Tpetra_Details_rightScaleLocalCrsMatrix.hpp

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#ifndef TPETRA_DETAILS_RIGHTSCALELOCALCRSMATRIX_HPP
#define TPETRA_DETAILS_RIGHTSCALELOCALCRSMATRIX_HPP

 
#include "TpetraCore_config.h"
#include "Kokkos_Core.hpp"
#include "Kokkos_ArithTraits.hpp"
#include <type_traits>
 
namespace Tpetra {
namespace Details {

template<class LocalSparseMatrixType,
         class ScalingFactorsViewType,
         const bool divide>
class RightScaleLocalCrsMatrix {
public:
  using val_type =
    typename std::remove_const<typename LocalSparseMatrixType::value_type>::type;
  using mag_type = typename ScalingFactorsViewType::non_const_value_type;
  static_assert (ScalingFactorsViewType::rank == 1,
                 "scalingFactors must be a rank-1 Kokkos::View.");
  using device_type = typename LocalSparseMatrixType::device_type;

  RightScaleLocalCrsMatrix (const LocalSparseMatrixType& A_lcl,
                            const ScalingFactorsViewType& scalingFactors,
                            const bool assumeSymmetric) :
    A_lcl_ (A_lcl),
    scalingFactors_ (scalingFactors),
    assumeSymmetric_ (assumeSymmetric)
  {}
 
  KOKKOS_INLINE_FUNCTION void
  operator () (const typename LocalSparseMatrixType::ordinal_type lclRow) const
  {
    using LO = typename LocalSparseMatrixType::ordinal_type;
    using KAM = Kokkos::ArithTraits<mag_type>;
 
    auto curRow = A_lcl_.row (lclRow);
    const LO numEnt = curRow.length;
    for (LO k = 0; k < numEnt; ++k) {
      const LO lclColInd = curRow.colidx(k);
      const mag_type curColNorm = scalingFactors_(lclColInd);
      // Users are responsible for any divisions or multiplications by
      // zero.
      const mag_type scalingFactor = assumeSymmetric_ ?
        KAM::sqrt (curColNorm) : curColNorm;
      if (divide) { // constexpr, so should get compiled out
        curRow.value(k) = curRow.value(k) / scalingFactor;
      }
      else {
        curRow.value(k) = curRow.value(k) * scalingFactor;
      }
    }
  }
 
private:
  LocalSparseMatrixType A_lcl_;
  typename ScalingFactorsViewType::const_type scalingFactors_;
  bool assumeSymmetric_;
};

template<class LocalSparseMatrixType, class ScalingFactorsViewType>
void
rightScaleLocalCrsMatrix (const LocalSparseMatrixType& A_lcl,
                          const ScalingFactorsViewType& scalingFactors,
                          const bool assumeSymmetric,
                          const bool divide = true)
{
  using device_type = typename LocalSparseMatrixType::device_type;
  using execution_space = typename device_type::execution_space;
  using LO = typename LocalSparseMatrixType::ordinal_type;
  using range_type = Kokkos::RangePolicy<execution_space, LO>;
 
  const LO lclNumRows = A_lcl.numRows ();
  if (divide) {
    using functor_type =
      RightScaleLocalCrsMatrix<LocalSparseMatrixType,
        typename ScalingFactorsViewType::const_type, true>;
    functor_type functor (A_lcl, scalingFactors, assumeSymmetric);
    Kokkos::parallel_for ("rightScaleLocalCrsMatrix",
                          range_type (0, lclNumRows), functor);
  }
  else {
    using functor_type =
      RightScaleLocalCrsMatrix<LocalSparseMatrixType,
        typename ScalingFactorsViewType::const_type, false>;
    functor_type functor (A_lcl, scalingFactors, assumeSymmetric);
    Kokkos::parallel_for ("rightScaleLocalCrsMatrix",
                          range_type (0, lclNumRows), functor);
  }
}
 
} // namespace Details
} // namespace Tpetra
 
#endif // TPETRA_DETAILS_RIGHTSCALELOCALCRSMATRIX_HPP