/usr/include/ITK-4.5/itkCenteredEuler3DTransform.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 __itkCenteredEuler3DTransform_hxx
#define __itkCenteredEuler3DTransform_hxx
#include "itkCenteredEuler3DTransform.h"
namespace itk
{
// Constructor with default arguments
template <typename TScalar>
CenteredEuler3DTransform<TScalar>::CenteredEuler3DTransform() :
Superclass(ParametersDimension)
{
}
// Constructor with default arguments
template <typename TScalar>
CenteredEuler3DTransform<TScalar>::CenteredEuler3DTransform(unsigned int parametersDimension) :
Superclass(parametersDimension)
{
}
// Constructor with default arguments
template <typename TScalar>
CenteredEuler3DTransform<TScalar>::CenteredEuler3DTransform(const MatrixType & matrix,
const OutputPointType & offset) :
Superclass(matrix, offset)
{
}
// Destructor
template <typename TScalar>
CenteredEuler3DTransform<TScalar>::
~CenteredEuler3DTransform()
{
}
//
// Set Parameters
//
// Parameters are ordered as:
//
// p[0:2] = rotations about x, y and z axes
// p[3:5} = center of rotation
// p[6:8] = translation
//
//
template <typename TScalar>
void
CenteredEuler3DTransform<TScalar>
::SetParameters(const ParametersType & parameters)
{
itkDebugMacro(<< "Setting parameters " << parameters);
// Save parameters
if( ¶meters != &(this->m_Parameters) )
{
this->m_Parameters = parameters;
}
const ScalarType angleX = parameters[0];
const ScalarType angleY = parameters[1];
const ScalarType angleZ = parameters[2];
this->SetVarRotation(angleX, angleY, angleZ);
CenterType newCenter;
typedef typename CenterType::ValueType CenterValueType;
newCenter[0] = parameters[3];
newCenter[1] = parameters[4];
newCenter[2] = parameters[5];
this->SetVarCenter(newCenter);
this->ComputeMatrix();
TranslationType newTranslation;
newTranslation[0] = parameters[6];
newTranslation[1] = parameters[7];
newTranslation[2] = parameters[8];
this->SetVarTranslation(newTranslation);
this->ComputeOffset();
// Modified is always called since we just have a pointer to the
// parameters and cannot know if the parameters have changed.
this->Modified();
itkDebugMacro(<< "After setting parameters ");
}
//
// Get Parameters
//
// Parameters are ordered as:
//
// p[0:2] = rotations about x, y and z axes
// p[3:5} = center of rotation
// p[6:8] = translation
//
template <typename TScalar>
const typename CenteredEuler3DTransform<TScalar>::ParametersType
& CenteredEuler3DTransform<TScalar>
::GetParameters(void) const
{
ParametersType parameters;
this->m_Parameters[0] = this->GetAngleX();
this->m_Parameters[1] = this->GetAngleY();
this->m_Parameters[2] = this->GetAngleZ();
this->m_Parameters[3] = this->GetCenter()[0];
this->m_Parameters[4] = this->GetCenter()[1];
this->m_Parameters[5] = this->GetCenter()[2];
this->m_Parameters[6] = this->GetTranslation()[0];
this->m_Parameters[7] = this->GetTranslation()[1];
this->m_Parameters[8] = this->GetTranslation()[2];
return this->m_Parameters;
}
template <typename TScalar>
void
CenteredEuler3DTransform<TScalar>
::ComputeJacobianWithRespectToParameters(const InputPointType & p, JacobianType & jacobian) const
{
// need to check if angles are in the right order
const double cx = vcl_cos( this->GetAngleX() );
const double sx = vcl_sin( this->GetAngleX() );
const double cy = vcl_cos( this->GetAngleY() );
const double sy = vcl_sin( this->GetAngleY() );
const double cz = vcl_cos( this->GetAngleZ() );
const double sz = vcl_sin( this->GetAngleZ() );
jacobian.SetSize( 3, this->GetNumberOfLocalParameters() );
jacobian.Fill(0.0);
const double px = p[0] - this->GetCenter()[0];
const double py = p[1] - this->GetCenter()[1];
const double pz = p[2] - this->GetCenter()[2];
if( this->GetComputeZYX() )
{
jacobian[0][0] = ( cz * sy * cx + sz * sx ) * py + ( -cz * sy * sx + sz * cx ) * pz;
jacobian[1][0] = ( sz * sy * cx - cz * sx ) * py + ( -sz * sy * sx - cz * cx ) * pz;
jacobian[2][0] = ( cy * cx ) * py + ( -cy * sx ) * pz;
jacobian[0][1] = ( -cz * sy ) * px + ( cz * cy * sx ) * py + ( cz * cy * cx ) * pz;
jacobian[1][1] = ( -sz * sy ) * px + ( sz * cy * sx ) * py + ( sz * cy * cx ) * pz;
jacobian[2][1] = ( -cy ) * px + ( -sy * sx ) * py + ( -sy * cx ) * pz;
jacobian[0][2] = ( -sz * cy ) * px + ( -sz * sy * sx - cz * cx ) * py
+ ( -sz * sy * cx + cz * sx ) * pz;
jacobian[1][2] = ( cz * cy ) * px + ( cz * sy * sx - sz * cx ) * py
+ ( cz * sy * cx + sz * sx ) * pz;
jacobian[2][2] = 0;
}
else
{
jacobian[0][0] = ( -sz * cx * sy ) * px + ( sz * sx ) * py + ( sz * cx * cy ) * pz;
jacobian[1][0] = ( cz * cx * sy ) * px + ( -cz * sx ) * py + ( -cz * cx * cy ) * pz;
jacobian[2][0] = ( sx * sy ) * px + ( cx ) * py + ( -sx * cy ) * pz;
jacobian[0][1] = ( -cz * sy - sz * sx * cy ) * px + ( cz * cy - sz * sx * sy ) * pz;
jacobian[1][1] = ( -sz * sy + cz * sx * cy ) * px + ( sz * cy + cz * sx * sy ) * pz;
jacobian[2][1] = ( -cx * cy ) * px + ( -cx * sy ) * pz;
jacobian[0][2] = ( -sz * cy - cz * sx * sy ) * px + ( -cz * cx ) * py
+ ( -sz * sy + cz * sx * cy ) * pz;
jacobian[1][2] = ( cz * cy - sz * sx * sy ) * px + ( -sz * cx ) * py
+ ( cz * sy + sz * sx * cy ) * pz;
jacobian[2][2] = 0;
}
// compute derivatives for the center of rotation part
unsigned int blockOffset = 3;
for( unsigned int dim = 0; dim < SpaceDimension; dim++ )
{
jacobian[dim][blockOffset + dim] = 1.0;
}
blockOffset += SpaceDimension;
// compute derivatives for the translation part
for( unsigned int dim = 0; dim < SpaceDimension; dim++ )
{
jacobian[dim][blockOffset + dim] = 1.0;
}
}
// Get an inverse of this transform
template <typename TScalar>
bool
CenteredEuler3DTransform<TScalar>
::GetInverse(Self *inverse) const
{
return this->Superclass::GetInverse(inverse);
}
// Return an inverse of this transform
template <typename TScalar>
typename CenteredEuler3DTransform<TScalar>::InverseTransformBasePointer
CenteredEuler3DTransform<TScalar>
::GetInverseTransform() const
{
Pointer inv = New();
return this->GetInverse(inv) ? inv.GetPointer() : NULL;
}
// Print self
template <typename TScalar>
void
CenteredEuler3DTransform<TScalar>::PrintSelf(std::ostream & os, Indent indent) const
{
Superclass::PrintSelf(os, indent);
}
} // namespace
#endif
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