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// ************************************************************************
//
// Belos: Block Linear Solvers Package
// Copyright 2004 Sandia Corporation
//
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//@HEADER
#ifndef BELOS_GMRES_ITERATION_HPP
#define BELOS_GMRES_ITERATION_HPP
/*! \file BelosGmresIteration.hpp
\brief Pure virtual base class which augments the basic interface for a Gmres linear solver iteration.
*/
#include "BelosConfigDefs.hpp"
#include "BelosTypes.hpp"
#include "BelosIteration.hpp"
namespace Belos {
//! @name GmresIteration Structures
//@{
/** \brief Structure to contain pointers to GmresIteration state variables.
*
* This struct is utilized by GmresIteration::initialize() and GmresIteration::getState().
*/
template <class ScalarType, class MV>
struct GmresIterationState {
/*! \brief The current dimension of the reduction.
*
* This should always be equal to GmresIteration::getCurSubspaceDim()
*/
int curDim;
/*! \brief The current Krylov basis. */
Teuchos::RCP<const MV> V;
/*! \brief The current preconditioned Krylov basis (only used in flexible GMRES). */
Teuchos::RCP<const MV> Z;
/*! \brief The current Hessenberg matrix.
*
* The \c curDim by \c curDim leading submatrix of H is the
* projection of problem->getOperator() by the first \c curDim vectors in V.
*/
Teuchos::RCP<const Teuchos::SerialDenseMatrix<int,ScalarType> > H;
/*! \brief The current upper-triangular matrix from the QR reduction of H. */
Teuchos::RCP<const Teuchos::SerialDenseMatrix<int,ScalarType> > R;
/*! \brief The current right-hand side of the least squares system RY = Z. */
Teuchos::RCP<const Teuchos::SerialDenseMatrix<int,ScalarType> > z;
GmresIterationState() : curDim(0), V(Teuchos::null), Z(Teuchos::null),
H(Teuchos::null), R(Teuchos::null),
z(Teuchos::null)
{}
};
//@}
//! @name GmresIteration Exceptions
//@{
/** \brief GmresIterationInitFailure is thrown when the GmresIteration object is unable to
* generate an initial iterate in the GmresIteration::initialize() routine.
*
* This std::exception is thrown from the GmresIteration::initialize() method, which is
* called by the user or from the GmresIteration::iterate() method if isInitialized()
* == \c false.
*
* In the case that this std::exception is thrown,
* GmresIteration::isInitialized() will be \c false and the user will need to provide
* a new initial iterate to the iteration.
*/
class GmresIterationInitFailure : public BelosError {public:
GmresIterationInitFailure(const std::string& what_arg) : BelosError(what_arg)
{}};
/** \brief GmresIterationOrthoFailure is thrown when the GmresIteration object is unable to
* compute independent direction vectors in the GmresIteration::iterate() routine.
*
* This std::exception is thrown from the GmresIteration::iterate() method.
*
*/
class GmresIterationOrthoFailure : public BelosError {public:
GmresIterationOrthoFailure(const std::string& what_arg) : BelosError(what_arg)
{}};
/** \brief GmresIterationLAPACKFailure is thrown when a nonzero return value is passed back
* from an LAPACK routine.
*
* This std::exception is thrown from the GmresIteration::iterate() method.
*
*/
class GmresIterationLAPACKFailure : public BelosError {public:
GmresIterationLAPACKFailure(const std::string& what_arg) : BelosError(what_arg)
{}};
//@}
template<class ScalarType, class MV, class OP>
class GmresIteration : virtual public Iteration<ScalarType,MV,OP> {
public:
//! @name State methods
//@{
/*! \brief Initialize the solver to an iterate, providing a complete state.
*
* The %GmresIteration contains a certain amount of state, consisting of the current
* residual, preconditioned residual, and decent direction.
*
* initialize() gives the user the opportunity to manually set these,
* although only the current unpreconditioned residual is required.
*
* \post
* <li>isInitialized() == \c true (see post-conditions of isInitialize())
*
* \note For any pointer in \c newstate which directly points to the multivectors in
* the solver, the data is not copied.
*/
virtual void initializeGmres(GmresIterationState<ScalarType,MV>& newstate) = 0;
/*! \brief Get the current state of the linear solver.
*
* The data is only valid if isInitialized() == \c true.
*
* \returns A GmresIterationState object containing const pointers to the current solver state.
*/
virtual GmresIterationState<ScalarType,MV> getState() const = 0;
//@}
//! @name Status methods
//@{
//! Method for updating QR factorization of upper Hessenberg matrix
/*! \note If \c dim >= \c getCurSubspaceDim() and \c dim < \c getMaxSubspaceDim(), then
the \c dim-th equations of the least squares problem will be updated.
*/
virtual void updateLSQR( int dim = -1 ) = 0;
//! Get the dimension of the search subspace used to generate the current solution to the linear problem.
virtual int getCurSubspaceDim() const = 0;
//! Get the maximum dimension allocated for the search subspace.
virtual int getMaxSubspaceDim() const = 0;
//@}
//! @name Accessor methods
//@{
/*! \brief Set the blocksize and number of blocks to be used by the
* iterative solver in solving this linear problem.
*
* Changing either the block size or the number of blocks will reset the
* solver to an uninitialized state.
*/
virtual void setSize(int blockSize, int numBlocks) = 0;
//@}
};
} // end Belos namespace
#endif /* BELOS_GMRES_ITERATION_HPP */
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