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_PDELAB_ORDERING_DECORATOR_HH
#define DUNE_PDELAB_ORDERING_DECORATOR_HH
 
#include <array>
 
#include <dune/typetree/typetree.hh>
 
#include <dune/pdelab/common/typetraits.hh>
#include <dune/pdelab/ordering/utility.hh>
#include <dune/pdelab/ordering/orderingbase.hh>
 
namespace Dune {
  namespace PDELab {
 
 
    namespace ordering {
 
#ifndef DOXYGEN
 
      // Forward declaration for is_decorated specialization
      template<typename D, typename U>
      struct decorated_ordering_tag;
 
      namespace impl {
 
        struct is_decorated
        {};
 
        template<typename DecoratedOrderingTag, std::size_t level>
        struct basetag_access_provider
        {};
 
        // provide access to the base tag for disambiguation of member
        // accesses in case those are overloaded by a decorator.
        template<typename D, typename U>
        struct basetag_access_provider<decorated_ordering_tag<D,U>,0>
          : public is_decorated
        {
          typedef U BaseTag;
 
          const BaseTag& baseTag() const
          {
            return static_cast<decorated_ordering_tag<D,U>& >(*this);
          }
 
          BaseTag& baseTag()
          {
            return static_cast<decorated_ordering_tag<D,U>& >(*this);
          }
 
        };
 
        template<typename T, T v>
        struct lazy_constant
        {
          typedef std::integral_constant<T,v> type;
        };
 
        template<typename D>
        struct lazy_level
        {
          typedef std::integral_constant<std::size_t,D::level> type;
        };
 
        template<typename D>
        struct decoration_level
          : public std::conditional<
                     std::is_base_of<is_decorated, D>::value,
                     lazy_level<D>,
                     lazy_constant<std::size_t,0>
                   >::type::type
        {};
 
      } // namespace impl
 
#endif // DOXYGEN
 
      template<typename D, typename U>
      struct decorated_ordering_tag
        : U
        , impl::basetag_access_provider<decorated_ordering_tag<D,U>,impl::decoration_level<U>::value>
      {
 
        typedef D Decorator;
        typedef U Undecorated;
 
        static const std::size_t level = impl::decoration_level<U>::value + 1;
 
        decorated_ordering_tag()
        {}
 
        decorated_ordering_tag(const Undecorated& u)
          : Undecorated(u)
        {}
 
        decorated_ordering_tag(Undecorated&& u)
          : Undecorated(std::move(u))
        {}
 
      };
 
 
      namespace {
 
        // recursive helper for undecorated_ordering that traverses down the Ordering tree level times
 
        // end of recursion
        template<typename Ordering>
        const Ordering& _unwind_decorators(const Ordering& ordering, std::integral_constant<std::size_t,0>)
        {
          return ordering;
        }
 
        // recursive implementation - this uses decltype to avoid implementing a separate meta function
        // for calculating the return type
        template<typename Ordering, std::size_t level>
        auto _unwind_decorators(const Ordering& ordering, std::integral_constant<std::size_t,level>)
          -> decltype(
            _unwind_decorators(
              ordering.template child<0>(),
              std::integral_constant<std::size_t,level-1>()
              )
            )
        {
          return _unwind_decorators(
            ordering.template child<0>(),
            std::integral_constant<std::size_t,level-1>()
            );
        }
 
      }
 
 
 
      template<typename GFS>
      auto undecorated_ordering(const GFS& gfs)
        -> decltype(
          _unwind_decorators(
            gfs.ordering(),
            impl::decoration_level<typename GFS::OrderingTag>()
            )
          )
      {
        return _unwind_decorators(
          gfs.ordering(),
          impl::decoration_level<typename GFS::OrderingTag>()
          );
      }
 
 
      template<typename GFS,typename Transformation,typename Undecorated,typename GlueTag, typename Tag>
      struct gfs_to_decorator_descriptor
        : public TypeTree::meta_function
      {
        typedef decltype(
          register_gfs_to_decorator_descriptor(
            TypeTree::declptr<GFS>(),             // the source GridFunctionSpace
            TypeTree::declptr<Transformation>(),  // the full transformation descriptor
            TypeTree::declptr<Undecorated>(),     // the type of the undecorated Ordering to be wrapped in the decorator
            TypeTree::declptr<GlueTag>(),         // the decorated_ordering_tag for the current decoration nesting level
            TypeTree::declptr<Tag>()              // the decorator tag
            )
          ) type;
      };
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct leaf_gfs_to_decorated
      {
 
        static const bool recursive = false;
 
        typedef typename leaf_gfs_to_ordering_descriptor<
          GFS,
          Transformation,
          typename OrderingTag::Undecorated
          >::type undecorated_descriptor;
 
        typedef typename undecorated_descriptor::transformed_type undecorated_type;
 
        typedef typename gfs_to_decorator_descriptor<
          GFS,
          Transformation,
          undecorated_type,
          OrderingTag,
          typename OrderingTag::Decorator
          >::type decorator_descriptor;
 
        typedef typename decorator_descriptor::transformed_type transformed_type;
        typedef typename decorator_descriptor::transformed_storage_type transformed_storage_type;
 
        static transformed_type transform(const GFS& gfs, const Transformation& t)
        {
          return decorator_descriptor::transform(gfs,t,std::make_shared<undecorated_type>(undecorated_descriptor::transform(gfs,t)));
        }
 
        static transformed_storage_type transform(std::shared_ptr<const GFS>& gfs_pointer, const Transformation& t)
        {
          return decorator_descriptor::transform(gfs_pointer,t,undecorated_descriptor::transform(gfs_pointer,t));
        }
 
      };
 
      template<typename GFS, typename Transformation, typename D, typename U>
      leaf_gfs_to_decorated<GFS,Transformation,decorated_ordering_tag<D,U> >
      register_leaf_gfs_to_ordering_descriptor(GFS*,Transformation*,decorated_ordering_tag<D,U>*);
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct recursive_power_gfs_to_decorated
      {
 
        static const bool recursive = true;
 
        template<typename TC>
        struct result
        {
 
          typedef typename power_gfs_to_ordering_descriptor<
            GFS,
            Transformation,
            typename OrderingTag::Undecorated
            >::type undecorated_descriptor;
 
          typedef typename undecorated_descriptor::template result<TC>::type undecorated_type;
          typedef typename gfs_to_decorator_descriptor<
            GFS,
            Transformation,
            undecorated_type,
            OrderingTag,
            typename OrderingTag::Decorator
            >::type decorator_descriptor;
 
          typedef typename decorator_descriptor::transformed_type type;
          typedef typename decorator_descriptor::transformed_storage_type storage_type;
 
        };
 
        template<typename TC>
        static typename result<TC>::type transform(const GFS& gfs, const Transformation& t, const std::array<std::shared_ptr<TC>,TypeTree::StaticDegree<GFS>::value>& children)
        {
          return result<TC>::decorator_descriptor::transform(gfs,t,std::make_shared<typename result<TC>::undecorated_type>(result<TC>::undecorated_descriptor::transform(gfs,t,children)));
        }
 
        template<typename TC>
        static typename result<TC>::storage_type transform_storage(std::shared_ptr<const GFS> gfs_pointer, const Transformation& t, const std::array<std::shared_ptr<TC>,TypeTree::StaticDegree<GFS>::value>& children)
        {
          return result<TC>::decorator_descriptor::transform(gfs_pointer,t,result<TC>::undecorated_descriptor::transform_storage(gfs_pointer,t,children));
        }
 
      };
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct nonrecursive_power_gfs_to_decorated
      {
 
        static const bool recursive = false;
 
        typedef typename power_gfs_to_ordering_descriptor<
          GFS,
          Transformation,
          typename OrderingTag::Undecorated
          >::type undecorated_descriptor;
 
        typedef typename undecorated_descriptor::transformed_type undecorated_type;
 
        typedef typename gfs_to_decorator_descriptor<
          GFS,
          Transformation,
          undecorated_type,
          OrderingTag,
          typename OrderingTag::Decorator
          >::type decorator_descriptor;
 
        typedef typename decorator_descriptor::transformed_type transformed_type;
        typedef typename decorator_descriptor::transformed_storage_type transformed_storage_type;
 
        static transformed_type transform(const GFS& gfs, const Transformation& t)
        {
          return decorator_descriptor::transform(gfs,t,std::make_shared<undecorated_type>(undecorated_descriptor::transform(gfs,t)));
        }
 
        static transformed_storage_type transform_storage(std::shared_ptr<const GFS>& gfs_pointer, const Transformation& t)
        {
          return decorator_descriptor::transform_storage(gfs_pointer,t,undecorated_descriptor::transform_storage(gfs_pointer,t));
        }
 
      };
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct power_gfs_to_decorated
        : public std::conditional<
            power_gfs_to_ordering_descriptor<
              GFS,
              Transformation,
              typename OrderingTag::Undecorated
              >::type::recursive,
            recursive_power_gfs_to_decorated<
              GFS,
              Transformation,
              OrderingTag
              >,
            nonrecursive_power_gfs_to_decorated<
              GFS,
              Transformation,
              OrderingTag>
          >::type
      {};
 
      template<typename GFS, typename Transformation, typename D, typename U>
      power_gfs_to_decorated<
        GFS,
        Transformation,
        decorated_ordering_tag<D,U>
        >
      register_power_gfs_to_ordering_descriptor(GFS*,Transformation*,decorated_ordering_tag<D,U>*);
 
 
 
 
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct recursive_composite_gfs_to_decorated
      {
 
        static const bool recursive = true;
 
        template<typename... TC>
        struct result
        {
 
          typedef typename composite_gfs_to_ordering_descriptor<
            GFS,
            Transformation,
            typename OrderingTag::Undecorated
            >::type undecorated_descriptor;
 
          typedef typename undecorated_descriptor::template result<TC...>::type undecorated_type;
          typedef typename gfs_to_decorator_descriptor<
            GFS,
            Transformation,
            undecorated_type,
            OrderingTag,
            typename OrderingTag::Decorator
            >::type decorator_descriptor;
 
          typedef typename decorator_descriptor::transformed_type type;
          typedef typename decorator_descriptor::transformed_storage_type storage_type;
 
        };
 
        template<typename... TC>
        static typename result<TC...>::type transform(const GFS& gfs, const Transformation& t, std::shared_ptr<TC>... children)
        {
          return result<TC...>::decorator_descriptor::transform(gfs,t,std::make_shared<typename result<TC...>::undecorated_type>(result<TC...>::undecorated_descriptor::transform(gfs,t,children...)));
        }
 
        template<typename... TC>
        static typename result<TC...>::storage_type transform_storage(std::shared_ptr<const GFS> gfs_pointer, const Transformation& t, std::shared_ptr<TC>... children)
        {
          return result<TC...>::decorator_descriptor::transform_storage(gfs_pointer,t,result<TC...>::undecorated_descriptor::transform(gfs_pointer,t,children...));
        }
 
      };
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct nonrecursive_composite_gfs_to_decorated
      {
 
        static const bool recursive = false;
 
        typedef typename composite_gfs_to_ordering_descriptor<
          GFS,
          Transformation,
          typename OrderingTag::Undecorated
          >::type undecorated_descriptor;
 
        typedef typename undecorated_descriptor::transformed_type undecorated_type;
 
        typedef typename gfs_to_decorator_descriptor<
          GFS,
          Transformation,
          undecorated_type,
          OrderingTag,
          typename OrderingTag::Decorator
          >::type decorator_descriptor;
 
        typedef typename decorator_descriptor::transformed_type transformed_type;
        typedef typename decorator_descriptor::transformed_storage_type transformed_storage_type;
 
        static transformed_type transform(const GFS& gfs, const Transformation& t)
        {
          return decorator_descriptor::transform(gfs,t,std::make_shared<undecorated_type>(undecorated_descriptor::transform(gfs,t)));
        }
 
        static transformed_storage_type transform_storage(std::shared_ptr<const GFS>& gfs_pointer, const Transformation& t)
        {
          return decorator_descriptor::transform_storage(gfs_pointer,t,undecorated_descriptor::transform(gfs_pointer,t));
        }
 
      };
 
 
      template<typename GFS, typename Transformation, typename OrderingTag>
      struct composite_gfs_to_decorated
        : public std::conditional<
            composite_gfs_to_ordering_descriptor<
              GFS,
              Transformation,
              typename OrderingTag::Undecorated
              >::type::recursive,
            recursive_composite_gfs_to_decorated<
              GFS,
              Transformation,
              OrderingTag
              >,
            nonrecursive_composite_gfs_to_decorated<
              GFS,
              Transformation,
              OrderingTag>
          >::type
      {};
 
 
      template<typename GFS, typename Transformation, typename D, typename U>
      composite_gfs_to_decorated<GFS,Transformation,decorated_ordering_tag<D,U> >
      register_composite_gfs_to_ordering_descriptor(GFS*,Transformation*,decorated_ordering_tag<D,U>*);
 
    } // namespace ordering
 
 
  } // namespace PDELab
} // namespace Dune
 
#endif // DUNE_PDELAB_ORDERING_DECORATOR_HH
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