/usr/include/ITK-4.5/itkQuadraticEdgeCell.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 __itkQuadraticEdgeCell_hxx
#define __itkQuadraticEdgeCell_hxx
#include "itkQuadraticEdgeCell.h"
namespace itk
{
/**
* Standard CellInterface:
*/
template< typename TCellInterface >
void
QuadraticEdgeCell< TCellInterface >
::MakeCopy(CellAutoPointer & cellPointer) const
{
cellPointer.TakeOwnership(new Self);
cellPointer->SetPointIds( this->GetPointIds() );
}
/**
* Standard CellInterface:
* Get the topological dimension of this cell.
*/
template< typename TCellInterface >
unsigned int
QuadraticEdgeCell< TCellInterface >
::GetDimension(void) const
{
return Self::CellDimension;
}
/**
* Standard CellInterface:
* Get the number of points required to define the cell.
*/
template< typename TCellInterface >
unsigned int
QuadraticEdgeCell< TCellInterface >
::GetNumberOfPoints(void) const
{
return Self::NumberOfPoints;
}
/**
* Standard CellInterface:
* Get the number of boundary entities of the given dimension.
*/
template< typename TCellInterface >
typename QuadraticEdgeCell< TCellInterface >::CellFeatureCount
QuadraticEdgeCell< TCellInterface >
::GetNumberOfBoundaryFeatures(int dimension) const
{
switch ( dimension )
{
case 0:
return GetNumberOfVertices();
default:
return 0;
}
}
/**
* Standard CellInterface:
* Get the boundary feature of the given dimension specified by the given
* cell feature Id.
* The Id can range from 0 to GetNumberOfBoundaryFeatures(dimension)-1.
*/
template< typename TCellInterface >
bool
QuadraticEdgeCell< TCellInterface >
::GetBoundaryFeature(int dimension, CellFeatureIdentifier featureId,
CellAutoPointer & cellPointer)
{
switch ( dimension )
{
case 0:
{
VertexAutoPointer vertexPointer;
if ( this->GetVertex(featureId, vertexPointer) )
{
TransferAutoPointer(cellPointer, vertexPointer);
return true;
}
break;
}
default:
break; //just fall through
}
cellPointer.Reset();
return false;
}
/**
* Standard CellInterface:
* Set the point id list used by the cell. It is assumed that the given
* iterator can be incremented and safely de-referenced enough times to
* get all the point ids needed by the cell.
*/
template< typename TCellInterface >
void
QuadraticEdgeCell< TCellInterface >
::SetPointIds(PointIdConstIterator first)
{
PointIdConstIterator ii(first);
for ( unsigned int i = 0; i < Self::NumberOfPoints; ++i )
{
m_PointIds[i] = *ii++;
}
}
/**
* Standard CellInterface:
* Set the point id list used by the cell. It is assumed that the range
* of iterators [first, last) contains the correct number of points needed to
* define the cell. The position *last is NOT referenced, so it can safely
* be one beyond the end of an array or other container.
*/
template< typename TCellInterface >
void
QuadraticEdgeCell< TCellInterface >
::SetPointIds(PointIdConstIterator first, PointIdConstIterator last)
{
int localId = 0;
PointIdConstIterator ii(first);
while ( ii != last )
{
m_PointIds[localId++] = *ii++;
}
}
/**
* Standard CellInterface:
* Set an individual point identifier in the cell.
*/
template< typename TCellInterface >
void
QuadraticEdgeCell< TCellInterface >
::SetPointId(int localId, PointIdentifier ptId)
{
m_PointIds[localId] = ptId;
}
/**
* Standard CellInterface:
* Get a begin iterator to the list of point identifiers used by the cell.
*/
template< typename TCellInterface >
typename QuadraticEdgeCell< TCellInterface >::PointIdIterator
QuadraticEdgeCell< TCellInterface >
::PointIdsBegin(void)
{
return &m_PointIds[0];
}
/**
* Standard CellInterface:
* Get a const begin iterator to the list of point identifiers used
* by the cell.
*/
template< typename TCellInterface >
typename QuadraticEdgeCell< TCellInterface >::PointIdConstIterator
QuadraticEdgeCell< TCellInterface >
::PointIdsBegin(void) const
{
return &m_PointIds[0];
}
/**
* Standard CellInterface:
* Get an end iterator to the list of point identifiers used by the cell.
*/
template< typename TCellInterface >
typename QuadraticEdgeCell< TCellInterface >::PointIdIterator
QuadraticEdgeCell< TCellInterface >
::PointIdsEnd(void)
{
return &m_PointIds[Self::NumberOfPoints - 1] + 1;
}
/**
* Standard CellInterface:
* Get a const end iterator to the list of point identifiers used
* by the cell.
*/
template< typename TCellInterface >
typename QuadraticEdgeCell< TCellInterface >::PointIdConstIterator
QuadraticEdgeCell< TCellInterface >
::PointIdsEnd(void) const
{
return &m_PointIds[Self::NumberOfPoints - 1] + 1;
}
/**
* QuadraticEdge-specific:
* Get the number of vertices for this line.
*/
template< typename TCellInterface >
typename QuadraticEdgeCell< TCellInterface >::CellFeatureCount
QuadraticEdgeCell< TCellInterface >
::GetNumberOfVertices(void) const
{
return Self::NumberOfVertices;
}
/**
* QuadraticEdge-specific:
* Get the vertex specified by the given cell feature Id.
* The Id can range from 0 to GetNumberOfVertices()-1.
*/
template< typename TCellInterface >
bool
QuadraticEdgeCell< TCellInterface >
::GetVertex(CellFeatureIdentifier vertexId, VertexAutoPointer & vertexPointer)
{
VertexType *vert = new VertexType;
vert->SetPointId(0, m_PointIds[vertexId]);
vertexPointer.TakeOwnership(vert);
return true;
}
template< typename TCellInterface >
void
QuadraticEdgeCell< TCellInterface >
::EvaluateShapeFunctions(
const ParametricCoordArrayType & parametricCoordinates,
ShapeFunctionsArrayType & weights) const
{
CoordRepType x = parametricCoordinates[0]; // one-dimensional cell
if ( weights.Size() != this->GetNumberOfPoints() )
{
weights = ShapeFunctionsArrayType( this->GetNumberOfPoints() );
}
weights[0] = ( 2 * x - 1.0 ) * ( x - 1.0 );
weights[1] = ( 2 * x - 1.0 ) * ( x );
weights[2] = 4 * ( 1.0 - x ) * ( x );
}
} // end namespace itk
#endif
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