DUNE PDELab (2.7)

// -*- tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
// vi: set et ts=4 sw=2 sts=2:
#ifndef DUNE_GEOGRID_COORDFUNCTION_HH
#define DUNE_GEOGRID_COORDFUNCTION_HH
 
#include <cassert>
 
#include <dune/common/fvector.hh>
#include <dune/common/std/type_traits.hh>
 
namespace Dune
{
 
  // Internal Forward Declarations
  // -----------------------------
 
  template< class ct, unsigned int dimD, unsigned int dimR, class Impl >
  class AnalyticalCoordFunction;
 
  template< class ct, unsigned int dimR, class Impl >
  class DiscreteCoordFunction;
 
 
 
  // AnalyticalCoordFunctionInterface
  // --------------------------------
 
  template< class ct, unsigned int dimD, unsigned int dimR, class Impl >
  class AnalyticalCoordFunctionInterface
  {
    typedef AnalyticalCoordFunctionInterface< ct, dimD, dimR, Impl > This;
 
    friend class AnalyticalCoordFunction< ct, dimD, dimR, Impl >;
 
  public:
    typedef This Interface;
    typedef Impl Implementation;
 
    typedef ct ctype;
 
    static const unsigned int dimDomain = dimD;
    static const unsigned int dimRange = dimR;
 
    typedef FieldVector< ctype, dimDomain > DomainVector;
    typedef FieldVector< ctype, dimRange > RangeVector;
 
  private:
    AnalyticalCoordFunctionInterface () = default;
    AnalyticalCoordFunctionInterface ( const This & ) = default;
    AnalyticalCoordFunctionInterface ( This && ) = default;
    ~AnalyticalCoordFunctionInterface () = default;
    This &operator= ( const This & ) = default;
    This &operator= ( This && ) = default;
 
    // helper for picking the correct version of evaluate further down
    template<typename F, typename DV>
    using has_operator_parentheses = decltype(std::declval<F>()(std::declval<DV>()));
 
  public:
 
#ifdef DOXYGEN
 
    void evaluate ( const DomainVector &x, RangeVector &y ) const;
 
#else
 
    template<typename DV>
    std::enable_if_t<
      Std::is_detected<has_operator_parentheses,Impl,DV>::value
      >
    evaluate ( const DV &x, RangeVector &y ) const
    {
      y = asImp()(x);
    }
 
    template<typename DV>
    std::enable_if_t<
      not Std::is_detected<has_operator_parentheses,Impl,DV>::value
      >
    evaluate ( const DV &x, RangeVector &y ) const
    {
      assert(
        static_cast<void(This::*)(const DomainVector&, RangeVector&) const>(&This::evaluate) !=
        static_cast<void(Impl::*)(const DomainVector&, RangeVector&) const>(&Impl::evaluate) &&
        "You need to implement either operator() or evaluate() in your coordinate function!");
      asImp().evaluate( x, y );
    }
 
#endif // DOXYGEN
 
  protected:
 
    const Implementation &asImp () const
    {
      return static_cast< const Implementation & >( *this );
    }
 
    Implementation &asImp ()
    {
      return static_cast< Implementation & >( *this );
    }
  };
 
 
 
  // AnalyticalCoordFunction
  // -----------------------
  template< class ct, unsigned int dimD, unsigned int dimR, class Impl >
  class AnalyticalCoordFunction
    : public AnalyticalCoordFunctionInterface< ct, dimD, dimR, Impl >
  {
    typedef AnalyticalCoordFunction< ct, dimD, dimR, Impl > This;
    typedef AnalyticalCoordFunctionInterface< ct, dimD, dimR, Impl > Base;
 
  public:
    typedef typename Base :: DomainVector DomainVector;
    typedef typename Base :: RangeVector RangeVector;
 
  protected:
    AnalyticalCoordFunction () = default;
    AnalyticalCoordFunction ( const This & ) = default;
    AnalyticalCoordFunction ( This && ) = default;
    ~AnalyticalCoordFunction () = default;
    This &operator= ( const This & ) = default;
    This &operator= ( This && ) = default;
 
  private:
 
  };
 
 
 
  // DiscreteCoordFunctionInterface
  // ------------------------------
 
  template< class ct, unsigned int dimR, class Impl >
  class DiscreteCoordFunctionInterface
  {
    typedef DiscreteCoordFunctionInterface< ct, dimR, Impl > This;
 
    friend class DiscreteCoordFunction< ct, dimR, Impl >;
 
  public:
    typedef This Interface;
    typedef Impl Implementation;
 
    typedef ct ctype;
 
    static const unsigned int dimRange = dimR;
 
    typedef FieldVector< ctype, dimRange > RangeVector;
 
  private:
    DiscreteCoordFunctionInterface () = default;
    DiscreteCoordFunctionInterface ( const This & ) = default;
    DiscreteCoordFunctionInterface ( This && ) = default;
    ~DiscreteCoordFunctionInterface () = default;
    This &operator= ( const This & ) = default;
    This &operator= ( This && ) = default;
 
  public:
    template< class HostEntity >
    void evaluate ( const HostEntity &hostEntity, unsigned int corner,
                    RangeVector &y ) const
    {
      asImp().evaluate( hostEntity, corner, y );
    }
 
    void adapt ()
    {
      asImp().adapt();
    }
 
  protected:
    const Implementation &asImp () const
    {
      return static_cast< const Implementation & >( *this );
    }
 
    Implementation &asImp ()
    {
      return static_cast< Implementation & >( *this );
    }
  };
 
 
 
  // DiscreteCoordFunction
  // ---------------------
  //
  template< class ct, unsigned int dimR, class Impl >
  class DiscreteCoordFunction
    : public DiscreteCoordFunctionInterface< ct, dimR, Impl >
  {
    typedef DiscreteCoordFunction< ct, dimR, Impl > This;
    typedef DiscreteCoordFunctionInterface< ct, dimR, Impl > Base;
 
  public:
    typedef typename Base :: RangeVector RangeVector;
 
  protected:
    DiscreteCoordFunction () = default;
    DiscreteCoordFunction ( const This & ) = default;
    DiscreteCoordFunction ( This && ) = default;
    ~DiscreteCoordFunction () = default;
    This &operator= ( const This & ) = default;
    This &operator= ( This && ) = default;
 
    void adapt ()
    {}
 
  private:
    template< class HostEntity >
    void evaluate ( const HostEntity &hostEntity, unsigned int corner,
                    RangeVector &y ) const;
  };
 
 
 
  namespace GeoGrid
  {
 
    // isCoordFunctionInterface
    // ------------------------
 
    template< class CoordFunctionInterface >
    struct isCoordFunctionInterface
    {
      static const bool value = false;
    };
 
    template< class ct, unsigned int dimD, unsigned int dimR, class Impl >
    struct isCoordFunctionInterface
    < AnalyticalCoordFunctionInterface< ct, dimD, dimR, Impl > >
    {
      static const bool value = true;
    };
 
    template< class ct, unsigned int dimR, class Impl >
    struct isCoordFunctionInterface
    < DiscreteCoordFunctionInterface< ct, dimR, Impl > >
    {
      static const bool value = true;
    };
 
 
 
    // isDiscreteCoordFunctionInterface
    // --------------------------------
 
    template< class CoordFunctionInterface >
    struct isDiscreteCoordFunctionInterface
    {
      static const bool value = false;
    };
 
    template< class ct, unsigned int dimR, class Impl >
    struct isDiscreteCoordFunctionInterface
    < DiscreteCoordFunctionInterface< ct, dimR, Impl > >
    {
      static const bool value = true;
    };
 
 
 
    // AdaptCoordFunction
    // ------------------
 
    template< class CoordFunctionInterface >
    struct AdaptCoordFunction
    {
      static void adapt ( CoordFunctionInterface &coordFunction )
      {}
    };
 
    template< class ct, unsigned int dimR, class Impl >
    struct AdaptCoordFunction< DiscreteCoordFunctionInterface< ct, dimR, Impl > >
    {
      typedef DiscreteCoordFunctionInterface< ct, dimR, Impl > CoordFunctionInterface;
 
      static void adapt ( CoordFunctionInterface &coordFunction )
      {
        coordFunction.adapt();
      }
    };
 
  } // namespace GeoGrid
 
} // namespace Dune
 
#endif // #ifndef DUNE_GEOGRID_COORDFUNCTION_HH
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