/usr/include/dune/localfunctions/dualmortarbasis/dualp1.hh is in libdune-localfunctions-dev 2.4.1-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// vi: set et ts=4 sw=2 sts=2:
#ifndef DUNE_DUAL_P1LOCALFINITEELEMENT_HH
#define DUNE_DUAL_P1LOCALFINITEELEMENT_HH
#include <dune/geometry/type.hh>
#include <dune/localfunctions/common/localfiniteelementtraits.hh>
#include "dualp1/dualp1localbasis.hh"
#include "dualp1/dualp1localcoefficients.hh"
#include "dualp1/dualp1localinterpolation.hh"
namespace Dune
{
/**
* \brief The local dual p1 finite element on simplices
*
* Note that if the dual functions are chosen to be dual on the faces,
* the integrated product of a Lagrange \f$\lambda_p\f$ and dual
* function \f$\theta_q\f$ over faces not containing \f$q\f$ does in
* general not vanish.
*
* \ingroup DualMortar
*
* \tparam D Domain data type
* \tparam R Range data type
* \tparam dim Dimension of the simplex
* \tparam faceDual If set, the basis functions are bi-orthogonal only on faces containing the corresponding vertex.
*/
template<class D, class R, int dim, bool faceDual=false>
class DualP1LocalFiniteElement
{
public:
/** \todo Please doc me !
*/
typedef LocalFiniteElementTraits<DualP1LocalBasis<D,R,dim,faceDual>,DualP1LocalCoefficients<dim>,
DualP1LocalInterpolation<dim,DualP1LocalBasis<D,R,dim,faceDual> > > Traits;
/** \todo Please doc me !
*/
DualP1LocalFiniteElement ()
{
gt.makeSimplex(dim);
}
/** \todo Please doc me !
*/
const typename Traits::LocalBasisType& localBasis () const
{
return basis;
}
/** \todo Please doc me !
*/
const typename Traits::LocalCoefficientsType& localCoefficients () const
{
return coefficients;
}
/** \todo Please doc me !
*/
const typename Traits::LocalInterpolationType& localInterpolation () const
{
return interpolation;
}
/** \brief Number of shape functions in this finite element */
unsigned int size () const
{
return basis.size();
}
/** \todo Please doc me !
*/
GeometryType type () const
{
return gt;
}
DualP1LocalFiniteElement* clone () const
{
return new DualP1LocalFiniteElement(*this);
}
private:
DualP1LocalBasis<D,R,dim,faceDual> basis;
DualP1LocalCoefficients<dim> coefficients;
DualP1LocalInterpolation<dim,DualP1LocalBasis<D,R,dim,faceDual> > interpolation;
GeometryType gt;
};
}
#endif
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