/usr/include/trilinos/Rythmos_DiagonalImplicitRKModelEvaluator.hpp is in libtrilinos-rythmos-dev 12.12.1-5.
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// ***********************************************************************
//
// Rythmos Package
// Copyright (2006) 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301
// USA
// Questions? Contact Todd S. Coffey (tscoffe@sandia.gov)
//
// ***********************************************************************
//@HEADER
#ifndef RYTHMOS_DIAGONALIMPLICITRK_MODEL_EVALUATOR_HPP
#define RYTHMOS_DIAGONALIMPLICITRK_MODEL_EVALUATOR_HPP
#include "Rythmos_Types.hpp"
#include "Rythmos_RKButcherTableauHelpers.hpp"
#include "Thyra_StateFuncModelEvaluatorBase.hpp"
#include "Thyra_ModelEvaluatorHelpers.hpp"
#include "Thyra_ModelEvaluatorDelegatorBase.hpp"
#include "Thyra_DefaultProductVectorSpace.hpp"
#include "Thyra_DefaultBlockedLinearOp.hpp"
#include "Thyra_VectorStdOps.hpp"
#include "Thyra_TestingTools.hpp"
#include "Teuchos_as.hpp"
#include "Teuchos_SerialDenseMatrix.hpp"
#include "Teuchos_SerialDenseVector.hpp"
#include "Teuchos_Assert.hpp"
namespace Rythmos {
/** \brief . */
template<class Scalar>
class DiagonalImplicitRKModelEvaluator : virtual public Thyra::StateFuncModelEvaluatorBase<Scalar>
{
public:
/** \name Constructors/initializers/accessors */
//@{
/** \brief . */
DiagonalImplicitRKModelEvaluator();
/** \brief . */
void initializeDIRKModel(
const RCP<const Thyra::ModelEvaluator<Scalar> >& daeModel,
const Thyra::ModelEvaluatorBase::InArgs<Scalar>& basePoint,
const RCP<Thyra::LinearOpWithSolveFactoryBase<Scalar> >& dirk_W_factory,
const RCP<const RKButcherTableauBase<Scalar> >& irkButcherTableau
);
/** \brief . */
void setTimeStepPoint(
const RCP<const Thyra::VectorBase<Scalar> > &x_old,
const Scalar &t_old,
const Scalar &delta_t
);
/** \brief . */
void setStageSolution(
int stageNumber,
const Thyra::VectorBase<Scalar>& stage_solution
);
/** \brief . */
void setCurrentStage(
int currentStage
);
//@}
/** \name Public functions overridden from ModelEvaluator */
//@{
/** \brief . */
RCP<const Thyra::VectorSpaceBase<Scalar> > get_x_space() const;
/** \brief . */
RCP<const Thyra::VectorSpaceBase<Scalar> > get_f_space() const;
/** \brief . */
RCP<Thyra::LinearOpBase<Scalar> > create_W_op() const;
/** \brief . */
RCP<const Thyra::LinearOpWithSolveFactoryBase<Scalar> > get_W_factory() const;
/** \breif . */
Thyra::ModelEvaluatorBase::InArgs<Scalar> getNominalValues() const;
/** \brief . */
Thyra::ModelEvaluatorBase::InArgs<Scalar> createInArgs() const;
//@}
private:
/** \name Private functions overridden from ModelEvaluatorDefaultBase */
//@{
/** \brief . */
Thyra::ModelEvaluatorBase::OutArgs<Scalar> createOutArgsImpl() const;
/** \brief . */
void evalModelImpl(
const Thyra::ModelEvaluatorBase::InArgs<Scalar>& inArgs,
const Thyra::ModelEvaluatorBase::OutArgs<Scalar>& outArgs
) const;
//@}
private:
RCP<const Thyra::ModelEvaluator<Scalar> > daeModel_;
Thyra::ModelEvaluatorBase::InArgs<Scalar> basePoint_;
RCP<Thyra::LinearOpWithSolveFactoryBase<Scalar> > dirk_W_factory_;
RCP<const RKButcherTableauBase<Scalar> > dirkButcherTableau_;
Thyra::ModelEvaluatorBase::InArgs<Scalar> inArgs_;
Thyra::ModelEvaluatorBase::OutArgs<Scalar> outArgs_;
Thyra::ModelEvaluatorBase::InArgs<Scalar> nominalValues_;
RCP<const Thyra::ProductVectorSpaceBase<Scalar> > stage_space_;
RCP<Thyra::ProductVectorBase<Scalar> > stage_derivatives_;
bool setTimeStepPointCalled_;
RCP<const Thyra::VectorBase<Scalar> > x_old_;
Scalar t_old_;
Scalar delta_t_;
int currentStage_;
bool isInitialized_;
};
/** \brief Nonmember constructor function.
*
* \relates DiagonalImplicitRKModelEvaluator
*/
template<class Scalar>
RCP<DiagonalImplicitRKModelEvaluator<Scalar> >
diagonalImplicitRKModelEvaluator(
const RCP<const Thyra::ModelEvaluator<Scalar> >& daeModel,
const Thyra::ModelEvaluatorBase::InArgs<Scalar> &basePoint,
const RCP<Thyra::LinearOpWithSolveFactoryBase<Scalar> > &dirk_W_factory,
const RCP<const RKButcherTableauBase<Scalar> > &irkButcherTableau
)
{
RCP<DiagonalImplicitRKModelEvaluator<Scalar> >
dirkModel = rcp(new DiagonalImplicitRKModelEvaluator<Scalar>());
dirkModel->initializeDIRKModel(daeModel,basePoint,dirk_W_factory,irkButcherTableau);
return dirkModel;
}
// ///////////////////////
// Definition
// Constructors/initializers/accessors
template<class Scalar>
DiagonalImplicitRKModelEvaluator<Scalar>::DiagonalImplicitRKModelEvaluator()
{
setTimeStepPointCalled_ = false;
isInitialized_ = false;
currentStage_ = -1;
}
// Overridden from ImplicitRKModelEvaluatorBase
template<class Scalar>
void DiagonalImplicitRKModelEvaluator<Scalar>::initializeDIRKModel(
const RCP<const Thyra::ModelEvaluator<Scalar> >& daeModel,
const Thyra::ModelEvaluatorBase::InArgs<Scalar>& basePoint,
const RCP<Thyra::LinearOpWithSolveFactoryBase<Scalar> >& dirk_W_factory,
const RCP<const RKButcherTableauBase<Scalar> >& irkButcherTableau
)
{
typedef ScalarTraits<Scalar> ST;
// ToDo: Assert input arguments!
// How do I verify the basePoint is an authentic InArgs from daeModel?
TEUCHOS_TEST_FOR_EXCEPTION(
is_null(basePoint.get_x()),
std::logic_error,
"Error! The basepoint x vector is null!"
);
TEUCHOS_TEST_FOR_EXCEPTION(
is_null(daeModel),
std::logic_error,
"Error! The model evaluator pointer is null!"
);
TEUCHOS_TEST_FOR_EXCEPTION(
!daeModel->get_x_space()->isCompatible(*(basePoint.get_x()->space())),
std::logic_error,
"Error! The basepoint input arguments are incompatible with the model evaluator vector space!"
);
//TEUCHOS_TEST_FOR_EXCEPT(is_null(dirk_W_factory));
daeModel_ = daeModel;
basePoint_ = basePoint;
dirk_W_factory_ = dirk_W_factory;
dirkButcherTableau_ = irkButcherTableau;
const int numStages = dirkButcherTableau_->numStages();
using Teuchos::rcp_dynamic_cast;
stage_space_ = productVectorSpace(daeModel_->get_x_space(),numStages);
RCP<const Thyra::VectorSpaceBase<Scalar> > vs = rcp_dynamic_cast<const Thyra::VectorSpaceBase<Scalar> >(stage_space_,true);
stage_derivatives_ = rcp_dynamic_cast<Thyra::ProductVectorBase<Scalar> >(createMember(vs),true);
Thyra::V_S( rcp_dynamic_cast<Thyra::VectorBase<Scalar> >(stage_derivatives_).ptr(),ST::zero());
// Set up prototypical InArgs
{
typedef Thyra::ModelEvaluatorBase MEB;
MEB::InArgsSetup<Scalar> inArgs;
inArgs.setModelEvalDescription(this->description());
inArgs.setSupports(MEB::IN_ARG_x);
inArgs.setSupports(MEB::IN_ARG_step_size);
inArgs.setSupports(MEB::IN_ARG_stage_number);
inArgs_ = inArgs;
}
// Set up prototypical OutArgs
{
typedef Thyra::ModelEvaluatorBase MEB;
MEB::OutArgsSetup<Scalar> outArgs;
outArgs.setModelEvalDescription(this->description());
outArgs.setSupports(MEB::OUT_ARG_f);
outArgs.setSupports(MEB::OUT_ARG_W_op);
outArgs_ = outArgs;
}
// Set up nominal values
nominalValues_ = inArgs_;
isInitialized_ = true;
}
template<class Scalar>
void DiagonalImplicitRKModelEvaluator<Scalar>::setTimeStepPoint(
const RCP<const Thyra::VectorBase<Scalar> > &x_old,
const Scalar &t_old,
const Scalar &delta_t
)
{
typedef ScalarTraits<Scalar> ST;
TEUCHOS_TEST_FOR_EXCEPT( is_null(x_old) );
TEUCHOS_TEST_FOR_EXCEPT( delta_t <= ST::zero() );
// Verify x_old is compatible with the vector space in the DAE Model.
TEUCHOS_TEST_FOR_EXCEPTION(!daeModel_->get_x_space()->isCompatible(*(x_old->space())), std::logic_error,
"Error! The incoming VectorBase object is not compatible with the DAE model that was provided at initialization!");
x_old_ = x_old;
t_old_ = t_old;
delta_t_ = delta_t;
setTimeStepPointCalled_ = true;
}
template<class Scalar>
void DiagonalImplicitRKModelEvaluator<Scalar>::setStageSolution(
int stageNumber,
const Thyra::VectorBase<Scalar>& stage_solution
)
{
TEUCHOS_TEST_FOR_EXCEPT(stageNumber < 0);
TEUCHOS_TEST_FOR_EXCEPT(stageNumber >= dirkButcherTableau_->numStages());
Thyra::V_V(stage_derivatives_->getNonconstVectorBlock(stageNumber).ptr(),stage_solution);
}
template<class Scalar>
void DiagonalImplicitRKModelEvaluator<Scalar>::setCurrentStage(
int currentStage
)
{
TEUCHOS_TEST_FOR_EXCEPT(currentStage < 0);
TEUCHOS_TEST_FOR_EXCEPT(currentStage >= dirkButcherTableau_->numStages());
currentStage_ = currentStage;
}
// Overridden from ModelEvaluator
template<class Scalar>
RCP<const Thyra::VectorSpaceBase<Scalar> >
DiagonalImplicitRKModelEvaluator<Scalar>::get_x_space() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return daeModel_->get_x_space();
}
template<class Scalar>
RCP<const Thyra::VectorSpaceBase<Scalar> >
DiagonalImplicitRKModelEvaluator<Scalar>::get_f_space() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return daeModel_->get_f_space();
}
template<class Scalar>
RCP<Thyra::LinearOpBase<Scalar> >
DiagonalImplicitRKModelEvaluator<Scalar>::create_W_op() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return daeModel_->create_W_op();
}
template<class Scalar>
RCP<const Thyra::LinearOpWithSolveFactoryBase<Scalar> >
DiagonalImplicitRKModelEvaluator<Scalar>::get_W_factory() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return daeModel_->get_W_factory();
}
template<class Scalar>
Thyra::ModelEvaluatorBase::InArgs<Scalar>
DiagonalImplicitRKModelEvaluator<Scalar>::getNominalValues() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return nominalValues_;
}
template<class Scalar>
Thyra::ModelEvaluatorBase::InArgs<Scalar>
DiagonalImplicitRKModelEvaluator<Scalar>::createInArgs() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return inArgs_;
}
// Private functions overridden from ModelEvaluatorDefaultBase
template<class Scalar>
Thyra::ModelEvaluatorBase::OutArgs<Scalar>
DiagonalImplicitRKModelEvaluator<Scalar>::createOutArgsImpl() const
{
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error, initializeDIRKModel must be called first!\n"
);
return outArgs_;
}
template<class Scalar>
void DiagonalImplicitRKModelEvaluator<Scalar>::evalModelImpl(
const Thyra::ModelEvaluatorBase::InArgs<Scalar>& inArgs_stage,
const Thyra::ModelEvaluatorBase::OutArgs<Scalar>& outArgs_stage
) const
{
typedef ScalarTraits<Scalar> ST;
typedef Thyra::ModelEvaluatorBase MEB;
typedef typename Thyra::ModelEvaluatorBase::InArgs<Scalar>::ScalarMag TScalarMag;
TEUCHOS_TEST_FOR_EXCEPTION( !isInitialized_, std::logic_error,
"Error! initializeDIRKModel must be called before evalModel\n"
);
TEUCHOS_TEST_FOR_EXCEPTION( !setTimeStepPointCalled_, std::logic_error,
"Error! setTimeStepPoint must be called before evalModel"
);
TEUCHOS_TEST_FOR_EXCEPTION( currentStage_ == -1, std::logic_error,
"Error! setCurrentStage must be called before evalModel"
);
THYRA_MODEL_EVALUATOR_DECORATOR_EVAL_MODEL_GEN_BEGIN(
"Rythmos::DiagonalImplicitRKModelEvaluator",inArgs_stage,outArgs_stage,daeModel_
);
//
// A) Unwrap the inArgs and outArgs
//
const RCP<const Thyra::VectorBase<Scalar> > x_in = inArgs_stage.get_x();
const RCP<Thyra::VectorBase<Scalar> > f_out = outArgs_stage.get_f();
const RCP<Thyra::LinearOpBase<Scalar> > W_op_out = outArgs_stage.get_W_op();
//
// B) Assemble f_out and W_op_out for given stage
//
MEB::InArgs<Scalar> daeInArgs = daeModel_->createInArgs();
MEB::OutArgs<Scalar> daeOutArgs = daeModel_->createOutArgs();
const RCP<Thyra::VectorBase<Scalar> > x_i = createMember(daeModel_->get_x_space());
daeInArgs.setArgs(basePoint_);
// B.1) Setup the DAE's inArgs for stage f(currentStage_) ...
V_V(stage_derivatives_->getNonconstVectorBlock(currentStage_).ptr(),*x_in);
assembleIRKState( currentStage_, dirkButcherTableau_->A(), delta_t_, *x_old_, *stage_derivatives_, outArg(*x_i) );
daeInArgs.set_x( x_i );
daeInArgs.set_x_dot( x_in );
daeInArgs.set_t( t_old_ + dirkButcherTableau_->c()(currentStage_) * delta_t_ );
daeInArgs.set_alpha(ST::one());
daeInArgs.set_beta( delta_t_ * dirkButcherTableau_->A()(currentStage_,currentStage_) );
if (daeInArgs.supports(MEB::IN_ARG_step_size)) {
TScalarMag scaled_dt;
if (currentStage_ == 0 && dirkButcherTableau_->A()(currentStage_,currentStage_) == 0) {
scaled_dt = Scalar( delta_t_ /dirkButcherTableau_->numStages() );
} else {
scaled_dt = dirkButcherTableau_->c()(currentStage_) * delta_t_;
}
daeInArgs.set_step_size( scaled_dt );
}
if (daeInArgs.supports(MEB::IN_ARG_stage_number)) {
daeInArgs.set_stage_number( dirkButcherTableau_->c()(currentStage_) );
}
// B.2) Setup the DAE's outArgs for stage f(i) ...
if (!is_null(f_out))
daeOutArgs.set_f( f_out );
if (!is_null(W_op_out))
daeOutArgs.set_W_op(W_op_out);
// B.3) Compute f_out(i) and/or W_op_out ...
daeModel_->evalModel( daeInArgs, daeOutArgs );
daeOutArgs.set_f(Teuchos::null);
daeOutArgs.set_W_op(Teuchos::null);
THYRA_MODEL_EVALUATOR_DECORATOR_EVAL_MODEL_END();
}
} // namespace Rythmos
#endif // RYTHMOS_DIAGONALIMPLICITRK_MODEL_EVALUATOR_HPP
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