mmgridview.hh 10.5 KB
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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_MULTIMESH_GRIDVIEW_HH
#define DUNE_MULTIMESH_GRIDVIEW_HH

#include <dune/common/typetraits.hh>
#include <dune/common/exceptions.hh>

#include <dune/grid/common/capabilities.hh>
#include <dune/grid/common/gridview.hh>

namespace Dune
{
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  // forward declaration
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  template <class GridImp>
  class MultiMeshLevelGridView;

  template <class GridImp>
  struct MultiMeshLevelGridViewTraits
  {
    using GridViewImp = MultiMeshLevelGridView<GridImp>;
    using Grid = typename std::remove_const<GridImp>::type;

    using IndexSet = typename Grid::Traits::LevelIndexSet;
    using Intersection = typename Grid::Traits::LevelIntersection;
    using IntersectionIterator = typename Grid::Traits::LevelIntersectionIterator;
    using CollectiveCommunication = typename Grid::Traits::CollectiveCommunication;

    template <int cd>
    struct Codim
    {
      using Iterator = typename Grid::Traits::template Codim<cd>::template Partition<All_Partition>::LevelIterator;

      using Entity = typename Grid::Traits::template Codim<cd>::Entity;
      using Geometry = typename Grid::template Codim<cd>::Geometry;
      using LocalGeometry = typename Grid::template Codim<cd>::LocalGeometry;

      template <PartitionIteratorType pit>
      struct Partition
      {
        using Iterator = typename Grid::template Codim<cd>::template Partition<pit>::LevelIterator;
      };
    };

    enum { conforming = Capabilities::isLevelwiseConforming<Grid>::v };
  };


  template <class GridImp>
  class MultiMeshLevelGridView
  {
  public:
    using Traits = MultiMeshLevelGridViewTraits<GridImp>;

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    /// The MultiMesh GridType
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    using Grid = typename Traits::Grid;

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    /// Type of the corresponding GridType hosted by the MultiMesh
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    using HostGrid = typename GridImp::HostGridType;

    using IndexSet = typename Traits::IndexSet;
    using Intersection = typename Traits::Intersection;
    using IntersectionIterator = typename Traits::IntersectionIterator;
    using CollectiveCommunication = typename Traits::CollectiveCommunication;

    template <int cd>
    struct Codim : public Traits::template Codim<cd> {};

    enum { conforming = Traits::conforming };

  public:
    /// Constructor. Stores a pointer to the grid
    MultiMeshLevelGridView (const Grid& multiMesh, int level)
      : multiMesh_(&multiMesh)
      , level_(level)
    {}

    /// Obtain a const reference to the underlying hierarchic grid
    const Grid& grid () const
    {
      assert( multiMesh_ );
      return *multiMesh_;
    }

    const HostGrid& grid (std::size_t i) const
    {
      return multiMesh_->grid(i);
    }

    /// Obtain the level-indexSet
    const IndexSet& indexSet (std::size_t idx) const
    {
      return grid(idx).levelIndexSet(level_);
    }

    const IndexSet& indexSet () const
    {
      assert(false && "Should be called on the i'th grid: indexSet(i)");
      return grid(0).levelIndexSet(level_);
    }

    /// Obtain number of entities in a given codimension
    int size (std::size_t idx, int codim) const
    {
      return grid(idx).size(level_, codim);
    }

    int size (int codim) const
    {
      assert(false && "Should be called on the i'th grid: size(i, codim)");
      return grid(0).size(level_, codim);
    }

    /// Obtain number of entities with a given geometry type
    int size (std::size_t idx, const GeometryType& type) const
    {
      return grid(idx).size( level_, type );
    }

    int size (const GeometryType& type) const
    {
      assert(false && "Should be called on the i'th grid: size(i, type)");
      return grid(0).size( level_, type );
    }

    /// Obtain begin iterator for this view
    template <int cd, PartitionIteratorType pit = All_Partition>
    typename Codim<cd>::template Partition<pit>::Iterator begin () const
    {
      assert(cd == 0 && "Implemented for codim == 0 only");
      return grid().template lbegin<cd, pit>(level_);
    }

    /// Obtain end iterator for this view
    template <int cd, PartitionIteratorType pit = All_Partition>
    typename Codim<cd>::template Partition<pit>::Iterator end () const
    {
      assert(cd == 0 && "Implemented for codim == 0 only");
      return grid().template lend<cd, pit>(level_);
    }

    /// Obtain begin intersection iterator with respect to this view
    IntersectionIterator ibegin (const typename Codim<0>::Entity& entity) const
    {
      return entity.impl().ilevelbegin();
    }

    /// Obtain end intersection iterator with respect to this view
    IntersectionIterator iend (const typename Codim<0>::Entity& entity) const
    {
      return entity.impl().ilevelend();
    }

    /// Obtain collective communication object
    const CollectiveCommunication& comm () const
    {
      return grid().comm();
    }

    /// Return size of the overlap region for a given codim on the grid view.
    int overlapSize (int codim) const
    {
      return grid().overlapSize(level_, codim);
    }

    /// Return size of the ghost region for a given codim on the grid view.
    int ghostSize (int codim) const
    {
      return grid().ghostSize(level_, codim);
    }

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    /// Communicate data on this view
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    template <class DataHandleImp, class DataType>
    void communicate (CommDataHandleIF<DataHandleImp, DataType>& data,
                      InterfaceType iftype,
                      CommunicationDirection dir) const
    {
      return grid().communicate(data, iftype, dir, level_);
    }

  private:
    const Grid* multiMesh_;
    int level_;
  };


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  // forward declaration
  template <class GridImp>
  class MultiMeshLeafGridView;

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  template <class GridImp>
  struct MultiMeshLeafGridViewTraits
  {
    using GridViewImp = MultiMeshLeafGridView<GridImp>;
    using Grid = typename std::remove_const<GridImp>::type;

    using IndexSet = typename Grid::Traits::LeafIndexSet;
    using Intersection = typename Grid::Traits::LeafIntersection;
    using IntersectionIterator = typename Grid::Traits::LeafIntersectionIterator;
    using CollectiveCommunication = typename Grid::Traits::CollectiveCommunication;

    template <int cd>
    struct Codim
    {
      using Iterator = typename Grid::Traits::template Codim<cd>::template Partition<All_Partition>::LeafIterator;

      using Entity = typename Grid::Traits::template Codim<cd>::Entity;
      using Geometry = typename Grid::template Codim<cd>::Geometry;
      using LocalGeometry = typename Grid::template Codim<cd>::LocalGeometry;

      template <PartitionIteratorType pit>
      struct Partition
      {
        using Iterator = typename Grid::template Codim<cd>::template Partition<pit>::LeafIterator;
      };
    };

    enum { conforming = Capabilities::isLeafwiseConforming<Grid>::v };
  };


  template <class GridImp>
  class MultiMeshLeafGridView
  {
  public:
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    using Traits = MultiMeshLeafGridViewTraits<GridImp>;
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    /// The MultiMesh GridType
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    using Grid = typename Traits::Grid;

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    /// Type of the corresponding GridType hosted by the MultiMesh
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    using HostGrid = typename GridImp::HostGridType;

    using IndexSet = typename Traits::IndexSet;
    using Intersection = typename Traits::Intersection;
    using IntersectionIterator = typename Traits::IntersectionIterator;
    using CollectiveCommunication = typename Traits::CollectiveCommunication;

    template <int cd>
    struct Codim : public Traits::template Codim<cd> {};

    enum { conforming = Traits::conforming };

  public:
    MultiMeshLeafGridView (const Grid& multiMesh)
      : multiMesh_(&multiMesh)
    {}

    /// Obtain a const reference to the underlying hierarchic grid
    const Grid& grid () const
    {
      assert( multiMesh_ );
      return *multiMesh_;
    }

    const HostGrid& grid (std::size_t i) const
    {
      return multiMesh_->grid(i);
    }

    /// Obtain the level-indexSet
    const IndexSet& indexSet (std::size_t idx) const
    {
      return grid(idx).leafIndexSet();
    }

    const IndexSet& indexSet () const
    {
      assert(false && "Should be called on the i'th grid: indexSet(i)");
      return grid(0).leafIndexSet();
    }

    /// Obtain number of entities in a given codimension
    int size (std::size_t idx, int codim) const
    {
      return grid(idx).size(codim);
    }

    int size (int codim) const
    {
      assert(false && "Should be called on the i'th grid: size(i, codim)");
      return grid(0).size(codim);
    }

    /// Obtain number of entities with a given geometry type
    int size (std::size_t idx, const GeometryType& type) const
    {
      return grid(idx).size(type);
    }

    int size (const GeometryType& type) const
    {
      assert(false && "Should be called on the i'th grid: size(i, type)");
      return grid(0).size(type);
    }

    /// Obtain begin iterator for this view
    template <int cd, PartitionIteratorType pit = All_Partition>
    typename Codim<cd>::template Partition<pit>::Iterator begin () const
    {
      assert(cd == 0 && "Implemented for codim == 0 only");
      return grid().template leafbegin<cd, pit>();
    }

    /// Obtain end iterator for this view
    template <int cd, PartitionIteratorType pit = All_Partition>
    typename Codim<cd>::template Partition<pit>::Iterator end () const
    {
      assert(cd == 0 && "Implemented for codim == 0 only");
      return grid().template leafend<cd, pit>();
    }

    /// Obtain begin intersection iterator with respect to this view
    IntersectionIterator ibegin (const typename Codim<0>::Entity& entity) const
    {
      return entity.impl().ileafbegin();
    }

    /// Obtain end intersection iterator with respect to this view
    IntersectionIterator iend (const typename Codim<0>::Entity& entity) const
    {
      return entity.impl().ileaflend();
    }

    /// Obtain collective communication object
    const CollectiveCommunication& comm () const
    {
      return grid().comm();
    }

    /// Return size of the overlap region for a given codim on the grid view.
    int overlapSize (int codim) const
    {
      return grid().overlapSize(codim);
    }

    /// Return size of the ghost region for a given codim on the grid view.
    int ghostSize (int codim) const
    {
      return grid().ghostSize(codim);
    }

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    /// Communicate data on this view
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    template <class DataHandleImp, class DataType>
    void communicate (CommDataHandleIF<DataHandleImp, DataType>& data,
                      InterfaceType iftype,
                      CommunicationDirection dir) const
    {
      return grid().communicate(data, iftype, dir);
    }

  private:
    const Grid *multiMesh_;
  };

} // end namespace Dune

#endif // DUNE_MULTIMESH_GRIDVIEW_HH