/usr/include/ITK-4.5/itkCenteredAffineTransform.hxx is in libinsighttoolkit4-dev 4.5.0-3.
This file is owned by root:root, with mode 0o644.
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*
* Copyright Insight Software Consortium
*
* 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
*
* http://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.
*
*=========================================================================*/
#ifndef __itkCenteredAffineTransform_hxx
#define __itkCenteredAffineTransform_hxx
#include "itkNumericTraits.h"
#include "itkCenteredAffineTransform.h"
#include "vnl/algo/vnl_matrix_inverse.h"
namespace itk
{
// Constructor with default arguments
template <typename TScalar, unsigned int NDimensions>
CenteredAffineTransform<TScalar, NDimensions>::CenteredAffineTransform() : Superclass(ParametersDimension)
{
}
// Destructor
template <typename TScalar, unsigned int NDimensions>
CenteredAffineTransform<TScalar, NDimensions>::
~CenteredAffineTransform()
{
}
// Get parameters
template <typename TScalar, unsigned int NDimensions>
const typename CenteredAffineTransform<TScalar,
NDimensions>::ParametersType
& CenteredAffineTransform<TScalar, NDimensions>::GetParameters(void) const
{
// Transfer the linear part
unsigned int par = 0;
const MatrixType & matrix = this->GetMatrix();
for( unsigned int row = 0; row < NDimensions; row++ )
{
for( unsigned int col = 0; col < NDimensions; col++ )
{
this->m_Parameters[par] = matrix[row][col];
++par;
}
}
// Transfer the rotation center
InputPointType center = this->GetCenter();
for( unsigned int j = 0; j < NDimensions; j++ )
{
this->m_Parameters[par] = center[j];
++par;
}
// Transfer the translation
OutputVectorType translation = this->GetTranslation();
for( unsigned int k = 0; k < NDimensions; k++ )
{
this->m_Parameters[par] = translation[k];
++par;
}
return this->m_Parameters;
}
/** Set the parameters */
template <typename TScalar, unsigned int NDimensions>
void
CenteredAffineTransform<TScalar, NDimensions>::SetParameters(const ParametersType & parameters)
{
// Transfer the linear part
unsigned int par = 0;
// Save parameters. Needed for proper operation of TransformUpdateParameters.
if( ¶meters != &(this->m_Parameters) )
{
this->m_Parameters = parameters;
}
MatrixType matrix;
for( unsigned int row = 0; row < NDimensions; row++ )
{
for( unsigned int col = 0; col < NDimensions; col++ )
{
matrix[row][col] = this->m_Parameters[par];
++par;
}
}
this->SetMatrix(matrix);
// Transfer the rotation center
InputPointType center;
for( unsigned int i = 0; i < NDimensions; i++ )
{
center[i] = this->m_Parameters[par];
++par;
}
this->SetCenter(center);
// Transfer the translation
OutputVectorType translation;
for( unsigned int k = 0; k < NDimensions; k++ )
{
translation[k] = this->m_Parameters[par];
++par;
}
this->SetTranslation(translation);
// Modified is always called since we just have a pointer to the
// parameters and cannot know if the parameters have changed.
this->Modified();
}
template <typename TScalar, unsigned int NDimensions>
void
CenteredAffineTransform<TScalar, NDimensions>
::ComputeJacobianWithRespectToParameters(const InputPointType & p, JacobianType & jacobian) const
{
// The Jacobian of the affine transform is composed of
// subblocks of diagonal matrices, each one of them having
// a constant value in the diagonal.
// The block corresponding to the center parameters is
// composed by ( Identity matrix - Rotation Matrix).
jacobian.SetSize( NDimensions, this->GetNumberOfLocalParameters() );
jacobian.Fill(0.0);
unsigned int blockOffset = 0;
for( unsigned int block = 0; block < SpaceDimension; block++ )
{
for( unsigned int dim = 0; dim < SpaceDimension; dim++ )
{
jacobian(block, blockOffset + dim) = p[dim];
}
blockOffset += SpaceDimension;
}
// Block associated with the center parameters
const MatrixType & matrix = this->GetMatrix();
for( unsigned int k = 0; k < SpaceDimension; k++ )
{
jacobian(k, blockOffset + k) = 1.0;
for( unsigned int dim = 0; dim < SpaceDimension; dim++ )
{
jacobian(k, blockOffset + dim) -= matrix[k][dim];
}
}
blockOffset += SpaceDimension;
// Block associated with the translations
for( unsigned int dim = 0; dim < SpaceDimension; dim++ )
{
jacobian(dim, blockOffset + dim) = 1.0;
}
}
// Get an inverse of this transform
template <typename TScalar, unsigned int NDimensions>
bool
CenteredAffineTransform<TScalar, NDimensions>
::GetInverse(Self *inverse) const
{
return this->Superclass::GetInverse(inverse);
}
// Return an inverse of this transform
template <typename TScalar, unsigned int NDimensions>
typename CenteredAffineTransform<TScalar, NDimensions>::InverseTransformBasePointer
CenteredAffineTransform<TScalar, NDimensions>
::GetInverseTransform() const
{
Pointer inv = New();
return this->GetInverse(inv) ? inv.GetPointer() : NULL;
}
} // namespace
#endif
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