/usr/include/trilinos/Thyra_DelayedLinearOpWithSolve_def.hpp is in libtrilinos-dev 10.4.0.dfsg-1ubuntu2.
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// ***********************************************************************
//
// Thyra: Interfaces and Support for Abstract Numerical Algorithms
// Copyright (2004) Sandia Corporation
//
// Under terms of Contract DE-AC04-94AL85000, there is a non-exclusive
// license for use of this work by or on behalf of the U.S. Government.
//
// This library is free software; you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as
// published by the Free Software Foundation; either version 2.1 of the
// License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
// USA
// Questions? Contact Michael A. Heroux (maherou@sandia.gov)
//
// ***********************************************************************
// @HEADER
#ifndef THYRA_DELAYED_LINEAR_OP_WITH_SOLVE_HPP
#define THYRA_DELAYED_LINEAR_OP_WITH_SOLVE_HPP
#include "Thyra_DelayedLinearOpWithSolve_decl.hpp"
#include "Thyra_LinearOpWithSolveFactoryBase.hpp"
#include "Thyra_LinearOpWithSolveBase.hpp"
#include "Thyra_SolveSupportTypes.hpp"
#include "Teuchos_VerboseObject.hpp"
namespace Thyra {
// Constructor/Initializers
template <class Scalar>
DelayedLinearOpWithSolve<Scalar>::DelayedLinearOpWithSolve()
:lows_is_valid_(false)
{}
template <class Scalar>
void DelayedLinearOpWithSolve<Scalar>::initialize(
const RCP<const LinearOpSourceBase<Scalar> > &fwdOpSrc,
const RCP<const PreconditionerBase<Scalar> > &prec,
const RCP<const LinearOpSourceBase<Scalar> > &approxFwdOpSrc,
const ESupportSolveUse supportSolveUse,
const RCP<LinearOpWithSolveFactoryBase<Scalar> > &lowsf
)
{
#ifdef TEUCHOS_DEBUG
TEST_FOR_EXCEPT(is_null(fwdOpSrc));
TEST_FOR_EXCEPT(!is_null(prec) && !is_null(approxFwdOpSrc));
TEST_FOR_EXCEPT(is_null(lowsf));
#endif
fwdOpSrc_ = fwdOpSrc;
prec_ = prec;
approxFwdOpSrc_ = approxFwdOpSrc;
lowsf_ = lowsf;
supportSolveUse_ = supportSolveUse;
fwdOp_ = fwdOpSrc_->getOp().assert_not_null();
lows_is_valid_ = false;
}
template <class Scalar>
RCP<const LinearOpSourceBase<Scalar> >
DelayedLinearOpWithSolve<Scalar>::getFwdOpSrc() const
{
return fwdOpSrc_;
}
template <class Scalar>
RCP<const PreconditionerBase<Scalar> >
DelayedLinearOpWithSolve<Scalar>::getPrec() const
{
return prec_;
}
template <class Scalar>
RCP<const LinearOpSourceBase<Scalar> >
DelayedLinearOpWithSolve<Scalar>::getApproxFwdOpSrc() const
{
return approxFwdOpSrc_;
}
template <class Scalar>
ESupportSolveUse
DelayedLinearOpWithSolve<Scalar>::getSupportSolveUse() const
{
return supportSolveUse_;
}
// Overridden from Teuchos::Describable
template<class Scalar>
std::string DelayedLinearOpWithSolve<Scalar>::description() const
{
std::ostringstream oss;
oss << this->Teuchos::Describable::description()
<< "{";
oss << "fwdOp_=";
if (!is_null(fwdOp_))
oss << fwdOp_->description();
else
oss << "NULL,";
oss << "lows=";
if (!is_null(lows_))
oss << lows_->description();
else
oss << "NULL";
oss << "}";
return oss.str();
}
// Overridden from LinearOpBase
template <class Scalar>
RCP< const VectorSpaceBase<Scalar> >
DelayedLinearOpWithSolve<Scalar>::range() const
{
if (!is_null(fwdOp_))
return fwdOp_->range();
return Teuchos::null;
}
template <class Scalar>
RCP< const VectorSpaceBase<Scalar> >
DelayedLinearOpWithSolve<Scalar>::domain() const
{
if (!is_null(fwdOp_))
return fwdOp_->domain();
return Teuchos::null;
}
template <class Scalar>
RCP<const LinearOpBase<Scalar> >
DelayedLinearOpWithSolve<Scalar>::clone() const
{
return Teuchos::null; // ToDo: Implement if needed!
}
// protected
template<class Scalar>
void DelayedLinearOpWithSolve<Scalar>::informUpdatedVerbosityState() const
{
if (!is_null(lowsf_)) {
lowsf_->setVerbLevel(this->getVerbLevel());
lowsf_->setOStream(this->getOStream());
}
if (!is_null(lows_)) {
lows_->setVerbLevel(this->getVerbLevel());
lows_->setOStream(this->getOStream());
}
}
// Overridden from LinearOpBase
template <class Scalar>
bool DelayedLinearOpWithSolve<Scalar>::opSupportedImpl(EOpTransp M_trans) const
{
return Thyra::opSupported(*fwdOp_,M_trans);
}
template <class Scalar>
void DelayedLinearOpWithSolve<Scalar>::applyImpl(
const EOpTransp M_trans,
const MultiVectorBase<Scalar> &X,
const Ptr<MultiVectorBase<Scalar> > &Y,
const Scalar alpha,
const Scalar beta
) const
{
Thyra::apply(*fwdOp_, M_trans, X, Y, alpha, beta);
}
// Overridden from LinearOpWithSolveBase
template <class Scalar>
bool DelayedLinearOpWithSolve<Scalar>::solveSupportsImpl(EOpTransp M_trans) const
{
updateSolver();
return Thyra::solveSupports(*lows_, M_trans);
}
template <class Scalar>
bool DelayedLinearOpWithSolve<Scalar>::solveSupportsSolveMeasureTypeImpl(
EOpTransp M_trans, const SolveMeasureType& solveMeasureType
) const
{
updateSolver();
return Thyra::solveSupportsSolveMeasureType(*lows_, M_trans, solveMeasureType);
}
template <class Scalar>
SolveStatus<Scalar>
DelayedLinearOpWithSolve<Scalar>::solveImpl(
const EOpTransp transp,
const MultiVectorBase<Scalar> &B,
const Ptr<MultiVectorBase<Scalar> > &X,
const Ptr<const SolveCriteria<Scalar> > solveCriteria
) const
{
updateSolver();
return Thyra::solve(*lows_, transp, B, X, solveCriteria);
}
// private
template <class Scalar>
void DelayedLinearOpWithSolve<Scalar>::updateSolver() const
{
if (is_null(lows_))
lows_ = lowsf_->createOp();
if (!lows_is_valid_) {
if (!is_null(prec_))
lowsf_->initializePreconditionedOp(
fwdOpSrc_,prec_,&*lows_,supportSolveUse_);
else if (!is_null(approxFwdOpSrc_))
lowsf_->initializeApproxPreconditionedOp(
fwdOpSrc_,approxFwdOpSrc_,&*lows_,supportSolveUse_);
else
lowsf_->initializeOp(
fwdOpSrc_,&*lows_,supportSolveUse_);
lows_is_valid_ = true;
}
}
} // namespace Thyra
#endif // THYRA_DELAYED_LINEAR_OP_WITH_SOLVE_HPP
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