EpetraExt::ModelEvaluator::OutArgs
LorenzModel::createOutArgs() const
{
OutArgsSetup outArgs;
outArgs.setSupports(OUT_ARG_f,true);
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs
ExampleApplication1Dfem::createOutArgs() const
{
OutArgsSetup outArgs;
outArgs.setSupports(OUT_ARG_f,true);
outArgs.setSupports(OUT_ARG_W,true);
return outArgs;
}
// Create OutArgs
EpetraExt::ModelEvaluator::OutArgs trilinosModelEvaluator::createOutArgs() const{
OutArgsSetup outArgs;
outArgs.setModelEvalDescription(this->description());
outArgs.set_Np_Ng(0, 0);
outArgs.setSupports(OUT_ARG_f,true);
outArgs.setSupports(OUT_ARG_WPrec, true);
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs
twoD_diffusion_ME::
createOutArgs() const
{
OutArgsSetup outArgs;
outArgs.setModelEvalDescription("TwoD Diffusion Model Evaluator");
// Deterministic OutArgs
outArgs.set_Np_Ng(1, 1);
outArgs.setSupports(OUT_ARG_f,true);
outArgs.setSupports(OUT_ARG_W,true);
if (precFactory != Teuchos::null)
outArgs.setSupports(OUT_ARG_WPrec,true);
// Stochastic OutArgs
outArgs.setSupports(OUT_ARG_f_sg,true);
outArgs.setSupports(OUT_ARG_W_sg,true);
outArgs.setSupports(OUT_ARG_g_sg, 0, true);
// Multipoint OutArgs
outArgs.setSupports(OUT_ARG_f_mp,true);
outArgs.setSupports(OUT_ARG_W_mp,true);
outArgs.setSupports(OUT_ARG_g_mp, 0, true);
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs
VanDerPolOscillator::createOutArgs() const
{
OutArgsSetup outArgs;
outArgs.setSupports(OUT_ARG_f,true);
outArgs.setSupports(OUT_ARG_f_poly,true);
if(implicit_) {
outArgs.setSupports(OUT_ARG_W,true);
}
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs QCAD::GenEigensolver::createOutArgs() const
{
//Based on Piro_Epetra_NOXSolver.cpp implementation
OutArgsSetup outArgs;
outArgs.setModelEvalDescription("QCAD Generalized Eigensolver Model Evaluator");
// Ng is 1 bigger then model's Ng so that the solution vector can be an outarg
outArgs.set_Np_Ng(model_num_p, model_num_g+1);
//Derivative info
EpetraExt::ModelEvaluator::OutArgs model_outArgs = model->createOutArgs();
for (int i=0; i<model_num_g; i++) {
for (int j=0; j<model_num_p; j++)
outArgs.setSupports(OUT_ARG_DgDp, i, j, model_outArgs.supports(OUT_ARG_DgDp, i, j));
}
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs
Stokhos::MPInverseModelEvaluator::createOutArgs() const
{
OutArgsSetup outArgs;
OutArgs me_outargs = me->createOutArgs();
outArgs.setModelEvalDescription(this->description());
outArgs.set_Np_Ng(num_p, num_g);
for (int i=0; i<num_g_mp; i++) {
outArgs.setSupports(OUT_ARG_g_mp, mp_g_index_map[i], true);
for (int j=0; j<num_p; j++)
outArgs.setSupports(OUT_ARG_DgDp_mp, mp_g_index_map[i], j,
me_outargs.supports(OUT_ARG_DgDp,i,j));
}
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs
Albany::ModelEvaluator::createOutArgs() const
{
OutArgsSetup outArgs;
outArgs.setModelEvalDescription(this->description());
int n_g = app->getNumResponses();
// Deterministic
outArgs.setSupports(OUT_ARG_f,true);
outArgs.setSupports(OUT_ARG_W,true);
outArgs.set_W_properties(
DerivativeProperties(DERIV_LINEARITY_UNKNOWN, DERIV_RANK_FULL, true));
if (supplies_prec) outArgs.setSupports(OUT_ARG_WPrec, true);
outArgs.set_Np_Ng(num_param_vecs+num_dist_param_vecs, n_g);
for (int i=0; i<num_param_vecs; i++)
outArgs.setSupports(OUT_ARG_DfDp, i, DerivativeSupport(DERIV_MV_BY_COL));
for (int i=0; i<num_dist_param_vecs; i++)
outArgs.setSupports(OUT_ARG_DfDp, i+num_param_vecs,
DerivativeSupport(DERIV_LINEAR_OP));
for (int i=0; i<n_g; i++) {
if (app->getResponse(i)->isScalarResponse()) {
outArgs.setSupports(OUT_ARG_DgDx, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
outArgs.setSupports(OUT_ARG_DgDx_dot, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
outArgs.setSupports(OUT_ARG_DgDx_dotdot, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
}
else {
outArgs.setSupports(OUT_ARG_DgDx, i,
DerivativeSupport(DERIV_LINEAR_OP));
outArgs.setSupports(OUT_ARG_DgDx_dot, i,
DerivativeSupport(DERIV_LINEAR_OP));
outArgs.setSupports(OUT_ARG_DgDx_dotdot, i,
DerivativeSupport(DERIV_LINEAR_OP));
}
for (int j=0; j<num_param_vecs; j++)
outArgs.setSupports(OUT_ARG_DgDp, i, j,
DerivativeSupport(DERIV_MV_BY_COL));
if (app->getResponse(i)->isScalarResponse()) {
for (int j=0; j<num_dist_param_vecs; j++)
outArgs.setSupports(OUT_ARG_DgDp, i, j+num_param_vecs,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
}
else {
for (int j=0; j<num_dist_param_vecs; j++)
outArgs.setSupports(OUT_ARG_DgDp, i, j+num_param_vecs,
DerivativeSupport(DERIV_LINEAR_OP));
}
}
#ifdef ALBANY_SG_MP
// Stochastic
outArgs.setSupports(OUT_ARG_f_sg,true);
outArgs.setSupports(OUT_ARG_W_sg,true);
for (int i=0; i<num_param_vecs; i++)
outArgs.setSupports(OUT_ARG_DfDp_sg, i, DerivativeSupport(DERIV_MV_BY_COL));
for (int i=0; i<n_g; i++)
outArgs.setSupports(OUT_ARG_g_sg, i, true);
for (int i=0; i<n_g; i++) {
if (app->getResponse(i)->isScalarResponse()) {
outArgs.setSupports(OUT_ARG_DgDx_sg, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
outArgs.setSupports(OUT_ARG_DgDx_dot_sg, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
outArgs.setSupports(OUT_ARG_DgDx_dotdot_sg, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
}
else {
outArgs.setSupports(OUT_ARG_DgDx_sg, i,
DerivativeSupport(DERIV_LINEAR_OP));
outArgs.setSupports(OUT_ARG_DgDx_dot_sg, i,
DerivativeSupport(DERIV_LINEAR_OP));
outArgs.setSupports(OUT_ARG_DgDx_dotdot_sg, i,
DerivativeSupport(DERIV_LINEAR_OP));
}
for (int j=0; j<num_param_vecs; j++)
outArgs.setSupports(OUT_ARG_DgDp_sg, i, j,
DerivativeSupport(DERIV_MV_BY_COL));
}
// Multi-point
outArgs.setSupports(OUT_ARG_f_mp,true);
outArgs.setSupports(OUT_ARG_W_mp,true);
for (int i=0; i<num_param_vecs; i++)
outArgs.setSupports(OUT_ARG_DfDp_mp, i, DerivativeSupport(DERIV_MV_BY_COL));
for (int i=0; i<n_g; i++)
outArgs.setSupports(OUT_ARG_g_mp, i, true);
for (int i=0; i<n_g; i++) {
outArgs.setSupports(OUT_ARG_g_mp, i, true);
if (app->getResponse(i)->isScalarResponse()) {
outArgs.setSupports(OUT_ARG_DgDx_mp, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
outArgs.setSupports(OUT_ARG_DgDx_dot_mp, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
outArgs.setSupports(OUT_ARG_DgDx_dotdot_mp, i,
DerivativeSupport(DERIV_TRANS_MV_BY_ROW));
}
else {
outArgs.setSupports(OUT_ARG_DgDx_mp, i,
DerivativeSupport(DERIV_LINEAR_OP));
outArgs.setSupports(OUT_ARG_DgDx_dot_mp, i,
DerivativeSupport(DERIV_LINEAR_OP));
outArgs.setSupports(OUT_ARG_DgDx_dotdot_mp, i,
DerivativeSupport(DERIV_LINEAR_OP));
}
for (int j=0; j<num_param_vecs; j++)
outArgs.setSupports(OUT_ARG_DgDp_mp, i, j,
DerivativeSupport(DERIV_MV_BY_COL));
}
#endif
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs
Stokhos::SGQuadModelEvaluator::
createOutArgs() const
{
OutArgsSetup outArgs;
OutArgs me_outargs = me->createOutArgs();
outArgs.setModelEvalDescription(this->description());
outArgs.set_Np_Ng(num_p, num_g);
outArgs.setSupports(OUT_ARG_f, me_outargs.supports(OUT_ARG_f));
outArgs.setSupports(OUT_ARG_W, me_outargs.supports(OUT_ARG_W));
for (int j=0; j<num_p; j++)
outArgs.setSupports(OUT_ARG_DfDp, j,
me_outargs.supports(OUT_ARG_DfDp, j));
for (int i=0; i<num_g; i++) {
outArgs.setSupports(OUT_ARG_DgDx, i,
me_outargs.supports(OUT_ARG_DgDx, i));
outArgs.setSupports(OUT_ARG_DgDx_dot, i,
me_outargs.supports(OUT_ARG_DgDx_dot, i));
for (int j=0; j<num_p; j++)
outArgs.setSupports(OUT_ARG_DgDp, i, j,
me_outargs.supports(OUT_ARG_DgDp, i, j));
}
outArgs.setSupports(OUT_ARG_f_sg, me_outargs.supports(OUT_ARG_f));
if (me_outargs.supports(OUT_ARG_W)) {
outArgs.set_W_properties(me_outargs.get_W_properties());
outArgs.setSupports(OUT_ARG_W_sg, true);
}
for (int j=0; j<num_p; j++) {
outArgs.setSupports(OUT_ARG_DfDp_sg, j,
me_outargs.supports(OUT_ARG_DfDp, j));
}
for (int i=0; i<num_g; i++) {
outArgs.setSupports(OUT_ARG_g_sg, i, true);
outArgs.setSupports(OUT_ARG_DgDx_sg, i,
me_outargs.supports(OUT_ARG_DgDx, i));
outArgs.setSupports(OUT_ARG_DgDx_dot_sg, i,
me_outargs.supports(OUT_ARG_DgDx_dot, i));
for (int j=0; j<num_p; j++)
outArgs.setSupports(OUT_ARG_DgDp_sg, i, j,
me_outargs.supports(OUT_ARG_DgDp, i, j));
}
return outArgs;
}
EpetraExt::ModelEvaluator::OutArgs EpetraExt::MultiPointModelEvaluator::createOutArgs() const
{
//return underlyingME->createOutArgs();
OutArgsSetup outArgs;
outArgs.setModelEvalDescription(this->description());
outArgs.set_Np_Ng(1, underlyingNg);
outArgs.setSupports(OUT_ARG_f,true);
outArgs.setSupports(OUT_ARG_W,true);
outArgs.set_W_properties(
DerivativeProperties(
DERIV_LINEARITY_NONCONST
,DERIV_RANK_FULL
,true // supportsAdjoint
)
);
outArgs.setSupports(OUT_ARG_DfDp,0,DERIV_MV_BY_COL);
outArgs.set_DfDp_properties(
0,DerivativeProperties(
DERIV_LINEARITY_CONST
,DERIV_RANK_DEFICIENT
,true // supportsAdjoint
)
);
if (underlyingNg) {
outArgs.setSupports(OUT_ARG_DgDx,0,DERIV_TRANS_MV_BY_ROW);
outArgs.set_DgDx_properties(
0,DerivativeProperties(
DERIV_LINEARITY_NONCONST
,DERIV_RANK_DEFICIENT
,true // supportsAdjoint
)
);
outArgs.setSupports(OUT_ARG_DgDp,0,0, orientation_DgDp);
outArgs.set_DgDp_properties(
0,0,DerivativeProperties(
DERIV_LINEARITY_NONCONST
,DERIV_RANK_DEFICIENT
,true // supportsAdjoint
)
);
}
return outArgs;
}
