51 const Teuchos::RCP<EpetraExt::ModelEvaluator>& me_,
52 const Teuchos::Array<int>& sg_p_index_map_,
53 const Teuchos::Array<int>& sg_g_index_map_,
54 const Teuchos::Array< Teuchos::RCP<const Epetra_Map> >& base_g_maps_) :
56 sg_p_index_map(sg_p_index_map_),
57 sg_g_index_map(sg_g_index_map_),
58 base_g_maps(base_g_maps_),
61 num_p_sg(sg_p_index_map.size()),
62 num_g_sg(sg_g_index_map.size())
64 InArgs me_inargs =
me->createInArgs();
65 OutArgs me_outargs =
me->createOutArgs();
67 num_g = me_outargs.Ng();
69 TEUCHOS_TEST_FOR_EXCEPTION(
72 <<
"Error! Stokhos::SGInverseModelEvaluator::SGInverseModelEvaluator():"
73 <<
" Base response map array size does not match size of index array!");
140 InArgs me_inargs = me->createInArgs();
142 inArgs.setModelEvalDescription(this->description());
143 inArgs.set_Np(num_p);
144 for (
int i=0; i<num_p_sg; i++)
145 inArgs.setSupports(IN_ARG_p_sg, sg_p_index_map[i],
true);
146 inArgs.setSupports(IN_ARG_sg_basis, me_inargs.supports(IN_ARG_sg_basis));
147 inArgs.setSupports(IN_ARG_sg_quadrature,
148 me_inargs.supports(IN_ARG_sg_quadrature));
149 inArgs.setSupports(IN_ARG_sg_expansion,
150 me_inargs.supports(IN_ARG_sg_expansion));
158 OutArgsSetup outArgs;
159 OutArgs me_outargs = me->createOutArgs();
161 outArgs.setModelEvalDescription(this->description());
163 outArgs.set_Np_Ng(num_p, num_g);
164 for (
int i=0; i<num_g_sg; i++) {
165 outArgs.setSupports(OUT_ARG_g_sg, sg_g_index_map[i],
true);
166 for (
int j=0;
j<num_p;
j++)
167 outArgs.setSupports(OUT_ARG_DgDp_sg, sg_g_index_map[i],
j,
168 me_outargs.supports(OUT_ARG_DgDp, i,
j));
176 const OutArgs& outArgs)
const
179 InArgs me_inargs = me->createInArgs();
182 for (
int i=0; i<num_p; i++)
183 me_inargs.set_p(i, inArgs.get_p(i));
186 for (
int i=0; i<num_p_sg; i++) {
187 InArgs::sg_const_vector_t p_sg = inArgs.get_p_sg(sg_p_index_map[i]);
188 if (p_sg != Teuchos::null) {
189 me_inargs.set_p(i+num_p, p_sg->getBlockVector());
194 if (me_inargs.supports(IN_ARG_sg_basis))
195 me_inargs.set_sg_basis(inArgs.get_sg_basis());
196 if (me_inargs.supports(IN_ARG_sg_quadrature))
197 me_inargs.set_sg_quadrature(inArgs.get_sg_quadrature());
198 if (me_inargs.supports(IN_ARG_sg_expansion))
199 me_inargs.set_sg_expansion(inArgs.get_sg_expansion());
202 OutArgs me_outargs = me->createOutArgs();
205 for (
int i=0; i<num_g_sg; i++) {
206 int ii = sg_g_index_map[i];
209 OutArgs::sg_vector_t g_sg = outArgs.get_g_sg(ii);
210 if (g_sg != Teuchos::null) {
211 me_outargs.set_g(i, Teuchos::rcp_dynamic_cast<Epetra_Vector>(g_sg->getBlockVector()));
215 for (
int j=0;
j<num_p;
j++) {
216 if (!outArgs.supports(OUT_ARG_DgDp_sg, ii,
j).none()) {
217 SGDerivative dgdp_sg = outArgs.get_DgDp_sg(ii,
j);
218 Teuchos::RCP< Stokhos::EpetraMultiVectorOrthogPoly > dgdp_sg_mv =
219 dgdp_sg.getMultiVector();
220 Teuchos::RCP<Epetra_Operator> dgdp_sg_op =
221 dgdp_sg.getLinearOp();
222 if (dgdp_sg_mv != Teuchos::null) {
224 i,
j, Derivative(dgdp_sg_mv->getBlockMultiVector(),
225 dgdp_sg.getMultiVectorOrientation()));
227 else if (dgdp_sg_op != Teuchos::null) {
228 me_outargs.set_DgDp(i,
j, Derivative(dgdp_sg_op));
236 me->evalModel(me_inargs, me_outargs);