleDistance());
}
else if (curvilinearArrayDouble != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayDouble->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayDouble->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayDouble->GetFirstSampleDistance());
}
else if (curvilinearArrayComplexFloat != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayComplexFloat->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayComplexFloat->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayComplexFloat->GetFirstSampleDistance());
}
else if (curvilinearArrayComplexDouble != nullptr)
{
this->SetLateralAngularSeparation(curvilinearArrayComplexDouble->GetLateralAngularSeparation());
this->SetRadiusSampleSize(curvilinearArrayComplexDouble->GetRadiusSampleSize());
this->SetFirstSampleDistance(curvilinearArrayComplexDouble->GetFirstSampleDistance());
}
else if (std::string(data->GetNameOfClass()) == "Image")
{
// No extra meta data to transfer
}
else
{
// pointer could not be cast back down
itkExceptionMacro(<< "itk::CurvilinearArraySpecialCoordinatesImage::CopyInformation() cannot cast "
<< typeid(data).name() << " to "
<< typeid(const CurvilinearArraySpecialCoordinatesImage *).name());
}
}
}
template <typename TPixel, unsigned int VDimension>
void
CurvilinearArraySpecialCoordinatesImage<TPixel, VDimension>::Graft(const DataObject * data)
{
// call the superclass' implementation
Superclass::Graft(data);
if (data)
{
// Attempt to cast data to a CurvilinearArraySpecialCoordinatesImage
const Self * const imgData = dynamic_cast<const Self *>(data);
if (imgData)
{
// Now copy anything remaining that is needed
this->SetPixelContainer(const_cast<PixelContainer *>(imgData->GetPixelContainer()));
}
else
{
// pointer could not be cast back down
itkExceptionMacro(<< "itk::Image::Graft() cannot cast " << typeid(data).name() << " to "
<< typeid(const Self *).name());
}
}
}
} // end namespace itk
#endif