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// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
// vi: set et ts=4 sw=2 sts=2:
#ifndef DUNE_PK1DLOCALFINITEELEMENT_HH
#define DUNE_PK1DLOCALFINITEELEMENT_HH

#include <cstddef>

#include <dune/geometry/type.hh>

#include <dune/localfunctions/common/localfiniteelementtraits.hh>
#include <dune/localfunctions/common/localtoglobaladaptors.hh>
#include "pk1d/pk1dlocalbasis.hh"
#include "pk1d/pk1dlocalcoefficients.hh"
#include "pk1d/pk1dlocalinterpolation.hh"

namespace Dune
{

  /** \todo Please doc me !
   */
  template<class D, class R, unsigned int k>
  class Pk1DLocalFiniteElement
  {
  public:
    /** \todo Please doc me !
     */
    typedef LocalFiniteElementTraits<Pk1DLocalBasis<D,R,k>,
        Pk1DLocalCoefficients<k>,
        Pk1DLocalInterpolation<Pk1DLocalBasis<D,R,k> > > Traits;

    /** \todo Please doc me !
     */
    Pk1DLocalFiniteElement ()
    {
      gt.makeLine();
    }

    /** \todo Please doc me !
     */
    Pk1DLocalFiniteElement (int variant) : coefficients(variant)
    {
      gt.makeLine();
    }

    /** Constructor for two variants with permuted vertices.

        \param vertexmap The permutation of the vertices.
     */
    Pk1DLocalFiniteElement (const unsigned int vertexmap[3]) : coefficients(vertexmap)
    {
      gt.makeLine();
    }

    /** \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;
    }

    Pk1DLocalFiniteElement* clone () const
    {
      return new Pk1DLocalFiniteElement(*this);
    }

  private:
    Pk1DLocalBasis<D,R,k> basis;
    Pk1DLocalCoefficients<k> coefficients;
    Pk1DLocalInterpolation<Pk1DLocalBasis<D,R,k> > interpolation;
    GeometryType gt;
  };

  //! Langrange finite element of arbitrary order on triangles
  /**
   * \tparam Geometry Geometry for the local to global transformation.
   * \tparam RF       Field type of the range.
   * \tparam k        Maximum polynomial order of the base functions.
   *
   * \implements FiniteElementInterface
   */
  template<class Geometry, class RF, std::size_t k>
  class Pk1DFiniteElement {
    typedef typename Geometry::ctype DF;
    typedef Pk1DLocalBasis<DF,RF,k> LocalBasis;
    typedef Pk1DLocalInterpolation<LocalBasis> LocalInterpolation;

  public:
    /**
     * \implements FiniteElementInterface::Traits
     */
    struct Traits {
      typedef ScalarLocalToGlobalBasisAdaptor<LocalBasis, Geometry> Basis;
      typedef LocalToGlobalInterpolationAdaptor<
          LocalInterpolation,
          typename Basis::Traits
          > Interpolation;
      typedef Pk1DLocalCoefficients<k> Coefficients;
    };

  private:
    static const GeometryType gt;
    static const LocalBasis localBasis;
    static const LocalInterpolation localInterpolation;

    typename Traits::Basis basis_;
    typename Traits::Interpolation interpolation_;
    typename Traits::Coefficients coefficients_;

  public:
    //! construct a Pk1DFiniteElement
    /**
     * \param geometry    The geometry object to use for adaption.
     * \param vertexOrder The global ordering of the vertices within the grid,
     *                    used to determine orientation of the edges.  This
     *                    vertexOrder object must support codim=0.
     *
     * \note This class stores the reference to the geometry passed here.  Any
     *       use of this class after this references has become invalid
     *       results in undefined behaviour.  The exception is that the
     *       destructor of this class may still be called.  The information
     *       contained in the vertexOrder object is extracted and the object
     *       is no longer needed after the contructor returns.
     */
    template<class VertexOrder>
    Pk1DFiniteElement(const Geometry &geometry,
                      const VertexOrder& vertexOrder) :
      basis_(localBasis, geometry), interpolation_(localInterpolation),
      coefficients_(vertexOrder.begin(0, 0))
    { }

    const typename Traits::Basis& basis() const { return basis_; }
    const typename Traits::Interpolation& interpolation() const
    { return interpolation_; }
    const typename Traits::Coefficients& coefficients() const
    { return coefficients_; }
    const GeometryType &type() const { return gt; }
  };

  template<class Geometry, class RF, std::size_t k>
  const GeometryType
  Pk1DFiniteElement<Geometry, RF, k>::gt(GeometryType::simplex, 2);

  template<class Geometry, class RF, std::size_t k>
  const typename Pk1DFiniteElement<Geometry, RF, k>::LocalBasis
  Pk1DFiniteElement<Geometry, RF, k>::localBasis = LocalBasis();

  template<class Geometry, class RF, std::size_t k>
  const typename Pk1DFiniteElement<Geometry, RF, k>::LocalInterpolation
  Pk1DFiniteElement<Geometry, RF, k>::localInterpolation =
    LocalInterpolation();

  //! Factory for Pk1DFiniteElement objects
  /**
   * Constructs Pk1DFiniteElement objects given a geometry and a vertex
   * ordering.
   *
   * \tparam Geometry Geometry for the local to global transformation.
   * \tparam RF       Field type of the range.
   * \tparam k        Maximum polynomial order of the base functions.
   *
   * \implements FiniteElementFactoryInterface
   */
  template<class Geometry, class RF, std::size_t k>
  struct Pk1DFiniteElementFactory {
    typedef Pk1DFiniteElement<Geometry, RF, k> FiniteElement;

    //! construct Pk1DFiniteElementFactory
    /**
     * \param geometry    The geometry object to use for adaption.
     * \param vertexOrder The global ordering of the vertices within the grid,
     *                    used to determine orientation of the edges.  This
     *                    vertexOrder object must support codim=0.
     *
     * \note The returned object stores the reference to the geometry passed
     *       here.  Any use of the returned value after this references has
     *       become invalid results in undefined behaviour.  The exception is
     *       that the destructor of this class may still be called.  The
     *       information contained in the vertexOrder object is extracted and
     *       the object is no longer needed after the constructor returns.  No
     *       reference to internal data of the factory is stored.
     */
    template<class VertexOrder>
    const FiniteElement make(const Geometry& geometry,
                             const VertexOrder& vertexOrder)
    { return FiniteElement(geometry, vertexOrder); }
  };
}

#endif