Amesos2_PardisoMKL_decl.hpp

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#ifndef AMESOS2_PARDISOMKL_DECL_HPP
#define AMESOS2_PARDISOMKL_DECL_HPP
 
#include <map>
 
#include <Teuchos_StandardParameterEntryValidators.hpp>
 
#include "Amesos2_SolverTraits.hpp"
#include "Amesos2_SolverCore.hpp"
#include "Amesos2_PardisoMKL_FunctionMap.hpp"
 
 
namespace Amesos2 {
 
 
  template <class Matrix,
            class Vector>
  class PardisoMKL : public SolverCore<Amesos2::PardisoMKL, Matrix, Vector>
  {
    friend class SolverCore<Amesos2::PardisoMKL,Matrix,Vector>; // Give our base access
                                                                // to our private
                                                                // implementation funcs
  public:
 
    static const char* name;    // declaration. Initialization outside.
 
    typedef PardisoMKL<Matrix,Vector>                                       type;
    typedef SolverCore<Amesos2::PardisoMKL,Matrix,Vector>             super_type;
 
    // Since typedef's are not inheritted, go grab them
    typedef typename super_type::scalar_type                         scalar_type;
    typedef typename super_type::local_ordinal_type           local_ordinal_type;
    typedef typename super_type::global_ordinal_type         global_ordinal_type;
    typedef typename super_type::global_size_type               global_size_type;
 
    typedef TypeMap<Amesos2::PardisoMKL,scalar_type>                    type_map;
 
    typedef typename type_map::type                           solver_scalar_type;
    typedef typename type_map::magnitude_type              solver_magnitude_type;
 
    // This may be PMKL::_INTEGER_t or long long int depending on the
    // mapping and input ordinal
    typedef typename TypeMap<Amesos2::PardisoMKL,local_ordinal_type>::type int_t;
 
    /* For PardisoMKL we dispatch based on the integer type instead of
     * the scalar type:
     *   - _INTEGER_t    => use the pardiso(...)    method
     *   - long long int => use the pardiso_64(...) method
     */
    typedef FunctionMap<Amesos2::PardisoMKL,int_t>                  function_map;
 
 
 
 
    PardisoMKL(Teuchos::RCP<const Matrix> A,
               Teuchos::RCP<Vector>       X,
               Teuchos::RCP<const Vector> B);
 
 
    ~PardisoMKL( );
 
 
  private:
 
    int preOrdering_impl();
 
 
    int symbolicFactorization_impl();
 
 
    int numericFactorization_impl();
 
 
    int solve_impl(const Teuchos::Ptr<MultiVecAdapter<Vector> >       X,
                   const Teuchos::Ptr<const MultiVecAdapter<Vector> > B) const;
 
 
    bool matrixShapeOK_impl() const;
 
 
    void setParameters_impl(const Teuchos::RCP<Teuchos::ParameterList> & parameterList );
 
 
    Teuchos::RCP<const Teuchos::ParameterList> getValidParameters_impl() const;
 
 
    bool loadA_impl(EPhase current_phase);
 
 
 
    void check_pardiso_mkl_error(EPhase phase, int_t error) const;
 
    void set_pardiso_mkl_matrix_type(int_t mtype = 0);
 
 
    /* Declare private variables necessary for interaction with the
     * PardisoMKL TPL.
     *
     * For example, the following Arrays are persisting storage arrays
     * for A, X, and B that can be used with solvers expecting a
     * compressed-row representation of the matrix A.
     */
 
    Teuchos::Array<solver_scalar_type> nzvals_;
    Teuchos::Array<int_t> colind_;
    Teuchos::Array<int_t> rowptr_;
    mutable Teuchos::Array<solver_scalar_type> xvals_;
    mutable Teuchos::Array<solver_scalar_type> bvals_;
 
    mutable void* pt_[64];
    int_t mtype_;
    int_t n_;
    Teuchos::Array<int_t> perm_;
    mutable int_t nrhs_;
 
    int_t iparm_[64];
 
    static const int_t msglvl_;
 
    // We will deal with 1 factor at a time
    static const int_t maxfct_;
    static const int_t mnum_;
 
 
    static const bool complex_
    = Meta::or_<Meta::is_same<solver_scalar_type, PMKL::_MKL_Complex8>::value,
                Meta::is_same<solver_scalar_type, PMKL::_DOUBLE_COMPLEX_t>::value>::value;
 
    bool is_contiguous_;
 
};                              // End class PardisoMKL
 
 
// Specialize the solver_traits struct for PardisoMKL.
template <>
struct solver_traits<PardisoMKL> {
#ifdef HAVE_TEUCHOS_COMPLEX
  typedef Meta::make_list6<float,
                           double,
                           std::complex<float>,
                           std::complex<double>,
                           PMKL::_MKL_Complex8,
                           PMKL::_DOUBLE_COMPLEX_t> supported_scalars;
#else
typedef Meta::make_list2<float,
                         double> supported_scalars;
#endif
};
 
} // end namespace Amesos
 
#endif  // AMESOS2_PARDISOMKL_DECL_HPP