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//
// ***********************************************************************
//
// Amesos2: Templated Direct Sparse Solver Package
// Copyright 2011 Sandia Corporation
//
// Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
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// modification, are permitted provided that the following conditions are
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//
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// contributors may be used to endorse or promote products derived from
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//
// THIS SOFTWARE IS PROVIDED BY SANDIA CORPORATION "AS IS" AND ANY
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// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
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// @HEADER
/**
\file Amesos2_Solver_decl.hpp
\author Eric T Bavier <etbavier@sandia.gov>
\date Thu Dec 31 10:32:08 2009
\brief Interface to Amesos2 solver objects
*/
#ifndef AMESOS2_SOLVER_DECL_HPP
#define AMESOS2_SOLVER_DECL_HPP
#include <Teuchos_Describable.hpp>
#include <Teuchos_ParameterList.hpp>
#include <Teuchos_RCP.hpp>
#include <Teuchos_Comm.hpp>
#include "Amesos2_TypeDecl.hpp"
#include "Amesos2_Status.hpp"
namespace Amesos2 {
/**
* \brief Interface to Amesos2 solver objects
*
* Specifies a uniform interface for interaction with Amesos2 solver wrappers
* to third-party libraries.
*
* This class holds no definitions itself; it is a contract for
* concrete solver interfaces only.
*
* \ingroup amesos2_solver_framework
*/
template <class Matrix, class Vector>
class Solver : public Teuchos::Describable {
public:
typedef Solver<Matrix,Vector> type;
/// \name Mathematical Functions
//@{
/** \brief Pre-orders the matrix.
*
* Uses the default solver option, unless a solver-specific
* pre-ordering parameter is given.
*
* \sa setParameters
*/
virtual type& preOrdering( void ) = 0;
/** \brief Performs symbolic factorization on the matrix
*
* \pre
* - The matrix A must not be \c null
*/
virtual type& symbolicFactorization( void ) = 0;
/** \brief Performs numeric factorization on the matrix
*
* numericFactorization checks first that symbolicFactorization
* has successfully been called, and if not, calls it before
* continuing.
*
* \pre
* - The matrix A must not be \c null
*
* \post
* - The factors L and U of A are computed
*/
virtual type& numericFactorization( void ) = 0;
/** \brief Solves \f$ A X = B\f$ (or \f$ A^T X = B\f$ )
*
* solve checks first that numericFactorization has successfully
* been called, and if not, calls it before continuing.
*
* \pre
* - The (multi)vectors \c X and \c B must not be \c null
*
* \post
* - The (multi)vector \c X (given at construction time) contains
* the solution to the system.
*/
virtual void solve( void ) = 0;
/** \brief Solve \f$ A X = B\f$ using the given X and B vectors.
*
* This overload of solve uses the given X and B vectors when
* solving. This X and B are used in place of any X and B that
* were given upon construction of the Amesos2 solver instance and
* are used only for this solve.
*
* If a permanent change of X and B are required, see the setX()
* and setB() methods.
*
* \post
* - The (multi)vector \c X contains the solution to the system
* - The \c X and \c B given at construction time (if any) are unchanged.
*/
virtual void solve(const Teuchos::Ptr<Vector> X,
const Teuchos::Ptr<const Vector> B) const = 0;
/** \brief Solve \f$ A X = B\f$ using the given X and B vectors.
*
* This overload of solve uses the given X and B vectors when
* solving. This X and B are used in place of any X and B that
* were given upon construction of the Amesos2 solver instance and
* are used only for this solve.
*
* If a permanent change of X and B are required, see the setX()
* and setB() methods.
*
* \post
* - The (multi)vector \c X contains the solution to the system
* - The \c X and \c B given at construction time (if any) are unchanged.
*/
virtual void solve(Vector* X, const Vector* B) const = 0;
//@} End Mathematical Functions
/** \name Parameter Methods
* @{
*/
/** \brief Set/update internal variables and solver options.
*
* Expects that parameterList be named "Amesos2". That list may
* contain Amesos2-specific parameters. In addition, it may
* contain sublist for solver-specific parameters. These sublists
* should be named according to what is returned by the name()
* function (i.e. The solver's name when enabling for Amesos2
* during configuration).
*
* See each solver interface directly for a list of the supported
* parameters for that solver.
*/
virtual type& setParameters( const Teuchos::RCP<Teuchos::ParameterList> & parameterList ) = 0;
/**
* \brief Return a const parameter list of all of the valid parameters that
* this->setParameterList(...) will accept.
*/
virtual Teuchos::RCP<const Teuchos::ParameterList> getValidParameters( void ) const = 0;
/// @} End Parameter Methods
/** \name Accessor Methods
* @{
*/
/** \brief Sets the matrix A of this solver
*
* \param [in] a An RCP to a matrix will will be used for
* future computation steps
*
* \param [in] keep_phase This parameter tells the solver what
* state it should keep. For example, you
* may want to replace the matrix but keep
* the symbolic factorization because you
* know the structure of the new matrix is
* the same as the structure of the old
* matrix. In this case you would pass
* Amesos2::SYMBFACT as this parameter.
*
* The default value for the second parameter is Amesos2::CLEAN,
* which means that the internal state of the solver will be
* completely reset. It will be as if no previous computational
* steps were performed.
*/
virtual void setA( const Teuchos::RCP<const Matrix> a, EPhase keep_phase = CLEAN ) = 0;
/** \brief Sets the matrix A of this solver
*
* \param [in] a An raw C pointer to a matrix will will
* be used for future computation steps.
*
* \param [in] keep_phase This parameter tells the solver what
* state it should keep. For example, you
* may want to replace the matrix but keep
* the symbolic factorization because you
* know the structure of the new matrix is
* the same as the structure of the old
* matrix. In this case you would pass
* Amesos2::SYMBFACT as this parameter.
*
* The default value for the second parameter is Amesos2::CLEAN,
* which means that the internal state of the solver will be
* completely reset. It will be as if no previous computational
* steps were performed.
*/
virtual void setA( const Matrix* a, EPhase keep_phase = CLEAN ) = 0;
/// Returns \c true if the solver can handle the matrix shape
virtual bool matrixShapeOK( void ) = 0;
/// Sets the LHS vector X
virtual void setX( const Teuchos::RCP<Vector> x ) = 0;
/// Sets the LHS vector X using a raw pointer
virtual void setX( Vector* x ) = 0;
/// Returns the vector that is the LHS of the linear system
virtual const Teuchos::RCP<Vector> getX( void ) = 0;
/// Returns a raw pointer to the LHS of the linear system
virtual Vector* getXRaw( void ) = 0;
/// Sets the RHS vector B
virtual void setB( const Teuchos::RCP<const Vector> b ) = 0;
/// Sets the RHS vector B using a raw pointer
virtual void setB( const Vector* b ) = 0;
/// Returns the vector that is the RHS of the linear system
virtual const Teuchos::RCP<const Vector> getB( void ) = 0;
/// Returns a raw pointer to the RHS of the linear system
virtual const Vector* getBRaw( void ) = 0;
/// Returns a pointer to the Teuchos::Comm communicator with this matrix
virtual Teuchos::RCP<const Teuchos::Comm<int> > getComm( void ) const = 0;
/// Returns a reference to this solver's internal status object
virtual Status& getStatus() const = 0;
/// Return the name of this solver.
virtual std::string name( void ) const = 0;
/// @} End Accessor Methods
/** \name Methods implementing Describable
* @{
*/
/// Returns a short description of this Solver
virtual std::string description( void ) const = 0;
/// Prints the status information about the current solver with some level
/// of verbosity.
virtual void describe( Teuchos::FancyOStream &out,
const Teuchos::EVerbosityLevel verbLevel=Teuchos::Describable::verbLevel_default ) const = 0;
/// @} End Methods implementing Describable
/** \name Performance and Timing
* @{
*/
/// Prints timing information about the current solver.
virtual void printTiming( Teuchos::FancyOStream &out,
const Teuchos::EVerbosityLevel verbLevel = Teuchos::Describable::verbLevel_default ) const = 0;
/**
* \brief Extracts timing information from the current solver.
*
* Results are placed in the parameter list \c timingParameterList
*
* \param timingParameterList Accepts timing information from the
* current solver
*/
virtual void getTiming( Teuchos::ParameterList& timingParameterList ) const = 0;
/// @} End Performance and Timing
}; // End class Solver
} // end namespace Amesos2
#endif // AMESOS2_SOLVER_BASE_DECL_HPP
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