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Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp
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1//@HEADER
2// *****************************************************************************
3// Tempus: Time Integration and Sensitivity Analysis Package
4//
5// Copyright 2017 NTESS and the Tempus contributors.
6// SPDX-License-Identifier: BSD-3-Clause
7// *****************************************************************************
8//@HEADER
9
10#ifndef Tempus_AuxiliaryIntegralModelEvaluator_impl_hpp
11#define Tempus_AuxiliaryIntegralModelEvaluator_impl_hpp
12
13#include "Thyra_ScaledIdentityLinearOpWithSolve.hpp"
14#include "Thyra_ScaledIdentityLinearOpWithSolveFactory.hpp"
15#include "Thyra_VectorStdOps.hpp"
16
17namespace Tempus {
18
19template <typename Scalar>
20AuxiliaryIntegralModelEvaluator<Scalar>::AuxiliaryIntegralModelEvaluator(
21 const Teuchos::RCP<const Thyra::ModelEvaluator<Scalar> > &model,
22 const int g_index)
23 : model_(model),
24 g_index_(g_index),
25 t_interp_(Teuchos::ScalarTraits<Scalar>::rmax())
26{
27 typedef Thyra::ModelEvaluatorBase MEB;
28
29 space_ = model_->get_g_space(g_index);
30
31 MEB::InArgs<Scalar> me_inArgs = model_->createInArgs();
32 MEB::InArgsSetup<Scalar> inArgs;
33 inArgs.setModelEvalDescription(this->description());
34 inArgs.setSupports(MEB::IN_ARG_x);
35 inArgs.setSupports(MEB::IN_ARG_t);
36 if (me_inArgs.supports(MEB::IN_ARG_x_dot))
37 inArgs.setSupports(MEB::IN_ARG_x_dot);
38 inArgs.setSupports(MEB::IN_ARG_alpha);
39 inArgs.setSupports(MEB::IN_ARG_beta);
40 inArgs.set_Np(me_inArgs.Np());
41 prototypeInArgs_ = inArgs;
42
43 MEB::OutArgs<Scalar> me_outArgs = model_->createOutArgs();
44 MEB::OutArgsSetup<Scalar> outArgs;
45 outArgs.setModelEvalDescription(this->description());
46 outArgs.set_Np_Ng(me_inArgs.Np(), 0);
47 outArgs.setSupports(MEB::OUT_ARG_f);
48 outArgs.setSupports(MEB::OUT_ARG_W_op);
49 prototypeOutArgs_ = outArgs;
50}
51
52template <typename Scalar>
53void AuxiliaryIntegralModelEvaluator<Scalar>::setForwardSolutionHistory(
54 const Teuchos::RCP<const Tempus::SolutionHistory<Scalar> > &sh)
55{
56 sh_ = sh;
57 t_interp_ = Teuchos::ScalarTraits<Scalar>::rmax();
58 forward_state_ = Teuchos::null;
59}
60
61template <typename Scalar>
62Teuchos::RCP<const Thyra::VectorSpaceBase<Scalar> >
63AuxiliaryIntegralModelEvaluator<Scalar>::get_p_space(int p) const
64{
65 TEUCHOS_ASSERT(p < model_->Np());
66 return model_->get_p_space(p);
67}
68
69template <typename Scalar>
70Teuchos::RCP<const Teuchos::Array<std::string> >
71AuxiliaryIntegralModelEvaluator<Scalar>::get_p_names(int p) const
72{
73 TEUCHOS_ASSERT(p < model_->Np());
74 return model_->get_p_names(p);
75}
76
77template <typename Scalar>
78Teuchos::RCP<const Thyra::VectorSpaceBase<Scalar> >
83
84template <typename Scalar>
85Teuchos::RCP<const Thyra::VectorSpaceBase<Scalar> >
90
91template <typename Scalar>
92Teuchos::RCP<Thyra::LinearOpBase<Scalar> >
93AuxiliaryIntegralModelEvaluator<Scalar>::create_W_op() const
94{
95 return Thyra::scaledIdentity(space_, Scalar(1.0));
96}
97
98template <typename Scalar>
99Teuchos::RCP<const Thyra::LinearOpWithSolveFactoryBase<Scalar> >
100AuxiliaryIntegralModelEvaluator<Scalar>::get_W_factory() const
101{
102 return Thyra::scaledIdentitySolveFactory(space_, Scalar(1.0));
103}
104
105template <typename Scalar>
106Thyra::ModelEvaluatorBase::InArgs<Scalar>
107AuxiliaryIntegralModelEvaluator<Scalar>::createInArgs() const
108{
109 return prototypeInArgs_;
110}
111
112template <typename Scalar>
113Thyra::ModelEvaluatorBase::InArgs<Scalar>
114AuxiliaryIntegralModelEvaluator<Scalar>::getNominalValues() const
115{
116 typedef Thyra::ModelEvaluatorBase MEB;
117 using Teuchos::RCP;
118 using Teuchos::rcp_dynamic_cast;
119
120 MEB::InArgs<Scalar> me_nominal = model_->getNominalValues();
121 MEB::InArgs<Scalar> nominal = this->createInArgs();
122
123 const Scalar zero = Teuchos::ScalarTraits<Scalar>::zero();
124
125 // Set initial x, x_dot
126 RCP<Thyra::VectorBase<Scalar> > x = Thyra::createMember(*space_);
127 Thyra::assign(x.ptr(), zero);
128 nominal.set_x(x);
129
130 if (me_nominal.supports(MEB::IN_ARG_x_dot)) {
131 RCP<Thyra::VectorBase<Scalar> > x_dot = Thyra::createMember(*space_);
132 Thyra::assign(x_dot.ptr(), zero);
133 nominal.set_x_dot(x_dot);
134 }
135
136 const int np = model_->Np();
137 for (int i = 0; i < np; ++i) nominal.set_p(i, me_nominal.get_p(i));
138
139 return nominal;
140}
141
142template <typename Scalar>
143Thyra::ModelEvaluatorBase::OutArgs<Scalar>
144AuxiliaryIntegralModelEvaluator<Scalar>::createOutArgsImpl() const
145{
146 return prototypeOutArgs_;
147}
148
149template <typename Scalar>
150void AuxiliaryIntegralModelEvaluator<Scalar>::evalModelImpl(
151 const Thyra::ModelEvaluatorBase::InArgs<Scalar> &inArgs,
152 const Thyra::ModelEvaluatorBase::OutArgs<Scalar> &outArgs) const
153{
154 typedef Thyra::ModelEvaluatorBase MEB;
155 using Teuchos::RCP;
156 using Teuchos::rcp_dynamic_cast;
157
158 // Interpolate forward solution at supplied time, reusing previous
159 // interpolation if possible
160 TEUCHOS_ASSERT(sh_ != Teuchos::null);
161 const Scalar t = inArgs.get_t();
162 if (forward_state_ == Teuchos::null || t_interp_ != t) {
163 if (forward_state_ == Teuchos::null)
164 forward_state_ = sh_->interpolateState(t);
165 else
166 sh_->interpolateState(t, forward_state_.get());
167 t_interp_ = t;
168 }
169
170 // Residual
171 RCP<Thyra::VectorBase<Scalar> > f = outArgs.get_f();
172 if (f != Teuchos::null) {
173 MEB::InArgs<Scalar> me_inArgs = model_->getNominalValues();
174 me_inArgs.set_x(forward_state_->getX());
175 if (me_inArgs.supports(MEB::IN_ARG_x_dot))
176 me_inArgs.set_x_dot(forward_state_->getXDot());
177 if (me_inArgs.supports(MEB::IN_ARG_t)) me_inArgs.set_t(t);
178 const int np = me_inArgs.Np();
179 for (int i = 0; i < np; ++i) me_inArgs.set_p(i, inArgs.get_p(i));
180
181 MEB::OutArgs<Scalar> me_outArgs = model_->createOutArgs();
182 me_outArgs.set_g(g_index_, f);
183
184 model_->evalModel(me_inArgs, me_outArgs);
185
186 // For explicit form, f = g and we are done
187 // For implicit form, f = dz/dt - g
188 if (inArgs.supports(MEB::IN_ARG_x_dot)) {
189 RCP<const Thyra::VectorBase<Scalar> > x_dot = inArgs.get_x_dot();
190 if (x_dot != Teuchos::null) Thyra::V_VmV(f.ptr(), *x_dot, *f);
191 }
192 }
193
194 // W = alpha*df/z_dot + beta*df/dz = alpha * I
195 RCP<Thyra::LinearOpBase<Scalar> > op = outArgs.get_W_op();
196 if (op != Teuchos::null) {
197 const Scalar alpha = inArgs.get_alpha();
198 RCP<Thyra::ScaledIdentityLinearOpWithSolve<Scalar> > si_op =
199 rcp_dynamic_cast<Thyra::ScaledIdentityLinearOpWithSolve<Scalar> >(op);
200 si_op->setScale(alpha);
201 }
202}
203
204} // namespace Tempus
205
206#endif
Thyra_ScaledIdentityLinearOpWithSolveFactory.hpp
Thyra_ScaledIdentityLinearOpWithSolve.hpp
Tempus::AuxiliaryIntegralModelEvaluator::getNominalValues
Thyra::ModelEvaluatorBase::InArgs< Scalar > getNominalValues() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:114
Tempus::AuxiliaryIntegralModelEvaluator::get_x_space
Teuchos::RCP< const Thyra::VectorSpaceBase< Scalar > > get_x_space() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:79
Tempus::AuxiliaryIntegralModelEvaluator::evalModelImpl
void evalModelImpl(const Thyra::ModelEvaluatorBase::InArgs< Scalar > &inArgs, const Thyra::ModelEvaluatorBase::OutArgs< Scalar > &outArgs) const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:150
Tempus::AuxiliaryIntegralModelEvaluator::AuxiliaryIntegralModelEvaluator
AuxiliaryIntegralModelEvaluator(const Teuchos::RCP< const Thyra::ModelEvaluator< Scalar > > &model, const int g_index)
Constructor.
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:20
Tempus::AuxiliaryIntegralModelEvaluator::get_p_space
Teuchos::RCP< const Thyra::VectorSpaceBase< Scalar > > get_p_space(int p) const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:63
Tempus::AuxiliaryIntegralModelEvaluator::get_p_names
Teuchos::RCP< const Teuchos::Array< std::string > > get_p_names(int p) const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:71
Tempus::AuxiliaryIntegralModelEvaluator::create_W_op
Teuchos::RCP< Thyra::LinearOpBase< Scalar > > create_W_op() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:93
Tempus::AuxiliaryIntegralModelEvaluator::get_f_space
Teuchos::RCP< const Thyra::VectorSpaceBase< Scalar > > get_f_space() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:86
Tempus::AuxiliaryIntegralModelEvaluator::space_
Teuchos::RCP< const Thyra::VectorSpaceBase< Scalar > > space_
Definition Tempus_AuxiliaryIntegralModelEvaluator_decl.hpp:83
Tempus::AuxiliaryIntegralModelEvaluator::prototypeOutArgs_
Thyra::ModelEvaluatorBase::OutArgs< Scalar > prototypeOutArgs_
Definition Tempus_AuxiliaryIntegralModelEvaluator_decl.hpp:80
Tempus::AuxiliaryIntegralModelEvaluator::setForwardSolutionHistory
void setForwardSolutionHistory(const Teuchos::RCP< const Tempus::SolutionHistory< Scalar > > &sh)
Set solution history from forward evaluation.
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:53
Tempus::AuxiliaryIntegralModelEvaluator::model_
Teuchos::RCP< const Thyra::ModelEvaluator< Scalar > > model_
Definition Tempus_AuxiliaryIntegralModelEvaluator_decl.hpp:82
Tempus::AuxiliaryIntegralModelEvaluator::createInArgs
Thyra::ModelEvaluatorBase::InArgs< Scalar > createInArgs() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:107
Tempus::AuxiliaryIntegralModelEvaluator::createOutArgsImpl
Thyra::ModelEvaluatorBase::OutArgs< Scalar > createOutArgsImpl() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:144
Tempus::AuxiliaryIntegralModelEvaluator::get_W_factory
Teuchos::RCP< const Thyra::LinearOpWithSolveFactoryBase< Scalar > > get_W_factory() const
Definition Tempus_AuxiliaryIntegralModelEvaluator_impl.hpp:100
Tempus::SolutionHistory
SolutionHistory is basically a container of SolutionStates. SolutionHistory maintains a collection of...
Definition Tempus_SolutionHistory_decl.hpp:119
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