/usr/include/ITK-4.5/itkMetaDTITubeConverter.hxx is in libinsighttoolkit4-dev 4.5.0-3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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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 __itkMetaDTITubeConverter_hxx
#define __itkMetaDTITubeConverter_hxx
#include "itkMetaDTITubeConverter.h"
namespace itk
{
/** Constructor */
template< unsigned int NDimensions >
MetaDTITubeConverter< NDimensions >
::MetaDTITubeConverter()
{}
template< unsigned int NDimensions >
typename MetaDTITubeConverter< NDimensions >::MetaObjectType *
MetaDTITubeConverter< NDimensions>
::CreateMetaObject()
{
return dynamic_cast<MetaObjectType *>(new DTITubeMetaObjectType);
}
/** Convert a MetaDTITube into an Tube SpatialObject */
template< unsigned int NDimensions >
typename MetaDTITubeConverter< NDimensions >::SpatialObjectPointer
MetaDTITubeConverter< NDimensions >
::MetaObjectToSpatialObject(const MetaObjectType *mo)
{
const MetaDTITube *tube = dynamic_cast<const MetaDTITube *>(mo);
if(tube == 0)
{
itkExceptionMacro(<< "Can't downcast MetaObject to MetaDTITube");
}
DTITubeSpatialObjectPointer tubeSO =
DTITubeSpatialObjectType::New();
double spacing[NDimensions];
unsigned int ndims = tube->NDims();
for ( unsigned int ii = 0; ii < ndims; ii++ )
{
spacing[ii] = tube->ElementSpacing()[ii];
}
tubeSO->GetIndexToObjectTransform()->SetScaleComponent(spacing);
tubeSO->GetProperty()->SetName( tube->Name() );
tubeSO->SetParentPoint( tube->ParentPoint() );
tubeSO->SetId( tube->ID() );
tubeSO->SetParentId( tube->ParentID() );
tubeSO->GetProperty()->SetRed(tube->Color()[0]);
tubeSO->GetProperty()->SetGreen(tube->Color()[1]);
tubeSO->GetProperty()->SetBlue(tube->Color()[2]);
tubeSO->GetProperty()->SetAlpha(tube->Color()[3]);
typedef itk::DTITubeSpatialObjectPoint< NDimensions > TubePointType;
typedef TubePointType * TubePointPointer;
MetaDTITube::PointListType::const_iterator it2 = tube->GetPoints().begin();
itk::CovariantVector< double, NDimensions > v;
v.Fill(0.0);
itk::Vector< double, NDimensions > t;
t.Fill(0.0);
for ( unsigned int identifier = 0; identifier < tube->GetPoints().size(); identifier++ )
{
TubePointType pnt;
typedef typename DTITubeSpatialObjectType::PointType PointType;
PointType point;
for ( unsigned int ii = 0; ii < ndims; ii++ )
{
point[ii] = ( *it2 )->m_X[ii];
}
// Get the fields from the metaIO
const DTITubePnt::FieldListType & metaFields = ( *it2 )->GetExtraFields();
DTITubePnt::FieldListType::const_iterator extraIt = metaFields.begin();
while ( extraIt != metaFields.end() )
{
// Do not add the optional fields
if ( ( ( *extraIt ).first != "r" )
&& ( ( *extraIt ).first != "v1x" )
&& ( ( *extraIt ).first != "v1y" )
&& ( ( *extraIt ).first != "v1z" )
&& ( ( *extraIt ).first != "v2x" )
&& ( ( *extraIt ).first != "v2y" )
&& ( ( *extraIt ).first != "v2z" )
&& ( ( *extraIt ).first != "tx" )
&& ( ( *extraIt ).first != "ty" )
&& ( ( *extraIt ).first != "tz" )
&& ( ( *extraIt ).first != "red" )
&& ( ( *extraIt ).first != "green" )
&& ( ( *extraIt ).first != "blue" )
&& ( ( *extraIt ).first != "alpha" )
&& ( ( *extraIt ).first != "id" )
)
{
pnt.AddField( ( *extraIt ).first.c_str(), ( *extraIt ).second );
}
extraIt++;
}
pnt.SetPosition(point);
float *tensor = new float[6];
for ( unsigned int ii = 0; ii < 6; ii++ )
{
tensor[ii] = ( *it2 )->m_TensorMatrix[ii];
}
pnt.SetTensorMatrix(tensor);
delete[] tensor;
// This attribute is optional
if ( ( *it2 )->GetField("r") != -1 )
{
pnt.SetRadius( ( *it2 )->GetField("r") );
}
char vnd[] = "v1x";
if ( ( *it2 )->GetField( vnd ) != -1 )
{
v[0] = ( *it2 )->GetField( vnd );
for( unsigned int ii = 1; ii < ndims; ++ii )
{
++(vnd[2]); // x -> y -> z
v[ii] = ( *it2 )->GetField( vnd );
}
pnt.SetNormal1(v);
}
vnd[1] = '2';
vnd[2] = 'x';
if ( ( *it2 )->GetField( vnd ) != -1 )
{
v[0] = ( *it2 )->GetField( vnd );
for( unsigned int ii = 1; ii < ndims; ++ii )
{
++(vnd[2]); // x -> y -> z
v[ii] = ( *it2 )->GetField( vnd );
}
pnt.SetNormal1(v);
}
char td[] = "tx";
if ( ( *it2 )->GetField( td ) != -1 )
{
t[0] = ( *it2 )->GetField( td );
for( unsigned int ii = 1; ii < ndims; ++ii )
{
++(td[1]); // x -> y -> z
t[ii] = ( *it2 )->GetField( td );
}
pnt.SetTangent(t);
}
if ( ( *it2 )->GetField("red") != -1 )
{
pnt.SetRed( ( *it2 )->GetField("red") );
}
if ( ( *it2 )->GetField("green") != -1 )
{
pnt.SetGreen( ( *it2 )->GetField("green") );
}
if ( ( *it2 )->GetField("blue") != -1 )
{
pnt.SetBlue( ( *it2 )->GetField("blue") );
}
if ( ( *it2 )->GetField("alpha") != -1 )
{
pnt.SetAlpha( ( *it2 )->GetField("alpha") );
}
if ( ( *it2 )->GetField("id") != -1 )
{
pnt.SetID( (int)( ( *it2 )->GetField("id") ) );
}
tubeSO->GetPoints().push_back(pnt);
it2++;
}
return tubeSO.GetPointer();
}
/** Convert a Tube SpatialObject into a MetaDTITube */
template< unsigned int NDimensions >
typename MetaDTITubeConverter<NDimensions>::MetaObjectType *
MetaDTITubeConverter< NDimensions >
::SpatialObjectToMetaObject(const SpatialObjectType *spatialObject)
{
DTITubeSpatialObjectConstPointer DTITubeSO =
dynamic_cast<const DTITubeSpatialObjectType *>(spatialObject);
if(DTITubeSO.IsNull())
{
itkExceptionMacro(<< "Can't downcast SpatialObject to DTITubeSpatialObject");
}
DTITubeMetaObjectType *tube = new MetaDTITube(NDimensions);
// Check what are the fields to be written
bool writeNormal1 = false;
bool writeNormal2 = false;
bool writeTangent = false;
bool writeRadius = false;
bool writeColor = false;
bool writeAlpha = false;
bool writeID = false;
typename DTITubeSpatialObjectType::PointListType::const_iterator it;
for ( it = DTITubeSO->GetPoints().begin(); it != DTITubeSO->GetPoints().end(); ++it )
{
// Optional fields (written only if not default values)
if ( ( *it ).GetID() != -1 )
{
writeID = true;
}
if ( ( *it ).GetRadius() != 0 )
{
writeRadius = true;
}
unsigned int d;
for ( d = 0; d < NDimensions; d++ )
{
if ( ( *it ).GetNormal1()[d] != 0 )
{
writeNormal1 = true;
}
if ( ( *it ).GetNormal2()[d] != 0 )
{
writeNormal2 = true;
}
if ( ( *it ).GetTangent()[d] != 0 )
{
writeTangent = true;
}
}
// write the color if changed
if ( ( ( *it ).GetRed() != 1.0 )
|| ( ( *it ).GetGreen() != 0.0 )
|| ( ( *it ).GetBlue() != 0.0 )
)
{
writeColor = true;
}
if ( ( *it ).GetAlpha() != 1.0 )
{
writeAlpha = true;
}
}
// fill in the tube information
for ( it = DTITubeSO->GetPoints().begin(); it != DTITubeSO->GetPoints().end(); ++it )
{
DTITubePnt *pnt = new DTITubePnt(NDimensions);
for ( unsigned int d = 0; d < NDimensions; d++ )
{
pnt->m_X[d] = ( *it ).GetPosition()[d];
}
const DTITubePnt::FieldListType & metaFields = ( *it ).GetFields();
DTITubePnt::FieldListType::const_iterator extraIt = metaFields.begin();
while ( extraIt != metaFields.end() )
{
pnt->AddField( ( *extraIt ).first.c_str(), ( *extraIt ).second );
extraIt++;
}
for ( unsigned int d = 0; d < 6; d++ )
{
pnt->m_TensorMatrix[d] = ( *it ).GetTensorMatrix()[d];
}
// Optional fields (written only if not default values)
if ( writeID )
{
pnt->AddField( "id", ( *it ).GetID() );
}
if ( writeRadius )
{
pnt->AddField( "r", ( *it ).GetRadius() );
}
if ( writeNormal1 )
{
pnt->AddField("v1x", ( *it ).GetNormal1()[0]);
pnt->AddField("v1y", ( *it ).GetNormal1()[1]);
if ( NDimensions == 3 )
{
pnt->AddField("v1z", ( *it ).GetNormal1()[2]);
}
}
if ( writeNormal2 )
{
pnt->AddField("v2x", ( *it ).GetNormal2()[0]);
pnt->AddField("v2y", ( *it ).GetNormal2()[1]);
if ( NDimensions == 3 )
{
pnt->AddField("v2z", ( *it ).GetNormal2()[2]);
}
}
if ( writeTangent )
{
pnt->AddField("tx", ( *it ).GetTangent()[0]);
pnt->AddField("ty", ( *it ).GetTangent()[1]);
if ( NDimensions == 3 )
{
pnt->AddField("tz", ( *it ).GetTangent()[2]);
}
}
// write the color if changed
if ( writeColor )
{
pnt->AddField( "red", ( *it ).GetRed() );
pnt->AddField( "green", ( *it ).GetGreen() );
pnt->AddField( "blue", ( *it ).GetBlue() );
}
if ( writeAlpha )
{
pnt->AddField( "alpha", ( *it ).GetAlpha() );
}
tube->GetPoints().push_back(pnt);
}
tube->PointDim("x y z tensor1 tensor2 tensor3 tensor4 tensor5 tensor6");
float color[4];
for ( unsigned int ii = 0; ii < 4; ii++ )
{
color[ii] = DTITubeSO->GetProperty()->GetColor()[ii];
}
tube->Color(color);
tube->ID( DTITubeSO->GetId() );
if ( DTITubeSO->GetParent() )
{
tube->ParentID( DTITubeSO->GetParent()->GetId() );
}
tube->ParentPoint( DTITubeSO->GetParentPoint() );
tube->NPoints( tube->GetPoints().size() );
for ( unsigned int ii = 0; ii < NDimensions; ii++ )
{
tube->ElementSpacing(ii, DTITubeSO->GetIndexToObjectTransform()
->GetScaleComponent()[ii]);
}
return tube;
}
} // end namespace itk
#endif
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